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#!/usr/bin/env python # -*- coding: utf-8 -*- # # Generated Sun Apr 21 16:29:47 2024 by generateDS.py version 2.43.3. # Python 3.8.10 (default, Nov 22 2023, 10:22:35) [GCC 9.4.0] # # Command line options: # ('-q', '') # ('-f', '') # ('-o', 'pyone/bindings/supbind.py') # ('-s', 'pyone/bindings/__init__.py') # ('--super', 'supbind') # ('--external-encoding', 'utf-8') # ('--silence', '') # # Command line arguments: # ../../../share/doc/xsd/index.xsd # # Command line: # /home/one/init-build-jenkins.7NjaSQ/one/src/oca/python/bin/generateDS -q -f -o "pyone/bindings/supbind.py" -s "pyone/bindings/__init__.py" --super="supbind" --external-encoding="utf-8" --silence ../../../share/doc/xsd/index.xsd # # Current working directory (os.getcwd()): # python # import sys try: ModulenotfoundExp_ = ModuleNotFoundError except NameError: ModulenotfoundExp_ = ImportError from six.moves import zip_longest import os import re as re_ import base64 import datetime as datetime_ import decimal as decimal_ from lxml import etree as etree_ Validate_simpletypes_ = True SaveElementTreeNode = True TagNamePrefix = "" if sys.version_info.major == 2: BaseStrType_ = basestring else: BaseStrType_ = str def parsexml_(infile, parser=None, **kwargs): if parser is None: # Use the lxml ElementTree compatible parser so that, e.g., # we ignore comments. try: parser = etree_.ETCompatXMLParser() except AttributeError: # fallback to xml.etree parser = etree_.XMLParser() try: if isinstance(infile, os.PathLike): infile = os.path.join(infile) except AttributeError: pass doc = etree_.parse(infile, parser=parser, **kwargs) return doc def parsexmlstring_(instring, parser=None, **kwargs): if parser is None: # Use the lxml ElementTree compatible parser so that, e.g., # we ignore comments. try: parser = etree_.ETCompatXMLParser() except AttributeError: # fallback to xml.etree parser = etree_.XMLParser() element = etree_.fromstring(instring, parser=parser, **kwargs) return element # # Namespace prefix definition table (and other attributes, too) # # The module generatedsnamespaces, if it is importable, must contain # a dictionary named GeneratedsNamespaceDefs. This Python dictionary # should map element type names (strings) to XML schema namespace prefix # definitions. The export method for any class for which there is # a namespace prefix definition, will export that definition in the # XML representation of that element. See the export method of # any generated element type class for an example of the use of this # table. # A sample table is: # # # File: generatedsnamespaces.py # # GenerateDSNamespaceDefs = { # "ElementtypeA": "http://www.xxx.com/namespaceA", # "ElementtypeB": "http://www.xxx.com/namespaceB", # } # # Additionally, the generatedsnamespaces module can contain a python # dictionary named GenerateDSNamespaceTypePrefixes that associates element # types with the namespace prefixes that are to be added to the # "xsi:type" attribute value. See the _exportAttributes method of # any generated element type and the generation of "xsi:type" for an # example of the use of this table. # An example table: # # # File: generatedsnamespaces.py # # GenerateDSNamespaceTypePrefixes = { # "ElementtypeC": "aaa:", # "ElementtypeD": "bbb:", # } # try: from generatedsnamespaces import GenerateDSNamespaceDefs as GenerateDSNamespaceDefs_ except ModulenotfoundExp_ : GenerateDSNamespaceDefs_ = {} try: from generatedsnamespaces import GenerateDSNamespaceTypePrefixes as GenerateDSNamespaceTypePrefixes_ except ModulenotfoundExp_ : GenerateDSNamespaceTypePrefixes_ = {} # # You can replace the following class definition by defining an # importable module named "generatedscollector" containing a class # named "GdsCollector". See the default class definition below for # clues about the possible content of that class. # try: from generatedscollector import GdsCollector as GdsCollector_ except ModulenotfoundExp_ : class GdsCollector_(object): def __init__(self, messages=None): if messages is None: self.messages = [] else: self.messages = messages def add_message(self, msg): self.messages.append(msg) def get_messages(self): return self.messages def clear_messages(self): self.messages = [] def print_messages(self): for msg in self.messages: print("Warning: {}".format(msg)) def write_messages(self, outstream): for msg in self.messages: outstream.write("Warning: {}\n".format(msg)) # # The super-class for enum types # try: from enum import Enum except ModulenotfoundExp_ : Enum = object # # The root super-class for element type classes # # Calls to the methods in these classes are generated by generateDS.py. # You can replace these methods by re-implementing the following class # in a module named generatedssuper.py. try: from generatedssuper import GeneratedsSuper except ModulenotfoundExp_ as exp: try: from generatedssupersuper import GeneratedsSuperSuper except ModulenotfoundExp_ as exp: class GeneratedsSuperSuper(object): pass class GeneratedsSuper(GeneratedsSuperSuper): __hash__ = object.__hash__ tzoff_pattern = re_.compile(r'(\+|-)((0\d|1[0-3]):[0-5]\d|14:00)$') class _FixedOffsetTZ(datetime_.tzinfo): def __init__(self, offset, name): self.__offset = datetime_.timedelta(minutes=offset) self.__name = name def utcoffset(self, dt): return self.__offset def tzname(self, dt): return self.__name def dst(self, dt): return None def __str__(self): settings = { 'str_pretty_print': True, 'str_indent_level': 0, 'str_namespaceprefix': '', 'str_name': self.__class__.__name__, 'str_namespacedefs': '', } for n in settings: if hasattr(self, n): settings[n] = getattr(self, n) if sys.version_info.major == 2: from StringIO import StringIO else: from io import StringIO output = StringIO() self.export( output, settings['str_indent_level'], pretty_print=settings['str_pretty_print'], namespaceprefix_=settings['str_namespaceprefix'], name_=settings['str_name'], namespacedef_=settings['str_namespacedefs'] ) strval = output.getvalue() output.close() return strval def gds_format_string(self, input_data, input_name=''): return input_data def gds_parse_string(self, input_data, node=None, input_name=''): return input_data def gds_validate_string(self, input_data, node=None, input_name=''): if not input_data: return '' else: return input_data def gds_format_base64(self, input_data, input_name=''): return base64.b64encode(input_data).decode('ascii') def gds_validate_base64(self, input_data, node=None, input_name=''): return input_data def gds_format_integer(self, input_data, input_name=''): return '%d' % int(input_data) def gds_parse_integer(self, input_data, node=None, input_name=''): try: ival = int(input_data) except (TypeError, ValueError) as exp: raise_parse_error(node, 'Requires integer value: %s' % exp) return ival def gds_validate_integer(self, input_data, node=None, input_name=''): try: value = int(input_data) except (TypeError, ValueError): raise_parse_error(node, 'Requires integer value') return value def gds_format_integer_list(self, input_data, input_name=''): if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): input_data = [str(s) for s in input_data] return '%s' % ' '.join(input_data) def gds_validate_integer_list( self, input_data, node=None, input_name=''): values = input_data.split() for value in values: try: int(value) except (TypeError, ValueError): raise_parse_error(node, 'Requires sequence of integer values') return values def gds_format_float(self, input_data, input_name=''): value = ('%.15f' % float(input_data)).rstrip('0') if value.endswith('.'): value += '0' return value def gds_parse_float(self, input_data, node=None, input_name=''): try: fval_ = float(input_data) except (TypeError, ValueError) as exp: raise_parse_error(node, 'Requires float or double value: %s' % exp) return fval_ def gds_validate_float(self, input_data, node=None, input_name=''): try: value = float(input_data) except (TypeError, ValueError): raise_parse_error(node, 'Requires float value') return value def gds_format_float_list(self, input_data, input_name=''): if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): input_data = [str(s) for s in input_data] return '%s' % ' '.join(input_data) def gds_validate_float_list( self, input_data, node=None, input_name=''): values = input_data.split() for value in values: try: float(value) except (TypeError, ValueError): raise_parse_error(node, 'Requires sequence of float values') return values def gds_format_decimal(self, input_data, input_name=''): return_value = '%s' % input_data if '.' in return_value: return_value = return_value.rstrip('0') if return_value.endswith('.'): return_value = return_value.rstrip('.') return return_value def gds_parse_decimal(self, input_data, node=None, input_name=''): try: decimal_value = decimal_.Decimal(input_data) except (TypeError, ValueError): raise_parse_error(node, 'Requires decimal value') return decimal_value def gds_validate_decimal(self, input_data, node=None, input_name=''): try: value = decimal_.Decimal(input_data) except (TypeError, ValueError): raise_parse_error(node, 'Requires decimal value') return value def gds_format_decimal_list(self, input_data, input_name=''): if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): input_data = [str(s) for s in input_data] return ' '.join([self.gds_format_decimal(item) for item in input_data]) def gds_validate_decimal_list( self, input_data, node=None, input_name=''): values = input_data.split() for value in values: try: decimal_.Decimal(value) except (TypeError, ValueError): raise_parse_error(node, 'Requires sequence of decimal values') return values def gds_format_double(self, input_data, input_name=''): return '%s' % input_data def gds_parse_double(self, input_data, node=None, input_name=''): try: fval_ = float(input_data) except (TypeError, ValueError) as exp: raise_parse_error(node, 'Requires double or float value: %s' % exp) return fval_ def gds_validate_double(self, input_data, node=None, input_name=''): try: value = float(input_data) except (TypeError, ValueError): raise_parse_error(node, 'Requires double or float value') return value def gds_format_double_list(self, input_data, input_name=''): if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): input_data = [str(s) for s in input_data] return '%s' % ' '.join(input_data) def gds_validate_double_list( self, input_data, node=None, input_name=''): values = input_data.split() for value in values: try: float(value) except (TypeError, ValueError): raise_parse_error( node, 'Requires sequence of double or float values') return values def gds_format_boolean(self, input_data, input_name=''): return ('%s' % input_data).lower() def gds_parse_boolean(self, input_data, node=None, input_name=''): input_data = input_data.strip() if input_data in ('true', '1'): bval = True elif input_data in ('false', '0'): bval = False else: raise_parse_error(node, 'Requires boolean value') return bval def gds_validate_boolean(self, input_data, node=None, input_name=''): if input_data not in (True, 1, False, 0, ): raise_parse_error( node, 'Requires boolean value ' '(one of True, 1, False, 0)') return input_data def gds_format_boolean_list(self, input_data, input_name=''): if len(input_data) > 0 and not isinstance(input_data[0], BaseStrType_): input_data = [str(s) for s in input_data] return '%s' % ' '.join(input_data) def gds_validate_boolean_list( self, input_data, node=None, input_name=''): values = input_data.split() for value in values: value = self.gds_parse_boolean(value, node, input_name) if value not in (True, 1, False, 0, ): raise_parse_error( node, 'Requires sequence of boolean values ' '(one of True, 1, False, 0)') return values def gds_validate_datetime(self, input_data, node=None, input_name=''): return input_data def gds_format_datetime(self, input_data, input_name=''): if input_data.microsecond == 0: _svalue = '%04d-%02d-%02dT%02d:%02d:%02d' % ( input_data.year, input_data.month, input_data.day, input_data.hour, input_data.minute, input_data.second, ) else: _svalue = '%04d-%02d-%02dT%02d:%02d:%02d.%s' % ( input_data.year, input_data.month, input_data.day, input_data.hour, input_data.minute, input_data.second, ('%f' % (float(input_data.microsecond) / 1000000))[2:], ) if input_data.tzinfo is not None: tzoff = input_data.tzinfo.utcoffset(input_data) if tzoff is not None: total_seconds = tzoff.seconds + (86400 * tzoff.days) if total_seconds == 0: _svalue += 'Z' else: if total_seconds < 0: _svalue += '-' total_seconds *= -1 else: _svalue += '+' hours = total_seconds // 3600 minutes = (total_seconds - (hours * 3600)) // 60 _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) return _svalue @classmethod def gds_parse_datetime(cls, input_data): tz = None if input_data[-1] == 'Z': tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') input_data = input_data[:-1] else: results = GeneratedsSuper.tzoff_pattern.search(input_data) if results is not None: tzoff_parts = results.group(2).split(':') tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) if results.group(1) == '-': tzoff *= -1 tz = GeneratedsSuper._FixedOffsetTZ( tzoff, results.group(0)) input_data = input_data[:-6] time_parts = input_data.split('.') if len(time_parts) > 1: micro_seconds = int(float('0.' + time_parts[1]) * 1000000) input_data = '%s.%s' % ( time_parts[0], "{}".format(micro_seconds).rjust(6, "0"), ) dt = datetime_.datetime.strptime( input_data, '%Y-%m-%dT%H:%M:%S.%f') else: dt = datetime_.datetime.strptime( input_data, '%Y-%m-%dT%H:%M:%S') dt = dt.replace(tzinfo=tz) return dt def gds_validate_date(self, input_data, node=None, input_name=''): return input_data def gds_format_date(self, input_data, input_name=''): _svalue = '%04d-%02d-%02d' % ( input_data.year, input_data.month, input_data.day, ) try: if input_data.tzinfo is not None: tzoff = input_data.tzinfo.utcoffset(input_data) if tzoff is not None: total_seconds = tzoff.seconds + (86400 * tzoff.days) if total_seconds == 0: _svalue += 'Z' else: if total_seconds < 0: _svalue += '-' total_seconds *= -1 else: _svalue += '+' hours = total_seconds // 3600 minutes = (total_seconds - (hours * 3600)) // 60 _svalue += '{0:02d}:{1:02d}'.format( hours, minutes) except AttributeError: pass return _svalue @classmethod def gds_parse_date(cls, input_data): tz = None if input_data[-1] == 'Z': tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') input_data = input_data[:-1] else: results = GeneratedsSuper.tzoff_pattern.search(input_data) if results is not None: tzoff_parts = results.group(2).split(':') tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) if results.group(1) == '-': tzoff *= -1 tz = GeneratedsSuper._FixedOffsetTZ( tzoff, results.group(0)) input_data = input_data[:-6] dt = datetime_.datetime.strptime(input_data, '%Y-%m-%d') dt = dt.replace(tzinfo=tz) return dt.date() def gds_validate_time(self, input_data, node=None, input_name=''): return input_data def gds_format_time(self, input_data, input_name=''): if input_data.microsecond == 0: _svalue = '%02d:%02d:%02d' % ( input_data.hour, input_data.minute, input_data.second, ) else: _svalue = '%02d:%02d:%02d.%s' % ( input_data.hour, input_data.minute, input_data.second, ('%f' % (float(input_data.microsecond) / 1000000))[2:], ) if input_data.tzinfo is not None: tzoff = input_data.tzinfo.utcoffset(input_data) if tzoff is not None: total_seconds = tzoff.seconds + (86400 * tzoff.days) if total_seconds == 0: _svalue += 'Z' else: if total_seconds < 0: _svalue += '-' total_seconds *= -1 else: _svalue += '+' hours = total_seconds // 3600 minutes = (total_seconds - (hours * 3600)) // 60 _svalue += '{0:02d}:{1:02d}'.format(hours, minutes) return _svalue def gds_validate_simple_patterns(self, patterns, target): # pat is a list of lists of strings/patterns. # The target value must match at least one of the patterns # in order for the test to succeed. found1 = True target = str(target) for patterns1 in patterns: found2 = False for patterns2 in patterns1: mo = re_.search(patterns2, target) if mo is not None and len(mo.group(0)) == len(target): found2 = True break if not found2: found1 = False break return found1 @classmethod def gds_parse_time(cls, input_data): tz = None if input_data[-1] == 'Z': tz = GeneratedsSuper._FixedOffsetTZ(0, 'UTC') input_data = input_data[:-1] else: results = GeneratedsSuper.tzoff_pattern.search(input_data) if results is not None: tzoff_parts = results.group(2).split(':') tzoff = int(tzoff_parts[0]) * 60 + int(tzoff_parts[1]) if results.group(1) == '-': tzoff *= -1 tz = GeneratedsSuper._FixedOffsetTZ( tzoff, results.group(0)) input_data = input_data[:-6] if len(input_data.split('.')) > 1: dt = datetime_.datetime.strptime(input_data, '%H:%M:%S.%f') else: dt = datetime_.datetime.strptime(input_data, '%H:%M:%S') dt = dt.replace(tzinfo=tz) return dt.time() def gds_check_cardinality_( self, value, input_name, min_occurs=0, max_occurs=1, required=None): if value is None: length = 0 elif isinstance(value, list): length = len(value) else: length = 1 if required is not None : if required and length < 1: self.gds_collector_.add_message( "Required value {}{} is missing".format( input_name, self.gds_get_node_lineno_())) if length < min_occurs: self.gds_collector_.add_message( "Number of values for {}{} is below " "the minimum allowed, " "expected at least {}, found {}".format( input_name, self.gds_get_node_lineno_(), min_occurs, length)) elif length > max_occurs: self.gds_collector_.add_message( "Number of values for {}{} is above " "the maximum allowed, " "expected at most {}, found {}".format( input_name, self.gds_get_node_lineno_(), max_occurs, length)) def gds_validate_builtin_ST_( self, validator, value, input_name, min_occurs=None, max_occurs=None, required=None): if value is not None: try: validator(value, input_name=input_name) except GDSParseError as parse_error: self.gds_collector_.add_message(str(parse_error)) def gds_validate_defined_ST_( self, validator, value, input_name, min_occurs=None, max_occurs=None, required=None): if value is not None: try: validator(value) except GDSParseError as parse_error: self.gds_collector_.add_message(str(parse_error)) def gds_str_lower(self, instring): return instring.lower() def get_path_(self, node): path_list = [] self.get_path_list_(node, path_list) path_list.reverse() path = '/'.join(path_list) return path Tag_strip_pattern_ = re_.compile(r'\{.*\}') def get_path_list_(self, node, path_list): if node is None: return tag = GeneratedsSuper.Tag_strip_pattern_.sub('', node.tag) if tag: path_list.append(tag) self.get_path_list_(node.getparent(), path_list) def get_class_obj_(self, node, default_class=None): class_obj1 = default_class if 'xsi' in node.nsmap: classname = node.get('{%s}type' % node.nsmap['xsi']) if classname is not None: names = classname.split(':') if len(names) == 2: classname = names[1] class_obj2 = globals().get(classname) if class_obj2 is not None: class_obj1 = class_obj2 return class_obj1 def gds_build_any(self, node, type_name=None): # provide default value in case option --disable-xml is used. content = "" content = etree_.tostring(node, encoding="unicode") return content @classmethod def gds_reverse_node_mapping(cls, mapping): return dict(((v, k) for k, v in mapping.items())) @staticmethod def gds_encode(instring): if sys.version_info.major == 2: if ExternalEncoding: encoding = ExternalEncoding else: encoding = 'utf-8' return instring.encode(encoding) else: return instring @staticmethod def convert_unicode(instring): if isinstance(instring, str): result = quote_xml(instring) elif sys.version_info.major == 2 and isinstance(instring, unicode): result = quote_xml(instring).encode('utf8') else: result = GeneratedsSuper.gds_encode(str(instring)) return result def __eq__(self, other): def excl_select_objs_(obj): return (obj[0] != 'parent_object_' and obj[0] != 'gds_collector_') if type(self) != type(other): return False return all(x == y for x, y in zip_longest( filter(excl_select_objs_, self.__dict__.items()), filter(excl_select_objs_, other.__dict__.items()))) def __ne__(self, other): return not self.__eq__(other) # Django ETL transform hooks. def gds_djo_etl_transform(self): pass def gds_djo_etl_transform_db_obj(self, dbobj): pass # SQLAlchemy ETL transform hooks. def gds_sqa_etl_transform(self): return 0, None def gds_sqa_etl_transform_db_obj(self, dbobj): pass def gds_get_node_lineno_(self): if (hasattr(self, "gds_elementtree_node_") and self.gds_elementtree_node_ is not None): return ' near line {}'.format( self.gds_elementtree_node_.sourceline) else: return "" def getSubclassFromModule_(module, class_): '''Get the subclass of a class from a specific module.''' name = class_.__name__ + 'Sub' if hasattr(module, name): return getattr(module, name) else: return None # # If you have installed IPython you can uncomment and use the following. # IPython is available from http://ipython.scipy.org/. # ## from IPython.Shell import IPShellEmbed ## args = '' ## ipshell = IPShellEmbed(args, ## banner = 'Dropping into IPython', ## exit_msg = 'Leaving Interpreter, back to program.') # Then use the following line where and when you want to drop into the # IPython shell: # ipshell('<some message> -- Entering ipshell.\nHit Ctrl-D to exit') # # Globals # ExternalEncoding = 'utf-8' # Set this to false in order to deactivate during export, the use of # name space prefixes captured from the input document. UseCapturedNS_ = True CapturedNsmap_ = {} Tag_pattern_ = re_.compile(r'({.*})?(.*)') String_cleanup_pat_ = re_.compile(r"[\n\r\s]+") Namespace_extract_pat_ = re_.compile(r'{(.*)}(.*)') CDATA_pattern_ = re_.compile(r"<!\[CDATA\[.*?\]\]>", re_.DOTALL) # Change this to redirect the generated superclass module to use a # specific subclass module. CurrentSubclassModule_ = None # # Support/utility functions. # def showIndent(outfile, level, pretty_print=True): if pretty_print: for idx in range(level): outfile.write(' ') def quote_xml(inStr): "Escape markup chars, but do not modify CDATA sections." if not inStr: return '' s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) s2 = '' pos = 0 matchobjects = CDATA_pattern_.finditer(s1) for mo in matchobjects: s3 = s1[pos:mo.start()] s2 += quote_xml_aux(s3) s2 += s1[mo.start():mo.end()] pos = mo.end() s3 = s1[pos:] s2 += quote_xml_aux(s3) return s2 def quote_xml_aux(inStr): s1 = inStr.replace('&', '&') s1 = s1.replace('<', '<') s1 = s1.replace('>', '>') return s1 def quote_attrib(inStr): s1 = (isinstance(inStr, BaseStrType_) and inStr or '%s' % inStr) s1 = s1.replace('&', '&') s1 = s1.replace('<', '<') s1 = s1.replace('>', '>') s1 = s1.replace('\n', ' ') if '"' in s1: if "'" in s1: s1 = '"%s"' % s1.replace('"', """) else: s1 = "'%s'" % s1 else: s1 = '"%s"' % s1 return s1 def quote_python(inStr): s1 = inStr if s1.find("'") == -1: if s1.find('\n') == -1: return "'%s'" % s1 else: return "'''%s'''" % s1 else: if s1.find('"') != -1: s1 = s1.replace('"', '\\"') if s1.find('\n') == -1: return '"%s"' % s1 else: return '"""%s"""' % s1 def get_all_text_(node): if node.text is not None: text = node.text else: text = '' for child in node: if child.tail is not None: text += child.tail return text def find_attr_value_(attr_name, node): attrs = node.attrib attr_parts = attr_name.split(':') value = None if len(attr_parts) == 1: value = attrs.get(attr_name) elif len(attr_parts) == 2: prefix, name = attr_parts if prefix == 'xml': namespace = 'http://www.w3.org/XML/1998/namespace' else: namespace = node.nsmap.get(prefix) if namespace is not None: value = attrs.get('{%s}%s' % (namespace, name, )) return value def encode_str_2_3(instr): return instr class GDSParseError(Exception): pass def raise_parse_error(node, msg): if node is not None: msg = '%s (element %s/line %d)' % (msg, node.tag, node.sourceline, ) raise GDSParseError(msg) class MixedContainer: # Constants for category: CategoryNone = 0 CategoryText = 1 CategorySimple = 2 CategoryComplex = 3 # Constants for content_type: TypeNone = 0 TypeText = 1 TypeString = 2 TypeInteger = 3 TypeFloat = 4 TypeDecimal = 5 TypeDouble = 6 TypeBoolean = 7 TypeBase64 = 8 def __init__(self, category, content_type, name, value): self.category = category self.content_type = content_type self.name = name self.value = value def getCategory(self): return self.category def getContenttype(self, content_type): return self.content_type def getValue(self): return self.value def getName(self): return self.name def export(self, outfile, level, name, namespace, pretty_print=True): if self.category == MixedContainer.CategoryText: # Prevent exporting empty content as empty lines. if self.value.strip(): outfile.write(self.value) elif self.category == MixedContainer.CategorySimple: self.exportSimple(outfile, level, name) else: # category == MixedContainer.CategoryComplex self.value.export( outfile, level, namespace, name_=name, pretty_print=pretty_print) def exportSimple(self, outfile, level, name): if self.content_type == MixedContainer.TypeString: outfile.write('<%s>%s</%s>' % ( self.name, self.value, self.name)) elif self.content_type == MixedContainer.TypeInteger or \ self.content_type == MixedContainer.TypeBoolean: outfile.write('<%s>%d</%s>' % ( self.name, self.value, self.name)) elif self.content_type == MixedContainer.TypeFloat or \ self.content_type == MixedContainer.TypeDecimal: outfile.write('<%s>%f</%s>' % ( self.name, self.value, self.name)) elif self.content_type == MixedContainer.TypeDouble: outfile.write('<%s>%g</%s>' % ( self.name, self.value, self.name)) elif self.content_type == MixedContainer.TypeBase64: outfile.write('<%s>%s</%s>' % ( self.name, base64.b64encode(self.value), self.name)) def to_etree(self, element, mapping_=None, reverse_mapping_=None, nsmap_=None): if self.category == MixedContainer.CategoryText: # Prevent exporting empty content as empty lines. if self.value.strip(): if len(element) > 0: if element[-1].tail is None: element[-1].tail = self.value else: element[-1].tail += self.value else: if element.text is None: element.text = self.value else: element.text += self.value elif self.category == MixedContainer.CategorySimple: subelement = etree_.SubElement( element, '%s' % self.name) subelement.text = self.to_etree_simple() else: # category == MixedContainer.CategoryComplex self.value.to_etree(element) def to_etree_simple(self, mapping_=None, reverse_mapping_=None, nsmap_=None): if self.content_type == MixedContainer.TypeString: text = self.value elif (self.content_type == MixedContainer.TypeInteger or self.content_type == MixedContainer.TypeBoolean): text = '%d' % self.value elif (self.content_type == MixedContainer.TypeFloat or self.content_type == MixedContainer.TypeDecimal): text = '%f' % self.value elif self.content_type == MixedContainer.TypeDouble: text = '%g' % self.value elif self.content_type == MixedContainer.TypeBase64: text = '%s' % base64.b64encode(self.value) return text def exportLiteral(self, outfile, level, name): if self.category == MixedContainer.CategoryText: showIndent(outfile, level) outfile.write( 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( self.category, self.content_type, self.name, self.value)) elif self.category == MixedContainer.CategorySimple: showIndent(outfile, level) outfile.write( 'model_.MixedContainer(%d, %d, "%s", "%s"),\n' % ( self.category, self.content_type, self.name, self.value)) else: # category == MixedContainer.CategoryComplex showIndent(outfile, level) outfile.write( 'model_.MixedContainer(%d, %d, "%s",\n' % ( self.category, self.content_type, self.name,)) self.value.exportLiteral(outfile, level + 1) showIndent(outfile, level) outfile.write(')\n') class MemberSpec_(object): def __init__(self, name='', data_type='', container=0, optional=0, child_attrs=None, choice=None): self.name = name self.data_type = data_type self.container = container self.child_attrs = child_attrs self.choice = choice self.optional = optional def set_name(self, name): self.name = name def get_name(self): return self.name def set_data_type(self, data_type): self.data_type = data_type def get_data_type_chain(self): return self.data_type def get_data_type(self): if isinstance(self.data_type, list): if len(self.data_type) > 0: return self.data_type[-1] else: return 'xs:string' else: return self.data_type def set_container(self, container): self.container = container def get_container(self): return self.container def set_child_attrs(self, child_attrs): self.child_attrs = child_attrs def get_child_attrs(self): return self.child_attrs def set_choice(self, choice): self.choice = choice def get_choice(self): return self.choice def set_optional(self, optional): self.optional = optional def get_optional(self): return self.optional def _cast(typ, value): if typ is None or value is None: return value return typ(value) # # Start enum classes # class BACKENDType(str, Enum): POSTGRESQL='postgresql' MYSQL='mysql' SQLITE='sqlite' class MODEType(str, Enum): STANDALONE='STANDALONE' MASTER='MASTER' SLAVE='SLAVE' class TYPEType(str, Enum): IN='IN' OUT='OUT' # # Start data representation classes # class HISTORY_RECORDS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HISTORY=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HISTORY is None: self.HISTORY = [] else: self.HISTORY = HISTORY self.HISTORY_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORY_RECORDS) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORY_RECORDS.subclass: return HISTORY_RECORDS.subclass(*args_, **kwargs_) else: return HISTORY_RECORDS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HISTORY(self): return self.HISTORY def set_HISTORY(self, HISTORY): self.HISTORY = HISTORY def add_HISTORY(self, value): self.HISTORY.append(value) def insert_HISTORY_at(self, index, value): self.HISTORY.insert(index, value) def replace_HISTORY_at(self, index, value): self.HISTORY[index] = value def has__content(self): if ( self.HISTORY ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORY_RECORDS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORY_RECORDS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORY_RECORDS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORY_RECORDS', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORY_RECORDS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDS', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HISTORY_ in self.HISTORY: namespaceprefix_ = self.HISTORY_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_nsprefix_) else '' HISTORY_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HISTORY': obj_ = HISTORY.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY.append(obj_) obj_.original_tagname_ = 'HISTORY' # end class HISTORY_RECORDS class HISTORY(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OID=None, SEQ=None, HOSTNAME=None, HID=None, CID=None, STIME=None, ETIME=None, VM_MAD=None, TM_MAD=None, DS_ID=None, PSTIME=None, PETIME=None, RSTIME=None, RETIME=None, ESTIME=None, EETIME=None, ACTION=None, UID=None, GID=None, REQUEST_ID=None, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OID = OID self.OID_nsprefix_ = None self.SEQ = SEQ self.SEQ_nsprefix_ = None self.HOSTNAME = HOSTNAME self.HOSTNAME_nsprefix_ = None self.HID = HID self.HID_nsprefix_ = None self.CID = CID self.CID_nsprefix_ = None self.STIME = STIME self.STIME_nsprefix_ = None self.ETIME = ETIME self.ETIME_nsprefix_ = None self.VM_MAD = VM_MAD self.VM_MAD_nsprefix_ = None self.TM_MAD = TM_MAD self.TM_MAD_nsprefix_ = None self.DS_ID = DS_ID self.DS_ID_nsprefix_ = None self.PSTIME = PSTIME self.PSTIME_nsprefix_ = None self.PETIME = PETIME self.PETIME_nsprefix_ = None self.RSTIME = RSTIME self.RSTIME_nsprefix_ = None self.RETIME = RETIME self.RETIME_nsprefix_ = None self.ESTIME = ESTIME self.ESTIME_nsprefix_ = None self.EETIME = EETIME self.EETIME_nsprefix_ = None self.ACTION = ACTION self.ACTION_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.REQUEST_ID = REQUEST_ID self.REQUEST_ID_nsprefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORY) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORY.subclass: return HISTORY.subclass(*args_, **kwargs_) else: return HISTORY(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OID(self): return self.OID def set_OID(self, OID): self.OID = OID def get_SEQ(self): return self.SEQ def set_SEQ(self, SEQ): self.SEQ = SEQ def get_HOSTNAME(self): return self.HOSTNAME def set_HOSTNAME(self, HOSTNAME): self.HOSTNAME = HOSTNAME def get_HID(self): return self.HID def set_HID(self, HID): self.HID = HID def get_CID(self): return self.CID def set_CID(self, CID): self.CID = CID def get_STIME(self): return self.STIME def set_STIME(self, STIME): self.STIME = STIME def get_ETIME(self): return self.ETIME def set_ETIME(self, ETIME): self.ETIME = ETIME def get_VM_MAD(self): return self.VM_MAD def set_VM_MAD(self, VM_MAD): self.VM_MAD = VM_MAD def get_TM_MAD(self): return self.TM_MAD def set_TM_MAD(self, TM_MAD): self.TM_MAD = TM_MAD def get_DS_ID(self): return self.DS_ID def set_DS_ID(self, DS_ID): self.DS_ID = DS_ID def get_PSTIME(self): return self.PSTIME def set_PSTIME(self, PSTIME): self.PSTIME = PSTIME def get_PETIME(self): return self.PETIME def set_PETIME(self, PETIME): self.PETIME = PETIME def get_RSTIME(self): return self.RSTIME def set_RSTIME(self, RSTIME): self.RSTIME = RSTIME def get_RETIME(self): return self.RETIME def set_RETIME(self, RETIME): self.RETIME = RETIME def get_ESTIME(self): return self.ESTIME def set_ESTIME(self, ESTIME): self.ESTIME = ESTIME def get_EETIME(self): return self.EETIME def set_EETIME(self, EETIME): self.EETIME = EETIME def get_ACTION(self): return self.ACTION def set_ACTION(self, ACTION): self.ACTION = ACTION def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_REQUEST_ID(self): return self.REQUEST_ID def set_REQUEST_ID(self, REQUEST_ID): self.REQUEST_ID = REQUEST_ID def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.OID is not None or self.SEQ is not None or self.HOSTNAME is not None or self.HID is not None or self.CID is not None or self.STIME is not None or self.ETIME is not None or self.VM_MAD is not None or self.TM_MAD is not None or self.DS_ID is not None or self.PSTIME is not None or self.PETIME is not None or self.RSTIME is not None or self.RETIME is not None or self.ESTIME is not None or self.EETIME is not None or self.ACTION is not None or self.UID is not None or self.GID is not None or self.REQUEST_ID is not None or self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORY') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORY': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORY') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORY', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORY'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OID is not None: namespaceprefix_ = self.OID_nsprefix_ + ':' if (UseCapturedNS_ and self.OID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOID>%s</%sOID>%s' % (namespaceprefix_ , self.gds_format_integer(self.OID, input_name='OID'), namespaceprefix_ , eol_)) if self.SEQ is not None: namespaceprefix_ = self.SEQ_nsprefix_ + ':' if (UseCapturedNS_ and self.SEQ_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSEQ>%s</%sSEQ>%s' % (namespaceprefix_ , self.gds_format_integer(self.SEQ, input_name='SEQ'), namespaceprefix_ , eol_)) if self.HOSTNAME is not None: namespaceprefix_ = self.HOSTNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.HOSTNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOSTNAME>%s</%sHOSTNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOSTNAME), input_name='HOSTNAME')), namespaceprefix_ , eol_)) if self.HID is not None: namespaceprefix_ = self.HID_nsprefix_ + ':' if (UseCapturedNS_ and self.HID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHID>%s</%sHID>%s' % (namespaceprefix_ , self.gds_format_integer(self.HID, input_name='HID'), namespaceprefix_ , eol_)) if self.CID is not None: namespaceprefix_ = self.CID_nsprefix_ + ':' if (UseCapturedNS_ and self.CID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCID>%s</%sCID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CID, input_name='CID'), namespaceprefix_ , eol_)) if self.STIME is not None: namespaceprefix_ = self.STIME_nsprefix_ + ':' if (UseCapturedNS_ and self.STIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTIME>%s</%sSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.STIME, input_name='STIME'), namespaceprefix_ , eol_)) if self.ETIME is not None: namespaceprefix_ = self.ETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sETIME>%s</%sETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ETIME, input_name='ETIME'), namespaceprefix_ , eol_)) if self.VM_MAD is not None: namespaceprefix_ = self.VM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MAD>%s</%sVM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_MAD), input_name='VM_MAD')), namespaceprefix_ , eol_)) if self.TM_MAD is not None: namespaceprefix_ = self.TM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD>%s</%sTM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD), input_name='TM_MAD')), namespaceprefix_ , eol_)) if self.DS_ID is not None: namespaceprefix_ = self.DS_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_ID>%s</%sDS_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DS_ID, input_name='DS_ID'), namespaceprefix_ , eol_)) if self.PSTIME is not None: namespaceprefix_ = self.PSTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.PSTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPSTIME>%s</%sPSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.PSTIME, input_name='PSTIME'), namespaceprefix_ , eol_)) if self.PETIME is not None: namespaceprefix_ = self.PETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.PETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPETIME>%s</%sPETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.PETIME, input_name='PETIME'), namespaceprefix_ , eol_)) if self.RSTIME is not None: namespaceprefix_ = self.RSTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.RSTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRSTIME>%s</%sRSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.RSTIME, input_name='RSTIME'), namespaceprefix_ , eol_)) if self.RETIME is not None: namespaceprefix_ = self.RETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.RETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRETIME>%s</%sRETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.RETIME, input_name='RETIME'), namespaceprefix_ , eol_)) if self.ESTIME is not None: namespaceprefix_ = self.ESTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ESTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sESTIME>%s</%sESTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ESTIME, input_name='ESTIME'), namespaceprefix_ , eol_)) if self.EETIME is not None: namespaceprefix_ = self.EETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.EETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEETIME>%s</%sEETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.EETIME, input_name='EETIME'), namespaceprefix_ , eol_)) if self.ACTION is not None: namespaceprefix_ = self.ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTION>%s</%sACTION>%s' % (namespaceprefix_ , self.gds_format_integer(self.ACTION, input_name='ACTION'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.REQUEST_ID is not None: namespaceprefix_ = self.REQUEST_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQUEST_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQUEST_ID>%s</%sREQUEST_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REQUEST_ID), input_name='REQUEST_ID')), namespaceprefix_ , eol_)) if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OID') ival_ = self.gds_validate_integer(ival_, node, 'OID') self.OID = ival_ self.OID_nsprefix_ = child_.prefix elif nodeName_ == 'SEQ' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SEQ') ival_ = self.gds_validate_integer(ival_, node, 'SEQ') self.SEQ = ival_ self.SEQ_nsprefix_ = child_.prefix elif nodeName_ == 'HOSTNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOSTNAME') value_ = self.gds_validate_string(value_, node, 'HOSTNAME') self.HOSTNAME = value_ self.HOSTNAME_nsprefix_ = child_.prefix elif nodeName_ == 'HID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'HID') ival_ = self.gds_validate_integer(ival_, node, 'HID') self.HID = ival_ self.HID_nsprefix_ = child_.prefix elif nodeName_ == 'CID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CID') ival_ = self.gds_validate_integer(ival_, node, 'CID') self.CID = ival_ self.CID_nsprefix_ = child_.prefix elif nodeName_ == 'STIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STIME') ival_ = self.gds_validate_integer(ival_, node, 'STIME') self.STIME = ival_ self.STIME_nsprefix_ = child_.prefix elif nodeName_ == 'ETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ETIME') ival_ = self.gds_validate_integer(ival_, node, 'ETIME') self.ETIME = ival_ self.ETIME_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MAD') value_ = self.gds_validate_string(value_, node, 'VM_MAD') self.VM_MAD = value_ self.VM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD') value_ = self.gds_validate_string(value_, node, 'TM_MAD') self.TM_MAD = value_ self.TM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'DS_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DS_ID') ival_ = self.gds_validate_integer(ival_, node, 'DS_ID') self.DS_ID = ival_ self.DS_ID_nsprefix_ = child_.prefix elif nodeName_ == 'PSTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PSTIME') ival_ = self.gds_validate_integer(ival_, node, 'PSTIME') self.PSTIME = ival_ self.PSTIME_nsprefix_ = child_.prefix elif nodeName_ == 'PETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PETIME') ival_ = self.gds_validate_integer(ival_, node, 'PETIME') self.PETIME = ival_ self.PETIME_nsprefix_ = child_.prefix elif nodeName_ == 'RSTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RSTIME') ival_ = self.gds_validate_integer(ival_, node, 'RSTIME') self.RSTIME = ival_ self.RSTIME_nsprefix_ = child_.prefix elif nodeName_ == 'RETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RETIME') ival_ = self.gds_validate_integer(ival_, node, 'RETIME') self.RETIME = ival_ self.RETIME_nsprefix_ = child_.prefix elif nodeName_ == 'ESTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ESTIME') ival_ = self.gds_validate_integer(ival_, node, 'ESTIME') self.ESTIME = ival_ self.ESTIME_nsprefix_ = child_.prefix elif nodeName_ == 'EETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EETIME') ival_ = self.gds_validate_integer(ival_, node, 'EETIME') self.EETIME = ival_ self.EETIME_nsprefix_ = child_.prefix elif nodeName_ == 'ACTION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ACTION') ival_ = self.gds_validate_integer(ival_, node, 'ACTION') self.ACTION = ival_ self.ACTION_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'REQUEST_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REQUEST_ID') value_ = self.gds_validate_string(value_, node, 'REQUEST_ID') self.REQUEST_ID = value_ self.REQUEST_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VM': obj_ = VMType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class HISTORY class ACL_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ACL=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ACL is None: self.ACL = [] else: self.ACL = ACL self.ACL_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ACL_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if ACL_POOL.subclass: return ACL_POOL.subclass(*args_, **kwargs_) else: return ACL_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ACL(self): return self.ACL def set_ACL(self, ACL): self.ACL = ACL def add_ACL(self, value): self.ACL.append(value) def insert_ACL_at(self, index, value): self.ACL.insert(index, value) def replace_ACL_at(self, index, value): self.ACL[index] = value def has__content(self): if ( self.ACL ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ACL_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ACL_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ACL_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ACL_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ACL_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ACL_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ACL_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ACL_ in self.ACL: namespaceprefix_ = self.ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.ACL_nsprefix_) else '' ACL_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ACL', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ACL': obj_ = ACLType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ACL.append(obj_) obj_.original_tagname_ = 'ACL' # end class ACL_POOL class CALL_INFO(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, RESULT=None, PARAMETERS=None, EXTRA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.RESULT = RESULT self.RESULT_nsprefix_ = None self.PARAMETERS = PARAMETERS self.PARAMETERS_nsprefix_ = None self.EXTRA = EXTRA self.EXTRA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CALL_INFO) if subclass is not None: return subclass(*args_, **kwargs_) if CALL_INFO.subclass: return CALL_INFO.subclass(*args_, **kwargs_) else: return CALL_INFO(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_RESULT(self): return self.RESULT def set_RESULT(self, RESULT): self.RESULT = RESULT def get_PARAMETERS(self): return self.PARAMETERS def set_PARAMETERS(self, PARAMETERS): self.PARAMETERS = PARAMETERS def get_EXTRA(self): return self.EXTRA def set_EXTRA(self, EXTRA): self.EXTRA = EXTRA def has__content(self): if ( self.RESULT is not None or self.PARAMETERS is not None or self.EXTRA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CALL_INFO', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CALL_INFO') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CALL_INFO': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CALL_INFO') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CALL_INFO', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CALL_INFO'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CALL_INFO', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.RESULT is not None: namespaceprefix_ = self.RESULT_nsprefix_ + ':' if (UseCapturedNS_ and self.RESULT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESULT>%s</%sRESULT>%s' % (namespaceprefix_ , self.gds_format_integer(self.RESULT, input_name='RESULT'), namespaceprefix_ , eol_)) if self.PARAMETERS is not None: namespaceprefix_ = self.PARAMETERS_nsprefix_ + ':' if (UseCapturedNS_ and self.PARAMETERS_nsprefix_) else '' self.PARAMETERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PARAMETERS', pretty_print=pretty_print) if self.EXTRA is not None: namespaceprefix_ = self.EXTRA_nsprefix_ + ':' if (UseCapturedNS_ and self.EXTRA_nsprefix_) else '' self.EXTRA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='EXTRA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'RESULT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RESULT') ival_ = self.gds_validate_integer(ival_, node, 'RESULT') self.RESULT = ival_ self.RESULT_nsprefix_ = child_.prefix elif nodeName_ == 'PARAMETERS': obj_ = PARAMETERSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PARAMETERS = obj_ obj_.original_tagname_ = 'PARAMETERS' elif nodeName_ == 'EXTRA': obj_ = EXTRAType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.EXTRA = obj_ obj_.original_tagname_ = 'EXTRA' # end class CALL_INFO class BACKUPJOB_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUPJOB=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if BACKUPJOB is None: self.BACKUPJOB = [] else: self.BACKUPJOB = BACKUPJOB self.BACKUPJOB_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUPJOB_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUPJOB_POOL.subclass: return BACKUPJOB_POOL.subclass(*args_, **kwargs_) else: return BACKUPJOB_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUPJOB(self): return self.BACKUPJOB def set_BACKUPJOB(self, BACKUPJOB): self.BACKUPJOB = BACKUPJOB def add_BACKUPJOB(self, value): self.BACKUPJOB.append(value) def insert_BACKUPJOB_at(self, index, value): self.BACKUPJOB.insert(index, value) def replace_BACKUPJOB_at(self, index, value): self.BACKUPJOB[index] = value def has__content(self): if ( self.BACKUPJOB ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPJOB_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUPJOB_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUPJOB_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUPJOB_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUPJOB_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUPJOB_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPJOB_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for BACKUPJOB_ in self.BACKUPJOB: namespaceprefix_ = self.BACKUPJOB_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUPJOB_nsprefix_) else '' BACKUPJOB_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUPJOB', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUPJOB': obj_ = BACKUPJOB.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUPJOB.append(obj_) obj_.original_tagname_ = 'BACKUPJOB' # end class BACKUPJOB_POOL class BACKUPJOB(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LOCK=None, PERMISSIONS=None, PRIORITY=None, LAST_BACKUP_TIME=None, LAST_BACKUP_DURATION=None, SCHED_ACTIONS=None, UPDATED_VMS=None, OUTDATED_VMS=None, BACKING_UP_VMS=None, ERROR_VMS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.PRIORITY = PRIORITY self.PRIORITY_nsprefix_ = None self.LAST_BACKUP_TIME = LAST_BACKUP_TIME self.LAST_BACKUP_TIME_nsprefix_ = None self.LAST_BACKUP_DURATION = LAST_BACKUP_DURATION self.LAST_BACKUP_DURATION_nsprefix_ = None self.SCHED_ACTIONS = SCHED_ACTIONS self.SCHED_ACTIONS_nsprefix_ = None self.UPDATED_VMS = UPDATED_VMS self.UPDATED_VMS_nsprefix_ = None self.OUTDATED_VMS = OUTDATED_VMS self.OUTDATED_VMS_nsprefix_ = None self.BACKING_UP_VMS = BACKING_UP_VMS self.BACKING_UP_VMS_nsprefix_ = None self.ERROR_VMS = ERROR_VMS self.ERROR_VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUPJOB) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUPJOB.subclass: return BACKUPJOB.subclass(*args_, **kwargs_) else: return BACKUPJOB(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_PRIORITY(self): return self.PRIORITY def set_PRIORITY(self, PRIORITY): self.PRIORITY = PRIORITY def get_LAST_BACKUP_TIME(self): return self.LAST_BACKUP_TIME def set_LAST_BACKUP_TIME(self, LAST_BACKUP_TIME): self.LAST_BACKUP_TIME = LAST_BACKUP_TIME def get_LAST_BACKUP_DURATION(self): return self.LAST_BACKUP_DURATION def set_LAST_BACKUP_DURATION(self, LAST_BACKUP_DURATION): self.LAST_BACKUP_DURATION = LAST_BACKUP_DURATION def get_SCHED_ACTIONS(self): return self.SCHED_ACTIONS def set_SCHED_ACTIONS(self, SCHED_ACTIONS): self.SCHED_ACTIONS = SCHED_ACTIONS def get_UPDATED_VMS(self): return self.UPDATED_VMS def set_UPDATED_VMS(self, UPDATED_VMS): self.UPDATED_VMS = UPDATED_VMS def get_OUTDATED_VMS(self): return self.OUTDATED_VMS def set_OUTDATED_VMS(self, OUTDATED_VMS): self.OUTDATED_VMS = OUTDATED_VMS def get_BACKING_UP_VMS(self): return self.BACKING_UP_VMS def set_BACKING_UP_VMS(self, BACKING_UP_VMS): self.BACKING_UP_VMS = BACKING_UP_VMS def get_ERROR_VMS(self): return self.ERROR_VMS def set_ERROR_VMS(self, ERROR_VMS): self.ERROR_VMS = ERROR_VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LOCK is not None or self.PERMISSIONS is not None or self.PRIORITY is not None or self.LAST_BACKUP_TIME is not None or self.LAST_BACKUP_DURATION is not None or self.SCHED_ACTIONS is not None or self.UPDATED_VMS is not None or self.OUTDATED_VMS is not None or self.BACKING_UP_VMS is not None or self.ERROR_VMS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPJOB', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUPJOB') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUPJOB': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUPJOB') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUPJOB', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUPJOB'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPJOB', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.PRIORITY is not None: namespaceprefix_ = self.PRIORITY_nsprefix_ + ':' if (UseCapturedNS_ and self.PRIORITY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPRIORITY>%s</%sPRIORITY>%s' % (namespaceprefix_ , self.gds_format_integer(self.PRIORITY, input_name='PRIORITY'), namespaceprefix_ , eol_)) if self.LAST_BACKUP_TIME is not None: namespaceprefix_ = self.LAST_BACKUP_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_TIME>%s</%sLAST_BACKUP_TIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.LAST_BACKUP_TIME, input_name='LAST_BACKUP_TIME'), namespaceprefix_ , eol_)) if self.LAST_BACKUP_DURATION is not None: namespaceprefix_ = self.LAST_BACKUP_DURATION_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_DURATION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_DURATION>%s</%sLAST_BACKUP_DURATION>%s' % (namespaceprefix_ , self.gds_format_integer(self.LAST_BACKUP_DURATION, input_name='LAST_BACKUP_DURATION'), namespaceprefix_ , eol_)) if self.SCHED_ACTIONS is not None: namespaceprefix_ = self.SCHED_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTIONS_nsprefix_) else '' self.SCHED_ACTIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SCHED_ACTIONS', pretty_print=pretty_print) if self.UPDATED_VMS is not None: namespaceprefix_ = self.UPDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATED_VMS_nsprefix_) else '' self.UPDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATED_VMS', pretty_print=pretty_print) if self.OUTDATED_VMS is not None: namespaceprefix_ = self.OUTDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTDATED_VMS_nsprefix_) else '' self.OUTDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='OUTDATED_VMS', pretty_print=pretty_print) if self.BACKING_UP_VMS is not None: namespaceprefix_ = self.BACKING_UP_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKING_UP_VMS_nsprefix_) else '' self.BACKING_UP_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKING_UP_VMS', pretty_print=pretty_print) if self.ERROR_VMS is not None: namespaceprefix_ = self.ERROR_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_VMS_nsprefix_) else '' self.ERROR_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ERROR_VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCK.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'PRIORITY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PRIORITY') ival_ = self.gds_validate_integer(ival_, node, 'PRIORITY') self.PRIORITY = ival_ self.PRIORITY_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LAST_BACKUP_TIME') ival_ = self.gds_validate_integer(ival_, node, 'LAST_BACKUP_TIME') self.LAST_BACKUP_TIME = ival_ self.LAST_BACKUP_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_DURATION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LAST_BACKUP_DURATION') ival_ = self.gds_validate_integer(ival_, node, 'LAST_BACKUP_DURATION') self.LAST_BACKUP_DURATION = ival_ self.LAST_BACKUP_DURATION_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_ACTIONS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SCHED_ACTIONS = obj_ obj_.original_tagname_ = 'SCHED_ACTIONS' elif nodeName_ == 'UPDATED_VMS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATED_VMS = obj_ obj_.original_tagname_ = 'UPDATED_VMS' elif nodeName_ == 'OUTDATED_VMS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.OUTDATED_VMS = obj_ obj_.original_tagname_ = 'OUTDATED_VMS' elif nodeName_ == 'BACKING_UP_VMS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKING_UP_VMS = obj_ obj_.original_tagname_ = 'BACKING_UP_VMS' elif nodeName_ == 'ERROR_VMS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ERROR_VMS = obj_ obj_.original_tagname_ = 'ERROR_VMS' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' # end class BACKUPJOB class LOCK(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCK) if subclass is not None: return subclass(*args_, **kwargs_) if LOCK.subclass: return LOCK.subclass(*args_, **kwargs_) else: return LOCK(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCK', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCK') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCK': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCK') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCK', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCK'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCK', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCK class PERMISSIONS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONS) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONS.subclass: return PERMISSIONS.subclass(*args_, **kwargs_) else: return PERMISSIONS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONS', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONS', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONS class IDS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IDS) if subclass is not None: return subclass(*args_, **kwargs_) if IDS.subclass: return IDS.subclass(*args_, **kwargs_) else: return IDS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IDS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IDS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IDS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IDS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IDS', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IDS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IDS', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class IDS class SCHED_ACTION(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, PARENT_ID=None, TYPE=None, ACTION=None, ARGS=None, TIME=None, REPEAT=None, DAYS=None, END_TYPE=None, END_VALUE=None, DONE=None, MESSAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.PARENT_ID = PARENT_ID self.PARENT_ID_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.ACTION = ACTION self.ACTION_nsprefix_ = None self.ARGS = ARGS self.ARGS_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REPEAT = REPEAT self.REPEAT_nsprefix_ = None self.DAYS = DAYS self.DAYS_nsprefix_ = None self.END_TYPE = END_TYPE self.END_TYPE_nsprefix_ = None self.END_VALUE = END_VALUE self.END_VALUE_nsprefix_ = None self.DONE = DONE self.DONE_nsprefix_ = None self.MESSAGE = MESSAGE self.MESSAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SCHED_ACTION) if subclass is not None: return subclass(*args_, **kwargs_) if SCHED_ACTION.subclass: return SCHED_ACTION.subclass(*args_, **kwargs_) else: return SCHED_ACTION(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_PARENT_ID(self): return self.PARENT_ID def set_PARENT_ID(self, PARENT_ID): self.PARENT_ID = PARENT_ID def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_ACTION(self): return self.ACTION def set_ACTION(self, ACTION): self.ACTION = ACTION def get_ARGS(self): return self.ARGS def set_ARGS(self, ARGS): self.ARGS = ARGS def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REPEAT(self): return self.REPEAT def set_REPEAT(self, REPEAT): self.REPEAT = REPEAT def get_DAYS(self): return self.DAYS def set_DAYS(self, DAYS): self.DAYS = DAYS def get_END_TYPE(self): return self.END_TYPE def set_END_TYPE(self, END_TYPE): self.END_TYPE = END_TYPE def get_END_VALUE(self): return self.END_VALUE def set_END_VALUE(self, END_VALUE): self.END_VALUE = END_VALUE def get_DONE(self): return self.DONE def set_DONE(self, DONE): self.DONE = DONE def get_MESSAGE(self): return self.MESSAGE def set_MESSAGE(self, MESSAGE): self.MESSAGE = MESSAGE def has__content(self): if ( self.ID is not None or self.PARENT_ID is not None or self.TYPE is not None or self.ACTION is not None or self.ARGS is not None or self.TIME is not None or self.REPEAT is not None or self.DAYS is not None or self.END_TYPE is not None or self.END_VALUE is not None or self.DONE is not None or self.MESSAGE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SCHED_ACTION', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SCHED_ACTION') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SCHED_ACTION': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SCHED_ACTION') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SCHED_ACTION', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SCHED_ACTION'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SCHED_ACTION', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.PARENT_ID is not None: namespaceprefix_ = self.PARENT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_ID>%s</%sPARENT_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.PARENT_ID, input_name='PARENT_ID'), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.ACTION is not None: namespaceprefix_ = self.ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTION>%s</%sACTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTION), input_name='ACTION')), namespaceprefix_ , eol_)) if self.ARGS is not None: namespaceprefix_ = self.ARGS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGS>%s</%sARGS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGS), input_name='ARGS')), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TIME), input_name='TIME')), namespaceprefix_ , eol_)) if self.REPEAT is not None: namespaceprefix_ = self.REPEAT_nsprefix_ + ':' if (UseCapturedNS_ and self.REPEAT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREPEAT>%s</%sREPEAT>%s' % (namespaceprefix_ , self.gds_format_integer(self.REPEAT, input_name='REPEAT'), namespaceprefix_ , eol_)) if self.DAYS is not None: namespaceprefix_ = self.DAYS_nsprefix_ + ':' if (UseCapturedNS_ and self.DAYS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDAYS>%s</%sDAYS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DAYS), input_name='DAYS')), namespaceprefix_ , eol_)) if self.END_TYPE is not None: namespaceprefix_ = self.END_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.END_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEND_TYPE>%s</%sEND_TYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.END_TYPE, input_name='END_TYPE'), namespaceprefix_ , eol_)) if self.END_VALUE is not None: namespaceprefix_ = self.END_VALUE_nsprefix_ + ':' if (UseCapturedNS_ and self.END_VALUE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEND_VALUE>%s</%sEND_VALUE>%s' % (namespaceprefix_ , self.gds_format_integer(self.END_VALUE, input_name='END_VALUE'), namespaceprefix_ , eol_)) if self.DONE is not None: namespaceprefix_ = self.DONE_nsprefix_ + ':' if (UseCapturedNS_ and self.DONE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDONE>%s</%sDONE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DONE, input_name='DONE'), namespaceprefix_ , eol_)) if self.MESSAGE is not None: namespaceprefix_ = self.MESSAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.MESSAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMESSAGE>%s</%sMESSAGE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MESSAGE), input_name='MESSAGE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PARENT_ID') ival_ = self.gds_validate_integer(ival_, node, 'PARENT_ID') self.PARENT_ID = ival_ self.PARENT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'ACTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTION') value_ = self.gds_validate_string(value_, node, 'ACTION') self.ACTION = value_ self.ACTION_nsprefix_ = child_.prefix elif nodeName_ == 'ARGS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGS') value_ = self.gds_validate_string(value_, node, 'ARGS') self.ARGS = value_ self.ARGS_nsprefix_ = child_.prefix elif nodeName_ == 'TIME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TIME') value_ = self.gds_validate_string(value_, node, 'TIME') self.TIME = value_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REPEAT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REPEAT') ival_ = self.gds_validate_integer(ival_, node, 'REPEAT') self.REPEAT = ival_ self.REPEAT_nsprefix_ = child_.prefix elif nodeName_ == 'DAYS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DAYS') value_ = self.gds_validate_string(value_, node, 'DAYS') self.DAYS = value_ self.DAYS_nsprefix_ = child_.prefix elif nodeName_ == 'END_TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'END_TYPE') ival_ = self.gds_validate_integer(ival_, node, 'END_TYPE') self.END_TYPE = ival_ self.END_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'END_VALUE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'END_VALUE') ival_ = self.gds_validate_integer(ival_, node, 'END_VALUE') self.END_VALUE = ival_ self.END_VALUE_nsprefix_ = child_.prefix elif nodeName_ == 'DONE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DONE') ival_ = self.gds_validate_integer(ival_, node, 'DONE') self.DONE = ival_ self.DONE_nsprefix_ = child_.prefix elif nodeName_ == 'MESSAGE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MESSAGE') value_ = self.gds_validate_string(value_, node, 'MESSAGE') self.MESSAGE = value_ self.MESSAGE_nsprefix_ = child_.prefix # end class SCHED_ACTION class CLUSTER_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CLUSTER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if CLUSTER is None: self.CLUSTER = [] else: self.CLUSTER = CLUSTER self.CLUSTER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTER_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTER_POOL.subclass: return CLUSTER_POOL.subclass(*args_, **kwargs_) else: return CLUSTER_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CLUSTER(self): return self.CLUSTER def set_CLUSTER(self, CLUSTER): self.CLUSTER = CLUSTER def add_CLUSTER(self, value): self.CLUSTER.append(value) def insert_CLUSTER_at(self, index, value): self.CLUSTER.insert(index, value) def replace_CLUSTER_at(self, index, value): self.CLUSTER[index] = value def has__content(self): if ( self.CLUSTER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTER_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTER_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTER_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTER_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTER_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTER_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTER_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for CLUSTER_ in self.CLUSTER: namespaceprefix_ = self.CLUSTER_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_nsprefix_) else '' CLUSTER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CLUSTER': obj_ = CLUSTER.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTER.append(obj_) obj_.original_tagname_ = 'CLUSTER' # end class CLUSTER_POOL class CLUSTER(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, HOSTS=None, DATASTORES=None, VNETS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.HOSTS = HOSTS self.HOSTS_nsprefix_ = None self.DATASTORES = DATASTORES self.DATASTORES_nsprefix_ = None self.VNETS = VNETS self.VNETS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTER) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTER.subclass: return CLUSTER.subclass(*args_, **kwargs_) else: return CLUSTER(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_HOSTS(self): return self.HOSTS def set_HOSTS(self, HOSTS): self.HOSTS = HOSTS def get_DATASTORES(self): return self.DATASTORES def set_DATASTORES(self, DATASTORES): self.DATASTORES = DATASTORES def get_VNETS(self): return self.VNETS def set_VNETS(self, VNETS): self.VNETS = VNETS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.NAME is not None or self.HOSTS is not None or self.DATASTORES is not None or self.VNETS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTER', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTER') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTER': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTER') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTER', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTER'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTER', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.HOSTS is not None: namespaceprefix_ = self.HOSTS_nsprefix_ + ':' if (UseCapturedNS_ and self.HOSTS_nsprefix_) else '' self.HOSTS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOSTS', pretty_print=pretty_print) if self.DATASTORES is not None: namespaceprefix_ = self.DATASTORES_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORES_nsprefix_) else '' self.DATASTORES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORES', pretty_print=pretty_print) if self.VNETS is not None: namespaceprefix_ = self.VNETS_nsprefix_ + ':' if (UseCapturedNS_ and self.VNETS_nsprefix_) else '' self.VNETS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNETS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'HOSTS': obj_ = HOSTSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOSTS = obj_ obj_.original_tagname_ = 'HOSTS' elif nodeName_ == 'DATASTORES': obj_ = DATASTORESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORES = obj_ obj_.original_tagname_ = 'DATASTORES' elif nodeName_ == 'VNETS': obj_ = VNETSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNETS = obj_ obj_.original_tagname_ = 'VNETS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class CLUSTER class DATASTORE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_POOL.subclass: return DATASTORE_POOL.subclass(*args_, **kwargs_) else: return DATASTORE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTORE.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_POOL class DATASTORE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, DS_MAD=None, TM_MAD=None, BASE_PATH=None, TYPE=None, DISK_TYPE=None, STATE=None, CLUSTERS=None, TOTAL_MB=None, FREE_MB=None, USED_MB=None, IMAGES=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.DS_MAD = DS_MAD self.DS_MAD_nsprefix_ = None self.TM_MAD = TM_MAD self.TM_MAD_nsprefix_ = None self.BASE_PATH = BASE_PATH self.BASE_PATH_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.DISK_TYPE = DISK_TYPE self.DISK_TYPE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.CLUSTERS = CLUSTERS self.CLUSTERS_nsprefix_ = None self.TOTAL_MB = TOTAL_MB self.TOTAL_MB_nsprefix_ = None self.FREE_MB = FREE_MB self.FREE_MB_nsprefix_ = None self.USED_MB = USED_MB self.USED_MB_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE.subclass: return DATASTORE.subclass(*args_, **kwargs_) else: return DATASTORE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_DS_MAD(self): return self.DS_MAD def set_DS_MAD(self, DS_MAD): self.DS_MAD = DS_MAD def get_TM_MAD(self): return self.TM_MAD def set_TM_MAD(self, TM_MAD): self.TM_MAD = TM_MAD def get_BASE_PATH(self): return self.BASE_PATH def set_BASE_PATH(self, BASE_PATH): self.BASE_PATH = BASE_PATH def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_DISK_TYPE(self): return self.DISK_TYPE def set_DISK_TYPE(self, DISK_TYPE): self.DISK_TYPE = DISK_TYPE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_CLUSTERS(self): return self.CLUSTERS def set_CLUSTERS(self, CLUSTERS): self.CLUSTERS = CLUSTERS def get_TOTAL_MB(self): return self.TOTAL_MB def set_TOTAL_MB(self, TOTAL_MB): self.TOTAL_MB = TOTAL_MB def get_FREE_MB(self): return self.FREE_MB def set_FREE_MB(self, FREE_MB): self.FREE_MB = FREE_MB def get_USED_MB(self): return self.USED_MB def set_USED_MB(self, USED_MB): self.USED_MB = USED_MB def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.DS_MAD is not None or self.TM_MAD is not None or self.BASE_PATH is not None or self.TYPE is not None or self.DISK_TYPE is not None or self.STATE is not None or self.CLUSTERS is not None or self.TOTAL_MB is not None or self.FREE_MB is not None or self.USED_MB is not None or self.IMAGES is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.DS_MAD is not None: namespaceprefix_ = self.DS_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_MAD>%s</%sDS_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DS_MAD), input_name='DS_MAD')), namespaceprefix_ , eol_)) if self.TM_MAD is not None: namespaceprefix_ = self.TM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD>%s</%sTM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD), input_name='TM_MAD')), namespaceprefix_ , eol_)) if self.BASE_PATH is not None: namespaceprefix_ = self.BASE_PATH_nsprefix_ + ':' if (UseCapturedNS_ and self.BASE_PATH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBASE_PATH>%s</%sBASE_PATH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BASE_PATH), input_name='BASE_PATH')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.TYPE, input_name='TYPE'), namespaceprefix_ , eol_)) if self.DISK_TYPE is not None: namespaceprefix_ = self.DISK_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_TYPE>%s</%sDISK_TYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_TYPE, input_name='DISK_TYPE'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.CLUSTERS is not None: namespaceprefix_ = self.CLUSTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTERS_nsprefix_) else '' self.CLUSTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTERS', pretty_print=pretty_print) if self.TOTAL_MB is not None: namespaceprefix_ = self.TOTAL_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL_MB>%s</%sTOTAL_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.TOTAL_MB, input_name='TOTAL_MB'), namespaceprefix_ , eol_)) if self.FREE_MB is not None: namespaceprefix_ = self.FREE_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE_MB>%s</%sFREE_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE_MB, input_name='FREE_MB'), namespaceprefix_ , eol_)) if self.USED_MB is not None: namespaceprefix_ = self.USED_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_MB>%s</%sUSED_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_MB, input_name='USED_MB'), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' self.IMAGES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGES', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType1.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'DS_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DS_MAD') value_ = self.gds_validate_string(value_, node, 'DS_MAD') self.DS_MAD = value_ self.DS_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD') value_ = self.gds_validate_string(value_, node, 'TM_MAD') self.TM_MAD = value_ self.TM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'BASE_PATH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BASE_PATH') value_ = self.gds_validate_string(value_, node, 'BASE_PATH') self.BASE_PATH = value_ self.BASE_PATH_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TYPE') ival_ = self.gds_validate_integer(ival_, node, 'TYPE') self.TYPE = ival_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_TYPE') ival_ = self.gds_validate_integer(ival_, node, 'DISK_TYPE') self.DISK_TYPE = ival_ self.DISK_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'CLUSTERS': obj_ = CLUSTERSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTERS = obj_ obj_.original_tagname_ = 'CLUSTERS' elif nodeName_ == 'TOTAL_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TOTAL_MB') ival_ = self.gds_validate_integer(ival_, node, 'TOTAL_MB') self.TOTAL_MB = ival_ self.TOTAL_MB_nsprefix_ = child_.prefix elif nodeName_ == 'FREE_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE_MB') ival_ = self.gds_validate_integer(ival_, node, 'FREE_MB') self.FREE_MB = ival_ self.FREE_MB_nsprefix_ = child_.prefix elif nodeName_ == 'USED_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_MB') ival_ = self.gds_validate_integer(ival_, node, 'USED_MB') self.USED_MB = ival_ self.USED_MB_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': obj_ = IMAGESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGES = obj_ obj_.original_tagname_ = 'IMAGES' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType2.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' # end class DATASTORE class DOCUMENT_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DOCUMENT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DOCUMENT is None: self.DOCUMENT = [] else: self.DOCUMENT = DOCUMENT self.DOCUMENT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DOCUMENT_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if DOCUMENT_POOL.subclass: return DOCUMENT_POOL.subclass(*args_, **kwargs_) else: return DOCUMENT_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DOCUMENT(self): return self.DOCUMENT def set_DOCUMENT(self, DOCUMENT): self.DOCUMENT = DOCUMENT def add_DOCUMENT(self, value): self.DOCUMENT.append(value) def insert_DOCUMENT_at(self, index, value): self.DOCUMENT.insert(index, value) def replace_DOCUMENT_at(self, index, value): self.DOCUMENT[index] = value def has__content(self): if ( self.DOCUMENT ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DOCUMENT_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DOCUMENT_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DOCUMENT_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DOCUMENT_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DOCUMENT_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DOCUMENT_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DOCUMENT_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DOCUMENT_ in self.DOCUMENT: namespaceprefix_ = self.DOCUMENT_nsprefix_ + ':' if (UseCapturedNS_ and self.DOCUMENT_nsprefix_) else '' DOCUMENT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DOCUMENT', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DOCUMENT': obj_ = DOCUMENT.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DOCUMENT.append(obj_) obj_.original_tagname_ = 'DOCUMENT' # end class DOCUMENT_POOL class DOCUMENT(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, TYPE=None, PERMISSIONS=None, LOCK=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DOCUMENT) if subclass is not None: return subclass(*args_, **kwargs_) if DOCUMENT.subclass: return DOCUMENT.subclass(*args_, **kwargs_) else: return DOCUMENT(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.TYPE is not None or self.PERMISSIONS is not None or self.LOCK is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DOCUMENT', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DOCUMENT') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DOCUMENT': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DOCUMENT') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DOCUMENT', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DOCUMENT'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DOCUMENT', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType3.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'LOCK': obj_ = LOCKType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class DOCUMENT class GROUP_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, GROUP=None, QUOTAS=None, DEFAULT_GROUP_QUOTAS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if GROUP is None: self.GROUP = [] else: self.GROUP = GROUP self.GROUP_nsprefix_ = None if QUOTAS is None: self.QUOTAS = [] else: self.QUOTAS = QUOTAS self.QUOTAS_nsprefix_ = None self.DEFAULT_GROUP_QUOTAS = DEFAULT_GROUP_QUOTAS self.DEFAULT_GROUP_QUOTAS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUP_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if GROUP_POOL.subclass: return GROUP_POOL.subclass(*args_, **kwargs_) else: return GROUP_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_GROUP(self): return self.GROUP def set_GROUP(self, GROUP): self.GROUP = GROUP def add_GROUP(self, value): self.GROUP.append(value) def insert_GROUP_at(self, index, value): self.GROUP.insert(index, value) def replace_GROUP_at(self, index, value): self.GROUP[index] = value def get_QUOTAS(self): return self.QUOTAS def set_QUOTAS(self, QUOTAS): self.QUOTAS = QUOTAS def add_QUOTAS(self, value): self.QUOTAS.append(value) def insert_QUOTAS_at(self, index, value): self.QUOTAS.insert(index, value) def replace_QUOTAS_at(self, index, value): self.QUOTAS[index] = value def get_DEFAULT_GROUP_QUOTAS(self): return self.DEFAULT_GROUP_QUOTAS def set_DEFAULT_GROUP_QUOTAS(self, DEFAULT_GROUP_QUOTAS): self.DEFAULT_GROUP_QUOTAS = DEFAULT_GROUP_QUOTAS def has__content(self): if ( self.GROUP or self.QUOTAS or self.DEFAULT_GROUP_QUOTAS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUP_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUP_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUP_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUP_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUP_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUP_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUP_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for GROUP_ in self.GROUP: namespaceprefix_ = self.GROUP_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_nsprefix_) else '' GROUP_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='GROUP', pretty_print=pretty_print) for QUOTAS_ in self.QUOTAS: namespaceprefix_ = self.QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.QUOTAS_nsprefix_) else '' QUOTAS_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='QUOTAS', pretty_print=pretty_print) if self.DEFAULT_GROUP_QUOTAS is not None: namespaceprefix_ = self.DEFAULT_GROUP_QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_GROUP_QUOTAS_nsprefix_) else '' self.DEFAULT_GROUP_QUOTAS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DEFAULT_GROUP_QUOTAS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'GROUP': obj_ = GROUPType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.GROUP.append(obj_) obj_.original_tagname_ = 'GROUP' elif nodeName_ == 'QUOTAS': obj_ = QUOTASType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.QUOTAS.append(obj_) obj_.original_tagname_ = 'QUOTAS' elif nodeName_ == 'DEFAULT_GROUP_QUOTAS': obj_ = DEFAULT_GROUP_QUOTASType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DEFAULT_GROUP_QUOTAS = obj_ obj_.original_tagname_ = 'DEFAULT_GROUP_QUOTAS' # end class GROUP_POOL class GROUP(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, TEMPLATE=None, USERS=None, ADMINS=None, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, DEFAULT_GROUP_QUOTAS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.USERS = USERS self.USERS_nsprefix_ = None self.ADMINS = ADMINS self.ADMINS_nsprefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None self.DEFAULT_GROUP_QUOTAS = DEFAULT_GROUP_QUOTAS self.DEFAULT_GROUP_QUOTAS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUP) if subclass is not None: return subclass(*args_, **kwargs_) if GROUP.subclass: return GROUP.subclass(*args_, **kwargs_) else: return GROUP(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_USERS(self): return self.USERS def set_USERS(self, USERS): self.USERS = USERS def get_ADMINS(self): return self.ADMINS def set_ADMINS(self, ADMINS): self.ADMINS = ADMINS def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def get_DEFAULT_GROUP_QUOTAS(self): return self.DEFAULT_GROUP_QUOTAS def set_DEFAULT_GROUP_QUOTAS(self, DEFAULT_GROUP_QUOTAS): self.DEFAULT_GROUP_QUOTAS = DEFAULT_GROUP_QUOTAS def has__content(self): if ( self.ID is not None or self.NAME is not None or self.TEMPLATE is not None or self.USERS is not None or self.ADMINS is not None or self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None or self.DEFAULT_GROUP_QUOTAS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUP', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUP') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUP': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUP') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUP', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUP'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUP', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) if self.USERS is not None: namespaceprefix_ = self.USERS_nsprefix_ + ':' if (UseCapturedNS_ and self.USERS_nsprefix_) else '' self.USERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='USERS', pretty_print=pretty_print) if self.ADMINS is not None: namespaceprefix_ = self.ADMINS_nsprefix_ + ':' if (UseCapturedNS_ and self.ADMINS_nsprefix_) else '' self.ADMINS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ADMINS', pretty_print=pretty_print) if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) if self.DEFAULT_GROUP_QUOTAS is not None: namespaceprefix_ = self.DEFAULT_GROUP_QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_GROUP_QUOTAS_nsprefix_) else '' self.DEFAULT_GROUP_QUOTAS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DEFAULT_GROUP_QUOTAS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'USERS': obj_ = USERSType13.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.USERS = obj_ obj_.original_tagname_ = 'USERS' elif nodeName_ == 'ADMINS': obj_ = ADMINSType14.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ADMINS = obj_ obj_.original_tagname_ = 'ADMINS' elif nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType15.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType17.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType19.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType21.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' elif nodeName_ == 'DEFAULT_GROUP_QUOTAS': obj_ = DEFAULT_GROUP_QUOTASType23.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DEFAULT_GROUP_QUOTAS = obj_ obj_.original_tagname_ = 'DEFAULT_GROUP_QUOTAS' # end class GROUP class HOOK_MESSAGE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOOK_TYPE=None, CALL=None, CALL_INFO=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.HOOK_TYPE = HOOK_TYPE self.HOOK_TYPE_nsprefix_ = None self.CALL = CALL self.CALL_nsprefix_ = None if CALL_INFO is None: self.CALL_INFO = [] else: self.CALL_INFO = CALL_INFO self.CALL_INFO_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOK_MESSAGE) if subclass is not None: return subclass(*args_, **kwargs_) if HOOK_MESSAGE.subclass: return HOOK_MESSAGE.subclass(*args_, **kwargs_) else: return HOOK_MESSAGE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOOK_TYPE(self): return self.HOOK_TYPE def set_HOOK_TYPE(self, HOOK_TYPE): self.HOOK_TYPE = HOOK_TYPE def get_CALL(self): return self.CALL def set_CALL(self, CALL): self.CALL = CALL def get_CALL_INFO(self): return self.CALL_INFO def set_CALL_INFO(self, CALL_INFO): self.CALL_INFO = CALL_INFO def add_CALL_INFO(self, value): self.CALL_INFO.append(value) def insert_CALL_INFO_at(self, index, value): self.CALL_INFO.insert(index, value) def replace_CALL_INFO_at(self, index, value): self.CALL_INFO[index] = value def has__content(self): if ( self.HOOK_TYPE is not None or self.CALL is not None or self.CALL_INFO ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_MESSAGE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOK_MESSAGE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOK_MESSAGE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOK_MESSAGE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOK_MESSAGE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOK_MESSAGE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_MESSAGE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.HOOK_TYPE is not None: namespaceprefix_ = self.HOOK_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOK_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOOK_TYPE>%s</%sHOOK_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOOK_TYPE), input_name='HOOK_TYPE')), namespaceprefix_ , eol_)) if self.CALL is not None: namespaceprefix_ = self.CALL_nsprefix_ + ':' if (UseCapturedNS_ and self.CALL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCALL>%s</%sCALL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CALL), input_name='CALL')), namespaceprefix_ , eol_)) for CALL_INFO_ in self.CALL_INFO: namespaceprefix_ = self.CALL_INFO_nsprefix_ + ':' if (UseCapturedNS_ and self.CALL_INFO_nsprefix_) else '' CALL_INFO_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CALL_INFO', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOOK_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOOK_TYPE') value_ = self.gds_validate_string(value_, node, 'HOOK_TYPE') self.HOOK_TYPE = value_ self.HOOK_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'CALL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CALL') value_ = self.gds_validate_string(value_, node, 'CALL') self.CALL = value_ self.CALL_nsprefix_ = child_.prefix elif nodeName_ == 'CALL_INFO': obj_ = CALL_INFO.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CALL_INFO.append(obj_) obj_.original_tagname_ = 'CALL_INFO' # end class HOOK_MESSAGE class HOOK_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOOK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HOOK is None: self.HOOK = [] else: self.HOOK = HOOK self.HOOK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOK_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if HOOK_POOL.subclass: return HOOK_POOL.subclass(*args_, **kwargs_) else: return HOOK_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOOK(self): return self.HOOK def set_HOOK(self, HOOK): self.HOOK = HOOK def add_HOOK(self, value): self.HOOK.append(value) def insert_HOOK_at(self, index, value): self.HOOK.insert(index, value) def replace_HOOK_at(self, index, value): self.HOOK[index] = value def has__content(self): if ( self.HOOK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOK_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOK_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOK_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOK_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOK_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HOOK_ in self.HOOK: namespaceprefix_ = self.HOOK_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOK_nsprefix_) else '' HOOK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOOK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOOK': obj_ = HOOK.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOOK.append(obj_) obj_.original_tagname_ = 'HOOK' # end class HOOK_POOL class HOOK(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, TYPE=None, TEMPLATE=None, HOOKLOG=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.HOOKLOG = HOOKLOG self.HOOKLOG_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOK) if subclass is not None: return subclass(*args_, **kwargs_) if HOOK.subclass: return HOOK.subclass(*args_, **kwargs_) else: return HOOK(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_HOOKLOG(self): return self.HOOKLOG def set_HOOKLOG(self, HOOKLOG): self.HOOKLOG = HOOKLOG def has__content(self): if ( self.ID is not None or self.NAME is not None or self.TYPE is not None or self.TEMPLATE is not None or self.HOOKLOG is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOK') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOK': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOK') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOK', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOK'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.HOOKLOG is not None: namespaceprefix_ = self.HOOKLOG_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOKLOG_nsprefix_) else '' self.HOOKLOG.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOOKLOG', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType32.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'HOOKLOG': obj_ = HOOKLOGType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOOKLOG = obj_ obj_.original_tagname_ = 'HOOKLOG' # end class HOOK class HOST_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOST=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HOST is None: self.HOST = [] else: self.HOST = HOST self.HOST_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOST_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if HOST_POOL.subclass: return HOST_POOL.subclass(*args_, **kwargs_) else: return HOST_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOST(self): return self.HOST def set_HOST(self, HOST): self.HOST = HOST def add_HOST(self, value): self.HOST.append(value) def insert_HOST_at(self, index, value): self.HOST.insert(index, value) def replace_HOST_at(self, index, value): self.HOST[index] = value def has__content(self): if ( self.HOST ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOST_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOST_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOST_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOST_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOST_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HOST_ in self.HOST: namespaceprefix_ = self.HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_nsprefix_) else '' HOST_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOST', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOST': obj_ = HOST.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOST.append(obj_) obj_.original_tagname_ = 'HOST' # end class HOST_POOL class HOST(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, STATE=None, PREV_STATE=None, IM_MAD=None, VM_MAD=None, CLUSTER_ID=None, CLUSTER=None, HOST_SHARE=None, VMS=None, TEMPLATE=None, MONITORING=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.IM_MAD = IM_MAD self.IM_MAD_nsprefix_ = None self.VM_MAD = VM_MAD self.VM_MAD_nsprefix_ = None self.CLUSTER_ID = CLUSTER_ID self.CLUSTER_ID_nsprefix_ = None self.CLUSTER = CLUSTER self.CLUSTER_nsprefix_ = None self.HOST_SHARE = HOST_SHARE self.HOST_SHARE_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.MONITORING = MONITORING self.MONITORING_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOST) if subclass is not None: return subclass(*args_, **kwargs_) if HOST.subclass: return HOST.subclass(*args_, **kwargs_) else: return HOST(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_IM_MAD(self): return self.IM_MAD def set_IM_MAD(self, IM_MAD): self.IM_MAD = IM_MAD def get_VM_MAD(self): return self.VM_MAD def set_VM_MAD(self, VM_MAD): self.VM_MAD = VM_MAD def get_CLUSTER_ID(self): return self.CLUSTER_ID def set_CLUSTER_ID(self, CLUSTER_ID): self.CLUSTER_ID = CLUSTER_ID def get_CLUSTER(self): return self.CLUSTER def set_CLUSTER(self, CLUSTER): self.CLUSTER = CLUSTER def get_HOST_SHARE(self): return self.HOST_SHARE def set_HOST_SHARE(self, HOST_SHARE): self.HOST_SHARE = HOST_SHARE def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_MONITORING(self): return self.MONITORING def set_MONITORING(self, MONITORING): self.MONITORING = MONITORING def has__content(self): if ( self.ID is not None or self.NAME is not None or self.STATE is not None or self.PREV_STATE is not None or self.IM_MAD is not None or self.VM_MAD is not None or self.CLUSTER_ID is not None or self.CLUSTER is not None or self.HOST_SHARE is not None or self.VMS is not None or self.TEMPLATE is not None or self.MONITORING is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOST') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOST': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOST') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOST', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOST'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.IM_MAD is not None: namespaceprefix_ = self.IM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.IM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIM_MAD>%s</%sIM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IM_MAD), input_name='IM_MAD')), namespaceprefix_ , eol_)) if self.VM_MAD is not None: namespaceprefix_ = self.VM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MAD>%s</%sVM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_MAD), input_name='VM_MAD')), namespaceprefix_ , eol_)) if self.CLUSTER_ID is not None: namespaceprefix_ = self.CLUSTER_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLUSTER_ID>%s</%sCLUSTER_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CLUSTER_ID, input_name='CLUSTER_ID'), namespaceprefix_ , eol_)) if self.CLUSTER is not None: namespaceprefix_ = self.CLUSTER_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLUSTER>%s</%sCLUSTER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLUSTER), input_name='CLUSTER')), namespaceprefix_ , eol_)) if self.HOST_SHARE is not None: namespaceprefix_ = self.HOST_SHARE_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_SHARE_nsprefix_) else '' self.HOST_SHARE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOST_SHARE', pretty_print=pretty_print) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' self.VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.MONITORING is not None: namespaceprefix_ = self.MONITORING_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_nsprefix_) else '' self.MONITORING.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MONITORING', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'IM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IM_MAD') value_ = self.gds_validate_string(value_, node, 'IM_MAD') self.IM_MAD = value_ self.IM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MAD') value_ = self.gds_validate_string(value_, node, 'VM_MAD') self.VM_MAD = value_ self.VM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'CLUSTER_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CLUSTER_ID') ival_ = self.gds_validate_integer(ival_, node, 'CLUSTER_ID') self.CLUSTER_ID = ival_ self.CLUSTER_ID_nsprefix_ = child_.prefix elif nodeName_ == 'CLUSTER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLUSTER') value_ = self.gds_validate_string(value_, node, 'CLUSTER') self.CLUSTER = value_ self.CLUSTER_nsprefix_ = child_.prefix elif nodeName_ == 'HOST_SHARE': obj_ = HOST_SHAREType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOST_SHARE = obj_ obj_.original_tagname_ = 'HOST_SHARE' elif nodeName_ == 'VMS': obj_ = VMSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VMS = obj_ obj_.original_tagname_ = 'VMS' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType34.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'MONITORING': obj_ = MONITORINGType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MONITORING = obj_ obj_.original_tagname_ = 'MONITORING' # end class HOST class IMAGE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_POOL.subclass: return IMAGE_POOL.subclass(*args_, **kwargs_) else: return IMAGE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGE.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_POOL class IMAGE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LOCK=None, PERMISSIONS=None, TYPE=None, DISK_TYPE=None, PERSISTENT=None, REGTIME=None, SOURCE=None, PATH=None, FORMAT=None, FS=None, SIZE=None, STATE=None, PREV_STATE=None, RUNNING_VMS=None, CLONING_OPS=None, CLONING_ID=None, TARGET_SNAPSHOT=None, DATASTORE_ID=None, DATASTORE=None, VMS=None, CLONES=None, APP_CLONES=None, TEMPLATE=None, SNAPSHOTS=None, BACKUP_INCREMENTS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.DISK_TYPE = DISK_TYPE self.DISK_TYPE_nsprefix_ = None self.PERSISTENT = PERSISTENT self.PERSISTENT_nsprefix_ = None self.REGTIME = REGTIME self.REGTIME_nsprefix_ = None self.SOURCE = SOURCE self.SOURCE_nsprefix_ = None self.PATH = PATH self.PATH_nsprefix_ = None self.FORMAT = FORMAT self.FORMAT_nsprefix_ = None self.FS = FS self.FS_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.CLONING_OPS = CLONING_OPS self.CLONING_OPS_nsprefix_ = None self.CLONING_ID = CLONING_ID self.CLONING_ID_nsprefix_ = None self.TARGET_SNAPSHOT = TARGET_SNAPSHOT self.TARGET_SNAPSHOT_nsprefix_ = None self.DATASTORE_ID = DATASTORE_ID self.DATASTORE_ID_nsprefix_ = None self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.CLONES = CLONES self.CLONES_nsprefix_ = None self.APP_CLONES = APP_CLONES self.APP_CLONES_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.SNAPSHOTS = SNAPSHOTS self.SNAPSHOTS_nsprefix_ = None self.BACKUP_INCREMENTS = BACKUP_INCREMENTS self.BACKUP_INCREMENTS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE.subclass: return IMAGE.subclass(*args_, **kwargs_) else: return IMAGE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_DISK_TYPE(self): return self.DISK_TYPE def set_DISK_TYPE(self, DISK_TYPE): self.DISK_TYPE = DISK_TYPE def get_PERSISTENT(self): return self.PERSISTENT def set_PERSISTENT(self, PERSISTENT): self.PERSISTENT = PERSISTENT def get_REGTIME(self): return self.REGTIME def set_REGTIME(self, REGTIME): self.REGTIME = REGTIME def get_SOURCE(self): return self.SOURCE def set_SOURCE(self, SOURCE): self.SOURCE = SOURCE def get_PATH(self): return self.PATH def set_PATH(self, PATH): self.PATH = PATH def get_FORMAT(self): return self.FORMAT def set_FORMAT(self, FORMAT): self.FORMAT = FORMAT def get_FS(self): return self.FS def set_FS(self, FS): self.FS = FS def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_CLONING_OPS(self): return self.CLONING_OPS def set_CLONING_OPS(self, CLONING_OPS): self.CLONING_OPS = CLONING_OPS def get_CLONING_ID(self): return self.CLONING_ID def set_CLONING_ID(self, CLONING_ID): self.CLONING_ID = CLONING_ID def get_TARGET_SNAPSHOT(self): return self.TARGET_SNAPSHOT def set_TARGET_SNAPSHOT(self, TARGET_SNAPSHOT): self.TARGET_SNAPSHOT = TARGET_SNAPSHOT def get_DATASTORE_ID(self): return self.DATASTORE_ID def set_DATASTORE_ID(self, DATASTORE_ID): self.DATASTORE_ID = DATASTORE_ID def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_CLONES(self): return self.CLONES def set_CLONES(self, CLONES): self.CLONES = CLONES def get_APP_CLONES(self): return self.APP_CLONES def set_APP_CLONES(self, APP_CLONES): self.APP_CLONES = APP_CLONES def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_SNAPSHOTS(self): return self.SNAPSHOTS def set_SNAPSHOTS(self, SNAPSHOTS): self.SNAPSHOTS = SNAPSHOTS def get_BACKUP_INCREMENTS(self): return self.BACKUP_INCREMENTS def set_BACKUP_INCREMENTS(self, BACKUP_INCREMENTS): self.BACKUP_INCREMENTS = BACKUP_INCREMENTS def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LOCK is not None or self.PERMISSIONS is not None or self.TYPE is not None or self.DISK_TYPE is not None or self.PERSISTENT is not None or self.REGTIME is not None or self.SOURCE is not None or self.PATH is not None or self.FORMAT is not None or self.FS is not None or self.SIZE is not None or self.STATE is not None or self.PREV_STATE is not None or self.RUNNING_VMS is not None or self.CLONING_OPS is not None or self.CLONING_ID is not None or self.TARGET_SNAPSHOT is not None or self.DATASTORE_ID is not None or self.DATASTORE is not None or self.VMS is not None or self.CLONES is not None or self.APP_CLONES is not None or self.TEMPLATE is not None or self.SNAPSHOTS is not None or self.BACKUP_INCREMENTS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.TYPE, input_name='TYPE'), namespaceprefix_ , eol_)) if self.DISK_TYPE is not None: namespaceprefix_ = self.DISK_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_TYPE>%s</%sDISK_TYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_TYPE, input_name='DISK_TYPE'), namespaceprefix_ , eol_)) if self.PERSISTENT is not None: namespaceprefix_ = self.PERSISTENT_nsprefix_ + ':' if (UseCapturedNS_ and self.PERSISTENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPERSISTENT>%s</%sPERSISTENT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PERSISTENT, input_name='PERSISTENT'), namespaceprefix_ , eol_)) if self.REGTIME is not None: namespaceprefix_ = self.REGTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.REGTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREGTIME>%s</%sREGTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.REGTIME, input_name='REGTIME'), namespaceprefix_ , eol_)) if self.SOURCE is not None: namespaceprefix_ = self.SOURCE_nsprefix_ + ':' if (UseCapturedNS_ and self.SOURCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSOURCE>%s</%sSOURCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SOURCE), input_name='SOURCE')), namespaceprefix_ , eol_)) if self.PATH is not None: namespaceprefix_ = self.PATH_nsprefix_ + ':' if (UseCapturedNS_ and self.PATH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPATH>%s</%sPATH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PATH), input_name='PATH')), namespaceprefix_ , eol_)) if self.FORMAT is not None: namespaceprefix_ = self.FORMAT_nsprefix_ + ':' if (UseCapturedNS_ and self.FORMAT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFORMAT>%s</%sFORMAT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FORMAT), input_name='FORMAT')), namespaceprefix_ , eol_)) if self.FS is not None: namespaceprefix_ = self.FS_nsprefix_ + ':' if (UseCapturedNS_ and self.FS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFS>%s</%sFS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FS), input_name='FS')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS, input_name='RUNNING_VMS'), namespaceprefix_ , eol_)) if self.CLONING_OPS is not None: namespaceprefix_ = self.CLONING_OPS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONING_OPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONING_OPS>%s</%sCLONING_OPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.CLONING_OPS, input_name='CLONING_OPS'), namespaceprefix_ , eol_)) if self.CLONING_ID is not None: namespaceprefix_ = self.CLONING_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONING_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONING_ID>%s</%sCLONING_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CLONING_ID, input_name='CLONING_ID'), namespaceprefix_ , eol_)) if self.TARGET_SNAPSHOT is not None: namespaceprefix_ = self.TARGET_SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.TARGET_SNAPSHOT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTARGET_SNAPSHOT>%s</%sTARGET_SNAPSHOT>%s' % (namespaceprefix_ , self.gds_format_integer(self.TARGET_SNAPSHOT, input_name='TARGET_SNAPSHOT'), namespaceprefix_ , eol_)) if self.DATASTORE_ID is not None: namespaceprefix_ = self.DATASTORE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_ID>%s</%sDATASTORE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DATASTORE_ID, input_name='DATASTORE_ID'), namespaceprefix_ , eol_)) if self.DATASTORE is not None: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE>%s</%sDATASTORE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DATASTORE), input_name='DATASTORE')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' self.VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VMS', pretty_print=pretty_print) if self.CLONES is not None: namespaceprefix_ = self.CLONES_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONES_nsprefix_) else '' self.CLONES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLONES', pretty_print=pretty_print) if self.APP_CLONES is not None: namespaceprefix_ = self.APP_CLONES_nsprefix_ + ':' if (UseCapturedNS_ and self.APP_CLONES_nsprefix_) else '' self.APP_CLONES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='APP_CLONES', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.SNAPSHOTS is not None: namespaceprefix_ = self.SNAPSHOTS_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOTS_nsprefix_) else '' self.SNAPSHOTS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOTS', pretty_print=pretty_print) if self.BACKUP_INCREMENTS is not None: namespaceprefix_ = self.BACKUP_INCREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_INCREMENTS_nsprefix_) else '' self.BACKUP_INCREMENTS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUP_INCREMENTS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCKType37.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType38.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TYPE') ival_ = self.gds_validate_integer(ival_, node, 'TYPE') self.TYPE = ival_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_TYPE') ival_ = self.gds_validate_integer(ival_, node, 'DISK_TYPE') self.DISK_TYPE = ival_ self.DISK_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'PERSISTENT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PERSISTENT') ival_ = self.gds_validate_integer(ival_, node, 'PERSISTENT') self.PERSISTENT = ival_ self.PERSISTENT_nsprefix_ = child_.prefix elif nodeName_ == 'REGTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REGTIME') ival_ = self.gds_validate_integer(ival_, node, 'REGTIME') self.REGTIME = ival_ self.REGTIME_nsprefix_ = child_.prefix elif nodeName_ == 'SOURCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SOURCE') value_ = self.gds_validate_string(value_, node, 'SOURCE') self.SOURCE = value_ self.SOURCE_nsprefix_ = child_.prefix elif nodeName_ == 'PATH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PATH') value_ = self.gds_validate_string(value_, node, 'PATH') self.PATH = value_ self.PATH_nsprefix_ = child_.prefix elif nodeName_ == 'FORMAT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FORMAT') value_ = self.gds_validate_string(value_, node, 'FORMAT') self.FORMAT = value_ self.FORMAT_nsprefix_ = child_.prefix elif nodeName_ == 'FS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FS') value_ = self.gds_validate_string(value_, node, 'FS') self.FS = value_ self.FS_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS') self.RUNNING_VMS = ival_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'CLONING_OPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CLONING_OPS') ival_ = self.gds_validate_integer(ival_, node, 'CLONING_OPS') self.CLONING_OPS = ival_ self.CLONING_OPS_nsprefix_ = child_.prefix elif nodeName_ == 'CLONING_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CLONING_ID') ival_ = self.gds_validate_integer(ival_, node, 'CLONING_ID') self.CLONING_ID = ival_ self.CLONING_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TARGET_SNAPSHOT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TARGET_SNAPSHOT') ival_ = self.gds_validate_integer(ival_, node, 'TARGET_SNAPSHOT') self.TARGET_SNAPSHOT = ival_ self.TARGET_SNAPSHOT_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DATASTORE_ID') ival_ = self.gds_validate_integer(ival_, node, 'DATASTORE_ID') self.DATASTORE_ID = ival_ self.DATASTORE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATASTORE') value_ = self.gds_validate_string(value_, node, 'DATASTORE') self.DATASTORE = value_ self.DATASTORE_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': obj_ = VMSType39.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VMS = obj_ obj_.original_tagname_ = 'VMS' elif nodeName_ == 'CLONES': obj_ = CLONESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLONES = obj_ obj_.original_tagname_ = 'CLONES' elif nodeName_ == 'APP_CLONES': obj_ = APP_CLONESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.APP_CLONES = obj_ obj_.original_tagname_ = 'APP_CLONES' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType40.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'SNAPSHOTS': obj_ = SNAPSHOTSType41.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOTS = obj_ obj_.original_tagname_ = 'SNAPSHOTS' elif nodeName_ == 'BACKUP_INCREMENTS': obj_ = BACKUP_INCREMENTSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUP_INCREMENTS = obj_ obj_.original_tagname_ = 'BACKUP_INCREMENTS' # end class IMAGE class MARKETPLACEAPP_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MARKETPLACEAPP=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if MARKETPLACEAPP is None: self.MARKETPLACEAPP = [] else: self.MARKETPLACEAPP = MARKETPLACEAPP self.MARKETPLACEAPP_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKETPLACEAPP_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if MARKETPLACEAPP_POOL.subclass: return MARKETPLACEAPP_POOL.subclass(*args_, **kwargs_) else: return MARKETPLACEAPP_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MARKETPLACEAPP(self): return self.MARKETPLACEAPP def set_MARKETPLACEAPP(self, MARKETPLACEAPP): self.MARKETPLACEAPP = MARKETPLACEAPP def add_MARKETPLACEAPP(self, value): self.MARKETPLACEAPP.append(value) def insert_MARKETPLACEAPP_at(self, index, value): self.MARKETPLACEAPP.insert(index, value) def replace_MARKETPLACEAPP_at(self, index, value): self.MARKETPLACEAPP[index] = value def has__content(self): if ( self.MARKETPLACEAPP ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPP_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKETPLACEAPP_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKETPLACEAPP_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKETPLACEAPP_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKETPLACEAPP_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKETPLACEAPP_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPP_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for MARKETPLACEAPP_ in self.MARKETPLACEAPP: namespaceprefix_ = self.MARKETPLACEAPP_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACEAPP_nsprefix_) else '' MARKETPLACEAPP_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MARKETPLACEAPP', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MARKETPLACEAPP': obj_ = MARKETPLACEAPP.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MARKETPLACEAPP.append(obj_) obj_.original_tagname_ = 'MARKETPLACEAPP' # end class MARKETPLACEAPP_POOL class MARKETPLACEAPP(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, LOCK=None, REGTIME=None, NAME=None, ZONE_ID=None, ORIGIN_ID=None, SOURCE=None, MD5=None, SIZE=None, DESCRIPTION=None, VERSION=None, FORMAT=None, APPTEMPLATE64=None, MARKETPLACE_ID=None, MARKETPLACE=None, STATE=None, TYPE=None, PERMISSIONS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.REGTIME = REGTIME self.REGTIME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.ORIGIN_ID = ORIGIN_ID self.ORIGIN_ID_nsprefix_ = None self.SOURCE = SOURCE self.SOURCE_nsprefix_ = None self.MD5 = MD5 self.MD5_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.DESCRIPTION = DESCRIPTION self.DESCRIPTION_nsprefix_ = None self.VERSION = VERSION self.VERSION_nsprefix_ = None self.FORMAT = FORMAT self.FORMAT_nsprefix_ = None self.APPTEMPLATE64 = APPTEMPLATE64 self.APPTEMPLATE64_nsprefix_ = None self.MARKETPLACE_ID = MARKETPLACE_ID self.MARKETPLACE_ID_nsprefix_ = None self.MARKETPLACE = MARKETPLACE self.MARKETPLACE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKETPLACEAPP) if subclass is not None: return subclass(*args_, **kwargs_) if MARKETPLACEAPP.subclass: return MARKETPLACEAPP.subclass(*args_, **kwargs_) else: return MARKETPLACEAPP(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_REGTIME(self): return self.REGTIME def set_REGTIME(self, REGTIME): self.REGTIME = REGTIME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_ORIGIN_ID(self): return self.ORIGIN_ID def set_ORIGIN_ID(self, ORIGIN_ID): self.ORIGIN_ID = ORIGIN_ID def get_SOURCE(self): return self.SOURCE def set_SOURCE(self, SOURCE): self.SOURCE = SOURCE def get_MD5(self): return self.MD5 def set_MD5(self, MD5): self.MD5 = MD5 def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_DESCRIPTION(self): return self.DESCRIPTION def set_DESCRIPTION(self, DESCRIPTION): self.DESCRIPTION = DESCRIPTION def get_VERSION(self): return self.VERSION def set_VERSION(self, VERSION): self.VERSION = VERSION def get_FORMAT(self): return self.FORMAT def set_FORMAT(self, FORMAT): self.FORMAT = FORMAT def get_APPTEMPLATE64(self): return self.APPTEMPLATE64 def set_APPTEMPLATE64(self, APPTEMPLATE64): self.APPTEMPLATE64 = APPTEMPLATE64 def get_MARKETPLACE_ID(self): return self.MARKETPLACE_ID def set_MARKETPLACE_ID(self, MARKETPLACE_ID): self.MARKETPLACE_ID = MARKETPLACE_ID def get_MARKETPLACE(self): return self.MARKETPLACE def set_MARKETPLACE(self, MARKETPLACE): self.MARKETPLACE = MARKETPLACE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.LOCK is not None or self.REGTIME is not None or self.NAME is not None or self.ZONE_ID is not None or self.ORIGIN_ID is not None or self.SOURCE is not None or self.MD5 is not None or self.SIZE is not None or self.DESCRIPTION is not None or self.VERSION is not None or self.FORMAT is not None or self.APPTEMPLATE64 is not None or self.MARKETPLACE_ID is not None or self.MARKETPLACE is not None or self.STATE is not None or self.TYPE is not None or self.PERMISSIONS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPP', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKETPLACEAPP') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKETPLACEAPP': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKETPLACEAPP') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKETPLACEAPP', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKETPLACEAPP'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPP', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.REGTIME is not None: namespaceprefix_ = self.REGTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.REGTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREGTIME>%s</%sREGTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.REGTIME, input_name='REGTIME'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ZONE_ID), input_name='ZONE_ID')), namespaceprefix_ , eol_)) if self.ORIGIN_ID is not None: namespaceprefix_ = self.ORIGIN_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ORIGIN_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sORIGIN_ID>%s</%sORIGIN_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ORIGIN_ID), input_name='ORIGIN_ID')), namespaceprefix_ , eol_)) if self.SOURCE is not None: namespaceprefix_ = self.SOURCE_nsprefix_ + ':' if (UseCapturedNS_ and self.SOURCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSOURCE>%s</%sSOURCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SOURCE), input_name='SOURCE')), namespaceprefix_ , eol_)) if self.MD5 is not None: namespaceprefix_ = self.MD5_nsprefix_ + ':' if (UseCapturedNS_ and self.MD5_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMD5>%s</%sMD5>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MD5), input_name='MD5')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) if self.DESCRIPTION is not None: namespaceprefix_ = self.DESCRIPTION_nsprefix_ + ':' if (UseCapturedNS_ and self.DESCRIPTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDESCRIPTION>%s</%sDESCRIPTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DESCRIPTION), input_name='DESCRIPTION')), namespaceprefix_ , eol_)) if self.VERSION is not None: namespaceprefix_ = self.VERSION_nsprefix_ + ':' if (UseCapturedNS_ and self.VERSION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVERSION>%s</%sVERSION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VERSION), input_name='VERSION')), namespaceprefix_ , eol_)) if self.FORMAT is not None: namespaceprefix_ = self.FORMAT_nsprefix_ + ':' if (UseCapturedNS_ and self.FORMAT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFORMAT>%s</%sFORMAT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FORMAT), input_name='FORMAT')), namespaceprefix_ , eol_)) if self.APPTEMPLATE64 is not None: namespaceprefix_ = self.APPTEMPLATE64_nsprefix_ + ':' if (UseCapturedNS_ and self.APPTEMPLATE64_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAPPTEMPLATE64>%s</%sAPPTEMPLATE64>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.APPTEMPLATE64), input_name='APPTEMPLATE64')), namespaceprefix_ , eol_)) if self.MARKETPLACE_ID is not None: namespaceprefix_ = self.MARKETPLACE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMARKETPLACE_ID>%s</%sMARKETPLACE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.MARKETPLACE_ID, input_name='MARKETPLACE_ID'), namespaceprefix_ , eol_)) if self.MARKETPLACE is not None: namespaceprefix_ = self.MARKETPLACE_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMARKETPLACE>%s</%sMARKETPLACE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MARKETPLACE), input_name='MARKETPLACE')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_format_integer(self.TYPE, input_name='TYPE'), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCKType43.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'REGTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REGTIME') ival_ = self.gds_validate_integer(ival_, node, 'REGTIME') self.REGTIME = ival_ self.REGTIME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'ZONE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ZONE_ID') value_ = self.gds_validate_string(value_, node, 'ZONE_ID') self.ZONE_ID = value_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'ORIGIN_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ORIGIN_ID') value_ = self.gds_validate_string(value_, node, 'ORIGIN_ID') self.ORIGIN_ID = value_ self.ORIGIN_ID_nsprefix_ = child_.prefix elif nodeName_ == 'SOURCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SOURCE') value_ = self.gds_validate_string(value_, node, 'SOURCE') self.SOURCE = value_ self.SOURCE_nsprefix_ = child_.prefix elif nodeName_ == 'MD5': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MD5') value_ = self.gds_validate_string(value_, node, 'MD5') self.MD5 = value_ self.MD5_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'DESCRIPTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DESCRIPTION') value_ = self.gds_validate_string(value_, node, 'DESCRIPTION') self.DESCRIPTION = value_ self.DESCRIPTION_nsprefix_ = child_.prefix elif nodeName_ == 'VERSION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VERSION') value_ = self.gds_validate_string(value_, node, 'VERSION') self.VERSION = value_ self.VERSION_nsprefix_ = child_.prefix elif nodeName_ == 'FORMAT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FORMAT') value_ = self.gds_validate_string(value_, node, 'FORMAT') self.FORMAT = value_ self.FORMAT_nsprefix_ = child_.prefix elif nodeName_ == 'APPTEMPLATE64': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'APPTEMPLATE64') value_ = self.gds_validate_string(value_, node, 'APPTEMPLATE64') self.APPTEMPLATE64 = value_ self.APPTEMPLATE64_nsprefix_ = child_.prefix elif nodeName_ == 'MARKETPLACE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MARKETPLACE_ID') ival_ = self.gds_validate_integer(ival_, node, 'MARKETPLACE_ID') self.MARKETPLACE_ID = ival_ self.MARKETPLACE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'MARKETPLACE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MARKETPLACE') value_ = self.gds_validate_string(value_, node, 'MARKETPLACE') self.MARKETPLACE = value_ self.MARKETPLACE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TYPE') ival_ = self.gds_validate_integer(ival_, node, 'TYPE') self.TYPE = ival_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType44.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class MARKETPLACEAPP class MARKETPLACE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MARKETPLACE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if MARKETPLACE is None: self.MARKETPLACE = [] else: self.MARKETPLACE = MARKETPLACE self.MARKETPLACE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKETPLACE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if MARKETPLACE_POOL.subclass: return MARKETPLACE_POOL.subclass(*args_, **kwargs_) else: return MARKETPLACE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MARKETPLACE(self): return self.MARKETPLACE def set_MARKETPLACE(self, MARKETPLACE): self.MARKETPLACE = MARKETPLACE def add_MARKETPLACE(self, value): self.MARKETPLACE.append(value) def insert_MARKETPLACE_at(self, index, value): self.MARKETPLACE.insert(index, value) def replace_MARKETPLACE_at(self, index, value): self.MARKETPLACE[index] = value def has__content(self): if ( self.MARKETPLACE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKETPLACE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKETPLACE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKETPLACE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKETPLACE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKETPLACE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for MARKETPLACE_ in self.MARKETPLACE: namespaceprefix_ = self.MARKETPLACE_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACE_nsprefix_) else '' MARKETPLACE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MARKETPLACE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MARKETPLACE': obj_ = MARKETPLACE.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MARKETPLACE.append(obj_) obj_.original_tagname_ = 'MARKETPLACE' # end class MARKETPLACE_POOL class MARKETPLACE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, STATE=None, MARKET_MAD=None, ZONE_ID=None, TOTAL_MB=None, FREE_MB=None, USED_MB=None, MARKETPLACEAPPS=None, PERMISSIONS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.MARKET_MAD = MARKET_MAD self.MARKET_MAD_nsprefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.TOTAL_MB = TOTAL_MB self.TOTAL_MB_nsprefix_ = None self.FREE_MB = FREE_MB self.FREE_MB_nsprefix_ = None self.USED_MB = USED_MB self.USED_MB_nsprefix_ = None self.MARKETPLACEAPPS = MARKETPLACEAPPS self.MARKETPLACEAPPS_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKETPLACE) if subclass is not None: return subclass(*args_, **kwargs_) if MARKETPLACE.subclass: return MARKETPLACE.subclass(*args_, **kwargs_) else: return MARKETPLACE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_MARKET_MAD(self): return self.MARKET_MAD def set_MARKET_MAD(self, MARKET_MAD): self.MARKET_MAD = MARKET_MAD def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_TOTAL_MB(self): return self.TOTAL_MB def set_TOTAL_MB(self, TOTAL_MB): self.TOTAL_MB = TOTAL_MB def get_FREE_MB(self): return self.FREE_MB def set_FREE_MB(self, FREE_MB): self.FREE_MB = FREE_MB def get_USED_MB(self): return self.USED_MB def set_USED_MB(self, USED_MB): self.USED_MB = USED_MB def get_MARKETPLACEAPPS(self): return self.MARKETPLACEAPPS def set_MARKETPLACEAPPS(self, MARKETPLACEAPPS): self.MARKETPLACEAPPS = MARKETPLACEAPPS def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.STATE is not None or self.MARKET_MAD is not None or self.ZONE_ID is not None or self.TOTAL_MB is not None or self.FREE_MB is not None or self.USED_MB is not None or self.MARKETPLACEAPPS is not None or self.PERMISSIONS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKETPLACE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKETPLACE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKETPLACE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKETPLACE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKETPLACE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.MARKET_MAD is not None: namespaceprefix_ = self.MARKET_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKET_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMARKET_MAD>%s</%sMARKET_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MARKET_MAD), input_name='MARKET_MAD')), namespaceprefix_ , eol_)) if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ZONE_ID), input_name='ZONE_ID')), namespaceprefix_ , eol_)) if self.TOTAL_MB is not None: namespaceprefix_ = self.TOTAL_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL_MB>%s</%sTOTAL_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.TOTAL_MB, input_name='TOTAL_MB'), namespaceprefix_ , eol_)) if self.FREE_MB is not None: namespaceprefix_ = self.FREE_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE_MB>%s</%sFREE_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE_MB, input_name='FREE_MB'), namespaceprefix_ , eol_)) if self.USED_MB is not None: namespaceprefix_ = self.USED_MB_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_MB_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_MB>%s</%sUSED_MB>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_MB, input_name='USED_MB'), namespaceprefix_ , eol_)) if self.MARKETPLACEAPPS is not None: namespaceprefix_ = self.MARKETPLACEAPPS_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACEAPPS_nsprefix_) else '' self.MARKETPLACEAPPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MARKETPLACEAPPS', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'MARKET_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MARKET_MAD') value_ = self.gds_validate_string(value_, node, 'MARKET_MAD') self.MARKET_MAD = value_ self.MARKET_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'ZONE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ZONE_ID') value_ = self.gds_validate_string(value_, node, 'ZONE_ID') self.ZONE_ID = value_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TOTAL_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TOTAL_MB') ival_ = self.gds_validate_integer(ival_, node, 'TOTAL_MB') self.TOTAL_MB = ival_ self.TOTAL_MB_nsprefix_ = child_.prefix elif nodeName_ == 'FREE_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE_MB') ival_ = self.gds_validate_integer(ival_, node, 'FREE_MB') self.FREE_MB = ival_ self.FREE_MB_nsprefix_ = child_.prefix elif nodeName_ == 'USED_MB' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_MB') ival_ = self.gds_validate_integer(ival_, node, 'USED_MB') self.USED_MB = ival_ self.USED_MB_nsprefix_ = child_.prefix elif nodeName_ == 'MARKETPLACEAPPS': obj_ = MARKETPLACEAPPSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MARKETPLACEAPPS = obj_ obj_.original_tagname_ = 'MARKETPLACEAPPS' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType45.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class MARKETPLACE class MONITORING_DATA(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MONITORING=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if MONITORING is None: self.MONITORING = [] else: self.MONITORING = MONITORING self.MONITORING_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORING_DATA) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORING_DATA.subclass: return MONITORING_DATA.subclass(*args_, **kwargs_) else: return MONITORING_DATA(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MONITORING(self): return self.MONITORING def set_MONITORING(self, MONITORING): self.MONITORING = MONITORING def add_MONITORING(self, value): self.MONITORING.append(value) def insert_MONITORING_at(self, index, value): self.MONITORING.insert(index, value) def replace_MONITORING_at(self, index, value): self.MONITORING[index] = value def has__content(self): if ( self.MONITORING ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORING_DATA', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORING_DATA') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORING_DATA': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORING_DATA') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORING_DATA', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORING_DATA'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORING_DATA', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for MONITORING_ in self.MONITORING: namespaceprefix_ = self.MONITORING_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_nsprefix_) else '' MONITORING_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MONITORING', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MONITORING': obj_ = MONITORINGType46.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MONITORING.append(obj_) obj_.original_tagname_ = 'MONITORING' # end class MONITORING_DATA class OPENNEBULA_CONFIGURATION(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, API_LIST_ORDER=None, AUTH_MAD=None, AUTH_MAD_CONF=None, CLUSTER_ENCRYPTED_ATTR=None, CONTEXT_RESTRICTED_DIRS=None, CONTEXT_SAFE_DIRS=None, DATASTORE_CAPACITY_CHECK=None, DATASTORE_ENCRYPTED_ATTR=None, DATASTORE_LOCATION=None, DATASTORE_MAD=None, DB=None, DEFAULT_AUTH=None, DEFAULT_CDROM_DEVICE_PREFIX=None, DEFAULT_COST=None, DEFAULT_DEVICE_PREFIX=None, DEFAULT_IMAGE_PERSISTENT=None, DEFAULT_IMAGE_PERSISTENT_NEW=None, DEFAULT_IMAGE_TYPE=None, DEFAULT_UMASK=None, DEFAULT_VDC_CLUSTER_DATASTORE_ACL=None, DEFAULT_VDC_CLUSTER_HOST_ACL=None, DEFAULT_VDC_CLUSTER_NET_ACL=None, DEFAULT_VDC_DATASTORE_ACL=None, DEFAULT_VDC_HOST_ACL=None, DEFAULT_VDC_VNET_ACL=None, DOCUMENT_ENCRYPTED_ATTR=None, DS_MAD_CONF=None, DS_MONITOR_VM_DISK=None, ENABLE_OTHER_PERMISSIONS=None, FEDERATION=None, GROUP_RESTRICTED_ATTR=None, HM_MAD=None, HOOK_LOG_CONF=None, HOST_ENCRYPTED_ATTR=None, IMAGE_ENCRYPTED_ATTR=None, IMAGE_RESTRICTED_ATTR=None, IM_MAD=None, INHERIT_DATASTORE_ATTR=None, INHERIT_IMAGE_ATTR=None, INHERIT_VNET_ATTR=None, IPAM_MAD=None, KEEPALIVE_MAX_CONN=None, KEEPALIVE_TIMEOUT=None, LISTEN_ADDRESS=None, LOG=None, LOG_CALL_FORMAT=None, MAC_PREFIX=None, MANAGER_TIMER=None, MARKET_MAD=None, MARKET_MAD_CONF=None, MAX_BACKUPS=None, MAX_BACKUPS_HOST=None, MAX_CONN=None, MAX_CONN_BACKLOG=None, MESSAGE_SIZE=None, MONITORING_INTERVAL_DATASTORE=None, MONITORING_INTERVAL_DB_UPDATE=None, MONITORING_INTERVAL_HOST=None, MONITORING_INTERVAL_MARKET=None, MONITORING_INTERVAL_VM=None, NETWORK_SIZE=None, ONE_KEY=None, PCI_PASSTHROUGH_BUS=None, PORT=None, RAFT=None, RPC_LOG=None, SCRIPTS_REMOTE_DIR=None, SESSION_EXPIRATION_TIME=None, SHOWBACK_ONLY_RUNNING=None, TIMEOUT=None, TM_MAD=None, TM_MAD_CONF=None, USER_ENCRYPTED_ATTR=None, USER_RESTRICTED_ATTR=None, VLAN_IDS=None, VM_ADMIN_OPERATIONS=None, VM_ENCRYPTED_ATTR=None, VM_MAD=None, VM_MANAGE_OPERATIONS=None, VM_MONITORING_EXPIRATION_TIME=None, VM_RESTRICTED_ATTR=None, VM_SNAPSHOT_FACTOR=None, VM_SUBMIT_ON_HOLD=None, VM_USE_OPERATIONS=None, VNC_PORTS=None, VNET_ENCRYPTED_ATTR=None, VNET_RESTRICTED_ATTR=None, VN_MAD_CONF=None, VXLAN_IDS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if API_LIST_ORDER is None: self.API_LIST_ORDER = [] else: self.API_LIST_ORDER = API_LIST_ORDER self.API_LIST_ORDER_nsprefix_ = None if AUTH_MAD is None: self.AUTH_MAD = [] else: self.AUTH_MAD = AUTH_MAD self.AUTH_MAD_nsprefix_ = None if AUTH_MAD_CONF is None: self.AUTH_MAD_CONF = [] else: self.AUTH_MAD_CONF = AUTH_MAD_CONF self.AUTH_MAD_CONF_nsprefix_ = None if CLUSTER_ENCRYPTED_ATTR is None: self.CLUSTER_ENCRYPTED_ATTR = [] else: self.CLUSTER_ENCRYPTED_ATTR = CLUSTER_ENCRYPTED_ATTR self.CLUSTER_ENCRYPTED_ATTR_nsprefix_ = None self.CONTEXT_RESTRICTED_DIRS = CONTEXT_RESTRICTED_DIRS self.CONTEXT_RESTRICTED_DIRS_nsprefix_ = None self.CONTEXT_SAFE_DIRS = CONTEXT_SAFE_DIRS self.CONTEXT_SAFE_DIRS_nsprefix_ = None if DATASTORE_CAPACITY_CHECK is None: self.DATASTORE_CAPACITY_CHECK = [] else: self.DATASTORE_CAPACITY_CHECK = DATASTORE_CAPACITY_CHECK self.DATASTORE_CAPACITY_CHECK_nsprefix_ = None if DATASTORE_ENCRYPTED_ATTR is None: self.DATASTORE_ENCRYPTED_ATTR = [] else: self.DATASTORE_ENCRYPTED_ATTR = DATASTORE_ENCRYPTED_ATTR self.DATASTORE_ENCRYPTED_ATTR_nsprefix_ = None if DATASTORE_LOCATION is None: self.DATASTORE_LOCATION = [] else: self.DATASTORE_LOCATION = DATASTORE_LOCATION self.DATASTORE_LOCATION_nsprefix_ = None if DATASTORE_MAD is None: self.DATASTORE_MAD = [] else: self.DATASTORE_MAD = DATASTORE_MAD self.DATASTORE_MAD_nsprefix_ = None self.DB = DB self.DB_nsprefix_ = None if DEFAULT_AUTH is None: self.DEFAULT_AUTH = [] else: self.DEFAULT_AUTH = DEFAULT_AUTH self.DEFAULT_AUTH_nsprefix_ = None if DEFAULT_CDROM_DEVICE_PREFIX is None: self.DEFAULT_CDROM_DEVICE_PREFIX = [] else: self.DEFAULT_CDROM_DEVICE_PREFIX = DEFAULT_CDROM_DEVICE_PREFIX self.DEFAULT_CDROM_DEVICE_PREFIX_nsprefix_ = None if DEFAULT_COST is None: self.DEFAULT_COST = [] else: self.DEFAULT_COST = DEFAULT_COST self.DEFAULT_COST_nsprefix_ = None if DEFAULT_DEVICE_PREFIX is None: self.DEFAULT_DEVICE_PREFIX = [] else: self.DEFAULT_DEVICE_PREFIX = DEFAULT_DEVICE_PREFIX self.DEFAULT_DEVICE_PREFIX_nsprefix_ = None if DEFAULT_IMAGE_PERSISTENT is None: self.DEFAULT_IMAGE_PERSISTENT = [] else: self.DEFAULT_IMAGE_PERSISTENT = DEFAULT_IMAGE_PERSISTENT self.DEFAULT_IMAGE_PERSISTENT_nsprefix_ = None if DEFAULT_IMAGE_PERSISTENT_NEW is None: self.DEFAULT_IMAGE_PERSISTENT_NEW = [] else: self.DEFAULT_IMAGE_PERSISTENT_NEW = DEFAULT_IMAGE_PERSISTENT_NEW self.DEFAULT_IMAGE_PERSISTENT_NEW_nsprefix_ = None if DEFAULT_IMAGE_TYPE is None: self.DEFAULT_IMAGE_TYPE = [] else: self.DEFAULT_IMAGE_TYPE = DEFAULT_IMAGE_TYPE self.DEFAULT_IMAGE_TYPE_nsprefix_ = None if DEFAULT_UMASK is None: self.DEFAULT_UMASK = [] else: self.DEFAULT_UMASK = DEFAULT_UMASK self.DEFAULT_UMASK_nsprefix_ = None if DEFAULT_VDC_CLUSTER_DATASTORE_ACL is None: self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL = [] else: self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL = DEFAULT_VDC_CLUSTER_DATASTORE_ACL self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL_nsprefix_ = None if DEFAULT_VDC_CLUSTER_HOST_ACL is None: self.DEFAULT_VDC_CLUSTER_HOST_ACL = [] else: self.DEFAULT_VDC_CLUSTER_HOST_ACL = DEFAULT_VDC_CLUSTER_HOST_ACL self.DEFAULT_VDC_CLUSTER_HOST_ACL_nsprefix_ = None if DEFAULT_VDC_CLUSTER_NET_ACL is None: self.DEFAULT_VDC_CLUSTER_NET_ACL = [] else: self.DEFAULT_VDC_CLUSTER_NET_ACL = DEFAULT_VDC_CLUSTER_NET_ACL self.DEFAULT_VDC_CLUSTER_NET_ACL_nsprefix_ = None if DEFAULT_VDC_DATASTORE_ACL is None: self.DEFAULT_VDC_DATASTORE_ACL = [] else: self.DEFAULT_VDC_DATASTORE_ACL = DEFAULT_VDC_DATASTORE_ACL self.DEFAULT_VDC_DATASTORE_ACL_nsprefix_ = None if DEFAULT_VDC_HOST_ACL is None: self.DEFAULT_VDC_HOST_ACL = [] else: self.DEFAULT_VDC_HOST_ACL = DEFAULT_VDC_HOST_ACL self.DEFAULT_VDC_HOST_ACL_nsprefix_ = None if DEFAULT_VDC_VNET_ACL is None: self.DEFAULT_VDC_VNET_ACL = [] else: self.DEFAULT_VDC_VNET_ACL = DEFAULT_VDC_VNET_ACL self.DEFAULT_VDC_VNET_ACL_nsprefix_ = None if DOCUMENT_ENCRYPTED_ATTR is None: self.DOCUMENT_ENCRYPTED_ATTR = [] else: self.DOCUMENT_ENCRYPTED_ATTR = DOCUMENT_ENCRYPTED_ATTR self.DOCUMENT_ENCRYPTED_ATTR_nsprefix_ = None if DS_MAD_CONF is None: self.DS_MAD_CONF = [] else: self.DS_MAD_CONF = DS_MAD_CONF self.DS_MAD_CONF_nsprefix_ = None self.DS_MONITOR_VM_DISK = DS_MONITOR_VM_DISK self.DS_MONITOR_VM_DISK_nsprefix_ = None self.ENABLE_OTHER_PERMISSIONS = ENABLE_OTHER_PERMISSIONS self.validate_ENABLE_OTHER_PERMISSIONSType(self.ENABLE_OTHER_PERMISSIONS) self.ENABLE_OTHER_PERMISSIONS_nsprefix_ = None self.FEDERATION = FEDERATION self.FEDERATION_nsprefix_ = None if GROUP_RESTRICTED_ATTR is None: self.GROUP_RESTRICTED_ATTR = [] else: self.GROUP_RESTRICTED_ATTR = GROUP_RESTRICTED_ATTR self.GROUP_RESTRICTED_ATTR_nsprefix_ = None self.HM_MAD = HM_MAD self.HM_MAD_nsprefix_ = None self.HOOK_LOG_CONF = HOOK_LOG_CONF self.HOOK_LOG_CONF_nsprefix_ = None if HOST_ENCRYPTED_ATTR is None: self.HOST_ENCRYPTED_ATTR = [] else: self.HOST_ENCRYPTED_ATTR = HOST_ENCRYPTED_ATTR self.HOST_ENCRYPTED_ATTR_nsprefix_ = None if IMAGE_ENCRYPTED_ATTR is None: self.IMAGE_ENCRYPTED_ATTR = [] else: self.IMAGE_ENCRYPTED_ATTR = IMAGE_ENCRYPTED_ATTR self.IMAGE_ENCRYPTED_ATTR_nsprefix_ = None if IMAGE_RESTRICTED_ATTR is None: self.IMAGE_RESTRICTED_ATTR = [] else: self.IMAGE_RESTRICTED_ATTR = IMAGE_RESTRICTED_ATTR self.IMAGE_RESTRICTED_ATTR_nsprefix_ = None if IM_MAD is None: self.IM_MAD = [] else: self.IM_MAD = IM_MAD self.IM_MAD_nsprefix_ = None if INHERIT_DATASTORE_ATTR is None: self.INHERIT_DATASTORE_ATTR = [] else: self.INHERIT_DATASTORE_ATTR = INHERIT_DATASTORE_ATTR self.INHERIT_DATASTORE_ATTR_nsprefix_ = None if INHERIT_IMAGE_ATTR is None: self.INHERIT_IMAGE_ATTR = [] else: self.INHERIT_IMAGE_ATTR = INHERIT_IMAGE_ATTR self.INHERIT_IMAGE_ATTR_nsprefix_ = None if INHERIT_VNET_ATTR is None: self.INHERIT_VNET_ATTR = [] else: self.INHERIT_VNET_ATTR = INHERIT_VNET_ATTR self.INHERIT_VNET_ATTR_nsprefix_ = None if IPAM_MAD is None: self.IPAM_MAD = [] else: self.IPAM_MAD = IPAM_MAD self.IPAM_MAD_nsprefix_ = None if KEEPALIVE_MAX_CONN is None: self.KEEPALIVE_MAX_CONN = [] else: self.KEEPALIVE_MAX_CONN = KEEPALIVE_MAX_CONN self.KEEPALIVE_MAX_CONN_nsprefix_ = None if KEEPALIVE_TIMEOUT is None: self.KEEPALIVE_TIMEOUT = [] else: self.KEEPALIVE_TIMEOUT = KEEPALIVE_TIMEOUT self.KEEPALIVE_TIMEOUT_nsprefix_ = None if LISTEN_ADDRESS is None: self.LISTEN_ADDRESS = [] else: self.LISTEN_ADDRESS = LISTEN_ADDRESS self.LISTEN_ADDRESS_nsprefix_ = None if LOG is None: self.LOG = [] else: self.LOG = LOG self.LOG_nsprefix_ = None if LOG_CALL_FORMAT is None: self.LOG_CALL_FORMAT = [] else: self.LOG_CALL_FORMAT = LOG_CALL_FORMAT self.LOG_CALL_FORMAT_nsprefix_ = None if MAC_PREFIX is None: self.MAC_PREFIX = [] else: self.MAC_PREFIX = MAC_PREFIX self.MAC_PREFIX_nsprefix_ = None if MANAGER_TIMER is None: self.MANAGER_TIMER = [] else: self.MANAGER_TIMER = MANAGER_TIMER self.MANAGER_TIMER_nsprefix_ = None if MARKET_MAD is None: self.MARKET_MAD = [] else: self.MARKET_MAD = MARKET_MAD self.MARKET_MAD_nsprefix_ = None if MARKET_MAD_CONF is None: self.MARKET_MAD_CONF = [] else: self.MARKET_MAD_CONF = MARKET_MAD_CONF self.MARKET_MAD_CONF_nsprefix_ = None self.MAX_BACKUPS = MAX_BACKUPS self.MAX_BACKUPS_nsprefix_ = None self.MAX_BACKUPS_HOST = MAX_BACKUPS_HOST self.MAX_BACKUPS_HOST_nsprefix_ = None self.MAX_CONN = MAX_CONN self.MAX_CONN_nsprefix_ = None self.MAX_CONN_BACKLOG = MAX_CONN_BACKLOG self.MAX_CONN_BACKLOG_nsprefix_ = None self.MESSAGE_SIZE = MESSAGE_SIZE self.MESSAGE_SIZE_nsprefix_ = None self.MONITORING_INTERVAL_DATASTORE = MONITORING_INTERVAL_DATASTORE self.MONITORING_INTERVAL_DATASTORE_nsprefix_ = None self.MONITORING_INTERVAL_DB_UPDATE = MONITORING_INTERVAL_DB_UPDATE self.MONITORING_INTERVAL_DB_UPDATE_nsprefix_ = None self.MONITORING_INTERVAL_HOST = MONITORING_INTERVAL_HOST self.MONITORING_INTERVAL_HOST_nsprefix_ = None self.MONITORING_INTERVAL_MARKET = MONITORING_INTERVAL_MARKET self.MONITORING_INTERVAL_MARKET_nsprefix_ = None self.MONITORING_INTERVAL_VM = MONITORING_INTERVAL_VM self.MONITORING_INTERVAL_VM_nsprefix_ = None self.NETWORK_SIZE = NETWORK_SIZE self.NETWORK_SIZE_nsprefix_ = None if ONE_KEY is None: self.ONE_KEY = [] else: self.ONE_KEY = ONE_KEY self.ONE_KEY_nsprefix_ = None self.PCI_PASSTHROUGH_BUS = PCI_PASSTHROUGH_BUS self.PCI_PASSTHROUGH_BUS_nsprefix_ = None self.PORT = PORT self.PORT_nsprefix_ = None self.RAFT = RAFT self.RAFT_nsprefix_ = None self.RPC_LOG = RPC_LOG self.RPC_LOG_nsprefix_ = None self.SCRIPTS_REMOTE_DIR = SCRIPTS_REMOTE_DIR self.SCRIPTS_REMOTE_DIR_nsprefix_ = None self.SESSION_EXPIRATION_TIME = SESSION_EXPIRATION_TIME self.SESSION_EXPIRATION_TIME_nsprefix_ = None self.SHOWBACK_ONLY_RUNNING = SHOWBACK_ONLY_RUNNING self.SHOWBACK_ONLY_RUNNING_nsprefix_ = None self.TIMEOUT = TIMEOUT self.TIMEOUT_nsprefix_ = None if TM_MAD is None: self.TM_MAD = [] else: self.TM_MAD = TM_MAD self.TM_MAD_nsprefix_ = None if TM_MAD_CONF is None: self.TM_MAD_CONF = [] else: self.TM_MAD_CONF = TM_MAD_CONF self.TM_MAD_CONF_nsprefix_ = None if USER_ENCRYPTED_ATTR is None: self.USER_ENCRYPTED_ATTR = [] else: self.USER_ENCRYPTED_ATTR = USER_ENCRYPTED_ATTR self.USER_ENCRYPTED_ATTR_nsprefix_ = None if USER_RESTRICTED_ATTR is None: self.USER_RESTRICTED_ATTR = [] else: self.USER_RESTRICTED_ATTR = USER_RESTRICTED_ATTR self.USER_RESTRICTED_ATTR_nsprefix_ = None self.VLAN_IDS = VLAN_IDS self.VLAN_IDS_nsprefix_ = None self.VM_ADMIN_OPERATIONS = VM_ADMIN_OPERATIONS self.VM_ADMIN_OPERATIONS_nsprefix_ = None if VM_ENCRYPTED_ATTR is None: self.VM_ENCRYPTED_ATTR = [] else: self.VM_ENCRYPTED_ATTR = VM_ENCRYPTED_ATTR self.VM_ENCRYPTED_ATTR_nsprefix_ = None if VM_MAD is None: self.VM_MAD = [] else: self.VM_MAD = VM_MAD self.VM_MAD_nsprefix_ = None self.VM_MANAGE_OPERATIONS = VM_MANAGE_OPERATIONS self.VM_MANAGE_OPERATIONS_nsprefix_ = None if VM_MONITORING_EXPIRATION_TIME is None: self.VM_MONITORING_EXPIRATION_TIME = [] else: self.VM_MONITORING_EXPIRATION_TIME = VM_MONITORING_EXPIRATION_TIME self.VM_MONITORING_EXPIRATION_TIME_nsprefix_ = None if VM_RESTRICTED_ATTR is None: self.VM_RESTRICTED_ATTR = [] else: self.VM_RESTRICTED_ATTR = VM_RESTRICTED_ATTR self.VM_RESTRICTED_ATTR_nsprefix_ = None self.VM_SNAPSHOT_FACTOR = VM_SNAPSHOT_FACTOR self.VM_SNAPSHOT_FACTOR_nsprefix_ = None self.VM_SUBMIT_ON_HOLD = VM_SUBMIT_ON_HOLD self.validate_VM_SUBMIT_ON_HOLDType(self.VM_SUBMIT_ON_HOLD) self.VM_SUBMIT_ON_HOLD_nsprefix_ = None if VM_USE_OPERATIONS is None: self.VM_USE_OPERATIONS = [] else: self.VM_USE_OPERATIONS = VM_USE_OPERATIONS self.VM_USE_OPERATIONS_nsprefix_ = None self.VNC_PORTS = VNC_PORTS self.VNC_PORTS_nsprefix_ = None if VNET_ENCRYPTED_ATTR is None: self.VNET_ENCRYPTED_ATTR = [] else: self.VNET_ENCRYPTED_ATTR = VNET_ENCRYPTED_ATTR self.VNET_ENCRYPTED_ATTR_nsprefix_ = None if VNET_RESTRICTED_ATTR is None: self.VNET_RESTRICTED_ATTR = [] else: self.VNET_RESTRICTED_ATTR = VNET_RESTRICTED_ATTR self.VNET_RESTRICTED_ATTR_nsprefix_ = None if VN_MAD_CONF is None: self.VN_MAD_CONF = [] else: self.VN_MAD_CONF = VN_MAD_CONF self.VN_MAD_CONF_nsprefix_ = None self.VXLAN_IDS = VXLAN_IDS self.VXLAN_IDS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, OPENNEBULA_CONFIGURATION) if subclass is not None: return subclass(*args_, **kwargs_) if OPENNEBULA_CONFIGURATION.subclass: return OPENNEBULA_CONFIGURATION.subclass(*args_, **kwargs_) else: return OPENNEBULA_CONFIGURATION(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_API_LIST_ORDER(self): return self.API_LIST_ORDER def set_API_LIST_ORDER(self, API_LIST_ORDER): self.API_LIST_ORDER = API_LIST_ORDER def add_API_LIST_ORDER(self, value): self.API_LIST_ORDER.append(value) def insert_API_LIST_ORDER_at(self, index, value): self.API_LIST_ORDER.insert(index, value) def replace_API_LIST_ORDER_at(self, index, value): self.API_LIST_ORDER[index] = value def get_AUTH_MAD(self): return self.AUTH_MAD def set_AUTH_MAD(self, AUTH_MAD): self.AUTH_MAD = AUTH_MAD def add_AUTH_MAD(self, value): self.AUTH_MAD.append(value) def insert_AUTH_MAD_at(self, index, value): self.AUTH_MAD.insert(index, value) def replace_AUTH_MAD_at(self, index, value): self.AUTH_MAD[index] = value def get_AUTH_MAD_CONF(self): return self.AUTH_MAD_CONF def set_AUTH_MAD_CONF(self, AUTH_MAD_CONF): self.AUTH_MAD_CONF = AUTH_MAD_CONF def add_AUTH_MAD_CONF(self, value): self.AUTH_MAD_CONF.append(value) def insert_AUTH_MAD_CONF_at(self, index, value): self.AUTH_MAD_CONF.insert(index, value) def replace_AUTH_MAD_CONF_at(self, index, value): self.AUTH_MAD_CONF[index] = value def get_CLUSTER_ENCRYPTED_ATTR(self): return self.CLUSTER_ENCRYPTED_ATTR def set_CLUSTER_ENCRYPTED_ATTR(self, CLUSTER_ENCRYPTED_ATTR): self.CLUSTER_ENCRYPTED_ATTR = CLUSTER_ENCRYPTED_ATTR def add_CLUSTER_ENCRYPTED_ATTR(self, value): self.CLUSTER_ENCRYPTED_ATTR.append(value) def insert_CLUSTER_ENCRYPTED_ATTR_at(self, index, value): self.CLUSTER_ENCRYPTED_ATTR.insert(index, value) def replace_CLUSTER_ENCRYPTED_ATTR_at(self, index, value): self.CLUSTER_ENCRYPTED_ATTR[index] = value def get_CONTEXT_RESTRICTED_DIRS(self): return self.CONTEXT_RESTRICTED_DIRS def set_CONTEXT_RESTRICTED_DIRS(self, CONTEXT_RESTRICTED_DIRS): self.CONTEXT_RESTRICTED_DIRS = CONTEXT_RESTRICTED_DIRS def get_CONTEXT_SAFE_DIRS(self): return self.CONTEXT_SAFE_DIRS def set_CONTEXT_SAFE_DIRS(self, CONTEXT_SAFE_DIRS): self.CONTEXT_SAFE_DIRS = CONTEXT_SAFE_DIRS def get_DATASTORE_CAPACITY_CHECK(self): return self.DATASTORE_CAPACITY_CHECK def set_DATASTORE_CAPACITY_CHECK(self, DATASTORE_CAPACITY_CHECK): self.DATASTORE_CAPACITY_CHECK = DATASTORE_CAPACITY_CHECK def add_DATASTORE_CAPACITY_CHECK(self, value): self.DATASTORE_CAPACITY_CHECK.append(value) def insert_DATASTORE_CAPACITY_CHECK_at(self, index, value): self.DATASTORE_CAPACITY_CHECK.insert(index, value) def replace_DATASTORE_CAPACITY_CHECK_at(self, index, value): self.DATASTORE_CAPACITY_CHECK[index] = value def get_DATASTORE_ENCRYPTED_ATTR(self): return self.DATASTORE_ENCRYPTED_ATTR def set_DATASTORE_ENCRYPTED_ATTR(self, DATASTORE_ENCRYPTED_ATTR): self.DATASTORE_ENCRYPTED_ATTR = DATASTORE_ENCRYPTED_ATTR def add_DATASTORE_ENCRYPTED_ATTR(self, value): self.DATASTORE_ENCRYPTED_ATTR.append(value) def insert_DATASTORE_ENCRYPTED_ATTR_at(self, index, value): self.DATASTORE_ENCRYPTED_ATTR.insert(index, value) def replace_DATASTORE_ENCRYPTED_ATTR_at(self, index, value): self.DATASTORE_ENCRYPTED_ATTR[index] = value def get_DATASTORE_LOCATION(self): return self.DATASTORE_LOCATION def set_DATASTORE_LOCATION(self, DATASTORE_LOCATION): self.DATASTORE_LOCATION = DATASTORE_LOCATION def add_DATASTORE_LOCATION(self, value): self.DATASTORE_LOCATION.append(value) def insert_DATASTORE_LOCATION_at(self, index, value): self.DATASTORE_LOCATION.insert(index, value) def replace_DATASTORE_LOCATION_at(self, index, value): self.DATASTORE_LOCATION[index] = value def get_DATASTORE_MAD(self): return self.DATASTORE_MAD def set_DATASTORE_MAD(self, DATASTORE_MAD): self.DATASTORE_MAD = DATASTORE_MAD def add_DATASTORE_MAD(self, value): self.DATASTORE_MAD.append(value) def insert_DATASTORE_MAD_at(self, index, value): self.DATASTORE_MAD.insert(index, value) def replace_DATASTORE_MAD_at(self, index, value): self.DATASTORE_MAD[index] = value def get_DB(self): return self.DB def set_DB(self, DB): self.DB = DB def get_DEFAULT_AUTH(self): return self.DEFAULT_AUTH def set_DEFAULT_AUTH(self, DEFAULT_AUTH): self.DEFAULT_AUTH = DEFAULT_AUTH def add_DEFAULT_AUTH(self, value): self.DEFAULT_AUTH.append(value) def insert_DEFAULT_AUTH_at(self, index, value): self.DEFAULT_AUTH.insert(index, value) def replace_DEFAULT_AUTH_at(self, index, value): self.DEFAULT_AUTH[index] = value def get_DEFAULT_CDROM_DEVICE_PREFIX(self): return self.DEFAULT_CDROM_DEVICE_PREFIX def set_DEFAULT_CDROM_DEVICE_PREFIX(self, DEFAULT_CDROM_DEVICE_PREFIX): self.DEFAULT_CDROM_DEVICE_PREFIX = DEFAULT_CDROM_DEVICE_PREFIX def add_DEFAULT_CDROM_DEVICE_PREFIX(self, value): self.DEFAULT_CDROM_DEVICE_PREFIX.append(value) def insert_DEFAULT_CDROM_DEVICE_PREFIX_at(self, index, value): self.DEFAULT_CDROM_DEVICE_PREFIX.insert(index, value) def replace_DEFAULT_CDROM_DEVICE_PREFIX_at(self, index, value): self.DEFAULT_CDROM_DEVICE_PREFIX[index] = value def get_DEFAULT_COST(self): return self.DEFAULT_COST def set_DEFAULT_COST(self, DEFAULT_COST): self.DEFAULT_COST = DEFAULT_COST def add_DEFAULT_COST(self, value): self.DEFAULT_COST.append(value) def insert_DEFAULT_COST_at(self, index, value): self.DEFAULT_COST.insert(index, value) def replace_DEFAULT_COST_at(self, index, value): self.DEFAULT_COST[index] = value def get_DEFAULT_DEVICE_PREFIX(self): return self.DEFAULT_DEVICE_PREFIX def set_DEFAULT_DEVICE_PREFIX(self, DEFAULT_DEVICE_PREFIX): self.DEFAULT_DEVICE_PREFIX = DEFAULT_DEVICE_PREFIX def add_DEFAULT_DEVICE_PREFIX(self, value): self.DEFAULT_DEVICE_PREFIX.append(value) def insert_DEFAULT_DEVICE_PREFIX_at(self, index, value): self.DEFAULT_DEVICE_PREFIX.insert(index, value) def replace_DEFAULT_DEVICE_PREFIX_at(self, index, value): self.DEFAULT_DEVICE_PREFIX[index] = value def get_DEFAULT_IMAGE_PERSISTENT(self): return self.DEFAULT_IMAGE_PERSISTENT def set_DEFAULT_IMAGE_PERSISTENT(self, DEFAULT_IMAGE_PERSISTENT): self.DEFAULT_IMAGE_PERSISTENT = DEFAULT_IMAGE_PERSISTENT def add_DEFAULT_IMAGE_PERSISTENT(self, value): self.DEFAULT_IMAGE_PERSISTENT.append(value) def insert_DEFAULT_IMAGE_PERSISTENT_at(self, index, value): self.DEFAULT_IMAGE_PERSISTENT.insert(index, value) def replace_DEFAULT_IMAGE_PERSISTENT_at(self, index, value): self.DEFAULT_IMAGE_PERSISTENT[index] = value def get_DEFAULT_IMAGE_PERSISTENT_NEW(self): return self.DEFAULT_IMAGE_PERSISTENT_NEW def set_DEFAULT_IMAGE_PERSISTENT_NEW(self, DEFAULT_IMAGE_PERSISTENT_NEW): self.DEFAULT_IMAGE_PERSISTENT_NEW = DEFAULT_IMAGE_PERSISTENT_NEW def add_DEFAULT_IMAGE_PERSISTENT_NEW(self, value): self.DEFAULT_IMAGE_PERSISTENT_NEW.append(value) def insert_DEFAULT_IMAGE_PERSISTENT_NEW_at(self, index, value): self.DEFAULT_IMAGE_PERSISTENT_NEW.insert(index, value) def replace_DEFAULT_IMAGE_PERSISTENT_NEW_at(self, index, value): self.DEFAULT_IMAGE_PERSISTENT_NEW[index] = value def get_DEFAULT_IMAGE_TYPE(self): return self.DEFAULT_IMAGE_TYPE def set_DEFAULT_IMAGE_TYPE(self, DEFAULT_IMAGE_TYPE): self.DEFAULT_IMAGE_TYPE = DEFAULT_IMAGE_TYPE def add_DEFAULT_IMAGE_TYPE(self, value): self.DEFAULT_IMAGE_TYPE.append(value) def insert_DEFAULT_IMAGE_TYPE_at(self, index, value): self.DEFAULT_IMAGE_TYPE.insert(index, value) def replace_DEFAULT_IMAGE_TYPE_at(self, index, value): self.DEFAULT_IMAGE_TYPE[index] = value def get_DEFAULT_UMASK(self): return self.DEFAULT_UMASK def set_DEFAULT_UMASK(self, DEFAULT_UMASK): self.DEFAULT_UMASK = DEFAULT_UMASK def add_DEFAULT_UMASK(self, value): self.DEFAULT_UMASK.append(value) def insert_DEFAULT_UMASK_at(self, index, value): self.DEFAULT_UMASK.insert(index, value) def replace_DEFAULT_UMASK_at(self, index, value): self.DEFAULT_UMASK[index] = value def get_DEFAULT_VDC_CLUSTER_DATASTORE_ACL(self): return self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL def set_DEFAULT_VDC_CLUSTER_DATASTORE_ACL(self, DEFAULT_VDC_CLUSTER_DATASTORE_ACL): self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL = DEFAULT_VDC_CLUSTER_DATASTORE_ACL def add_DEFAULT_VDC_CLUSTER_DATASTORE_ACL(self, value): self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL.append(value) def insert_DEFAULT_VDC_CLUSTER_DATASTORE_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL.insert(index, value) def replace_DEFAULT_VDC_CLUSTER_DATASTORE_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL[index] = value def get_DEFAULT_VDC_CLUSTER_HOST_ACL(self): return self.DEFAULT_VDC_CLUSTER_HOST_ACL def set_DEFAULT_VDC_CLUSTER_HOST_ACL(self, DEFAULT_VDC_CLUSTER_HOST_ACL): self.DEFAULT_VDC_CLUSTER_HOST_ACL = DEFAULT_VDC_CLUSTER_HOST_ACL def add_DEFAULT_VDC_CLUSTER_HOST_ACL(self, value): self.DEFAULT_VDC_CLUSTER_HOST_ACL.append(value) def insert_DEFAULT_VDC_CLUSTER_HOST_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_HOST_ACL.insert(index, value) def replace_DEFAULT_VDC_CLUSTER_HOST_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_HOST_ACL[index] = value def get_DEFAULT_VDC_CLUSTER_NET_ACL(self): return self.DEFAULT_VDC_CLUSTER_NET_ACL def set_DEFAULT_VDC_CLUSTER_NET_ACL(self, DEFAULT_VDC_CLUSTER_NET_ACL): self.DEFAULT_VDC_CLUSTER_NET_ACL = DEFAULT_VDC_CLUSTER_NET_ACL def add_DEFAULT_VDC_CLUSTER_NET_ACL(self, value): self.DEFAULT_VDC_CLUSTER_NET_ACL.append(value) def insert_DEFAULT_VDC_CLUSTER_NET_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_NET_ACL.insert(index, value) def replace_DEFAULT_VDC_CLUSTER_NET_ACL_at(self, index, value): self.DEFAULT_VDC_CLUSTER_NET_ACL[index] = value def get_DEFAULT_VDC_DATASTORE_ACL(self): return self.DEFAULT_VDC_DATASTORE_ACL def set_DEFAULT_VDC_DATASTORE_ACL(self, DEFAULT_VDC_DATASTORE_ACL): self.DEFAULT_VDC_DATASTORE_ACL = DEFAULT_VDC_DATASTORE_ACL def add_DEFAULT_VDC_DATASTORE_ACL(self, value): self.DEFAULT_VDC_DATASTORE_ACL.append(value) def insert_DEFAULT_VDC_DATASTORE_ACL_at(self, index, value): self.DEFAULT_VDC_DATASTORE_ACL.insert(index, value) def replace_DEFAULT_VDC_DATASTORE_ACL_at(self, index, value): self.DEFAULT_VDC_DATASTORE_ACL[index] = value def get_DEFAULT_VDC_HOST_ACL(self): return self.DEFAULT_VDC_HOST_ACL def set_DEFAULT_VDC_HOST_ACL(self, DEFAULT_VDC_HOST_ACL): self.DEFAULT_VDC_HOST_ACL = DEFAULT_VDC_HOST_ACL def add_DEFAULT_VDC_HOST_ACL(self, value): self.DEFAULT_VDC_HOST_ACL.append(value) def insert_DEFAULT_VDC_HOST_ACL_at(self, index, value): self.DEFAULT_VDC_HOST_ACL.insert(index, value) def replace_DEFAULT_VDC_HOST_ACL_at(self, index, value): self.DEFAULT_VDC_HOST_ACL[index] = value def get_DEFAULT_VDC_VNET_ACL(self): return self.DEFAULT_VDC_VNET_ACL def set_DEFAULT_VDC_VNET_ACL(self, DEFAULT_VDC_VNET_ACL): self.DEFAULT_VDC_VNET_ACL = DEFAULT_VDC_VNET_ACL def add_DEFAULT_VDC_VNET_ACL(self, value): self.DEFAULT_VDC_VNET_ACL.append(value) def insert_DEFAULT_VDC_VNET_ACL_at(self, index, value): self.DEFAULT_VDC_VNET_ACL.insert(index, value) def replace_DEFAULT_VDC_VNET_ACL_at(self, index, value): self.DEFAULT_VDC_VNET_ACL[index] = value def get_DOCUMENT_ENCRYPTED_ATTR(self): return self.DOCUMENT_ENCRYPTED_ATTR def set_DOCUMENT_ENCRYPTED_ATTR(self, DOCUMENT_ENCRYPTED_ATTR): self.DOCUMENT_ENCRYPTED_ATTR = DOCUMENT_ENCRYPTED_ATTR def add_DOCUMENT_ENCRYPTED_ATTR(self, value): self.DOCUMENT_ENCRYPTED_ATTR.append(value) def insert_DOCUMENT_ENCRYPTED_ATTR_at(self, index, value): self.DOCUMENT_ENCRYPTED_ATTR.insert(index, value) def replace_DOCUMENT_ENCRYPTED_ATTR_at(self, index, value): self.DOCUMENT_ENCRYPTED_ATTR[index] = value def get_DS_MAD_CONF(self): return self.DS_MAD_CONF def set_DS_MAD_CONF(self, DS_MAD_CONF): self.DS_MAD_CONF = DS_MAD_CONF def add_DS_MAD_CONF(self, value): self.DS_MAD_CONF.append(value) def insert_DS_MAD_CONF_at(self, index, value): self.DS_MAD_CONF.insert(index, value) def replace_DS_MAD_CONF_at(self, index, value): self.DS_MAD_CONF[index] = value def get_DS_MONITOR_VM_DISK(self): return self.DS_MONITOR_VM_DISK def set_DS_MONITOR_VM_DISK(self, DS_MONITOR_VM_DISK): self.DS_MONITOR_VM_DISK = DS_MONITOR_VM_DISK def get_ENABLE_OTHER_PERMISSIONS(self): return self.ENABLE_OTHER_PERMISSIONS def set_ENABLE_OTHER_PERMISSIONS(self, ENABLE_OTHER_PERMISSIONS): self.ENABLE_OTHER_PERMISSIONS = ENABLE_OTHER_PERMISSIONS def get_FEDERATION(self): return self.FEDERATION def set_FEDERATION(self, FEDERATION): self.FEDERATION = FEDERATION def get_GROUP_RESTRICTED_ATTR(self): return self.GROUP_RESTRICTED_ATTR def set_GROUP_RESTRICTED_ATTR(self, GROUP_RESTRICTED_ATTR): self.GROUP_RESTRICTED_ATTR = GROUP_RESTRICTED_ATTR def add_GROUP_RESTRICTED_ATTR(self, value): self.GROUP_RESTRICTED_ATTR.append(value) def insert_GROUP_RESTRICTED_ATTR_at(self, index, value): self.GROUP_RESTRICTED_ATTR.insert(index, value) def replace_GROUP_RESTRICTED_ATTR_at(self, index, value): self.GROUP_RESTRICTED_ATTR[index] = value def get_HM_MAD(self): return self.HM_MAD def set_HM_MAD(self, HM_MAD): self.HM_MAD = HM_MAD def get_HOOK_LOG_CONF(self): return self.HOOK_LOG_CONF def set_HOOK_LOG_CONF(self, HOOK_LOG_CONF): self.HOOK_LOG_CONF = HOOK_LOG_CONF def get_HOST_ENCRYPTED_ATTR(self): return self.HOST_ENCRYPTED_ATTR def set_HOST_ENCRYPTED_ATTR(self, HOST_ENCRYPTED_ATTR): self.HOST_ENCRYPTED_ATTR = HOST_ENCRYPTED_ATTR def add_HOST_ENCRYPTED_ATTR(self, value): self.HOST_ENCRYPTED_ATTR.append(value) def insert_HOST_ENCRYPTED_ATTR_at(self, index, value): self.HOST_ENCRYPTED_ATTR.insert(index, value) def replace_HOST_ENCRYPTED_ATTR_at(self, index, value): self.HOST_ENCRYPTED_ATTR[index] = value def get_IMAGE_ENCRYPTED_ATTR(self): return self.IMAGE_ENCRYPTED_ATTR def set_IMAGE_ENCRYPTED_ATTR(self, IMAGE_ENCRYPTED_ATTR): self.IMAGE_ENCRYPTED_ATTR = IMAGE_ENCRYPTED_ATTR def add_IMAGE_ENCRYPTED_ATTR(self, value): self.IMAGE_ENCRYPTED_ATTR.append(value) def insert_IMAGE_ENCRYPTED_ATTR_at(self, index, value): self.IMAGE_ENCRYPTED_ATTR.insert(index, value) def replace_IMAGE_ENCRYPTED_ATTR_at(self, index, value): self.IMAGE_ENCRYPTED_ATTR[index] = value def get_IMAGE_RESTRICTED_ATTR(self): return self.IMAGE_RESTRICTED_ATTR def set_IMAGE_RESTRICTED_ATTR(self, IMAGE_RESTRICTED_ATTR): self.IMAGE_RESTRICTED_ATTR = IMAGE_RESTRICTED_ATTR def add_IMAGE_RESTRICTED_ATTR(self, value): self.IMAGE_RESTRICTED_ATTR.append(value) def insert_IMAGE_RESTRICTED_ATTR_at(self, index, value): self.IMAGE_RESTRICTED_ATTR.insert(index, value) def replace_IMAGE_RESTRICTED_ATTR_at(self, index, value): self.IMAGE_RESTRICTED_ATTR[index] = value def get_IM_MAD(self): return self.IM_MAD def set_IM_MAD(self, IM_MAD): self.IM_MAD = IM_MAD def add_IM_MAD(self, value): self.IM_MAD.append(value) def insert_IM_MAD_at(self, index, value): self.IM_MAD.insert(index, value) def replace_IM_MAD_at(self, index, value): self.IM_MAD[index] = value def get_INHERIT_DATASTORE_ATTR(self): return self.INHERIT_DATASTORE_ATTR def set_INHERIT_DATASTORE_ATTR(self, INHERIT_DATASTORE_ATTR): self.INHERIT_DATASTORE_ATTR = INHERIT_DATASTORE_ATTR def add_INHERIT_DATASTORE_ATTR(self, value): self.INHERIT_DATASTORE_ATTR.append(value) def insert_INHERIT_DATASTORE_ATTR_at(self, index, value): self.INHERIT_DATASTORE_ATTR.insert(index, value) def replace_INHERIT_DATASTORE_ATTR_at(self, index, value): self.INHERIT_DATASTORE_ATTR[index] = value def get_INHERIT_IMAGE_ATTR(self): return self.INHERIT_IMAGE_ATTR def set_INHERIT_IMAGE_ATTR(self, INHERIT_IMAGE_ATTR): self.INHERIT_IMAGE_ATTR = INHERIT_IMAGE_ATTR def add_INHERIT_IMAGE_ATTR(self, value): self.INHERIT_IMAGE_ATTR.append(value) def insert_INHERIT_IMAGE_ATTR_at(self, index, value): self.INHERIT_IMAGE_ATTR.insert(index, value) def replace_INHERIT_IMAGE_ATTR_at(self, index, value): self.INHERIT_IMAGE_ATTR[index] = value def get_INHERIT_VNET_ATTR(self): return self.INHERIT_VNET_ATTR def set_INHERIT_VNET_ATTR(self, INHERIT_VNET_ATTR): self.INHERIT_VNET_ATTR = INHERIT_VNET_ATTR def add_INHERIT_VNET_ATTR(self, value): self.INHERIT_VNET_ATTR.append(value) def insert_INHERIT_VNET_ATTR_at(self, index, value): self.INHERIT_VNET_ATTR.insert(index, value) def replace_INHERIT_VNET_ATTR_at(self, index, value): self.INHERIT_VNET_ATTR[index] = value def get_IPAM_MAD(self): return self.IPAM_MAD def set_IPAM_MAD(self, IPAM_MAD): self.IPAM_MAD = IPAM_MAD def add_IPAM_MAD(self, value): self.IPAM_MAD.append(value) def insert_IPAM_MAD_at(self, index, value): self.IPAM_MAD.insert(index, value) def replace_IPAM_MAD_at(self, index, value): self.IPAM_MAD[index] = value def get_KEEPALIVE_MAX_CONN(self): return self.KEEPALIVE_MAX_CONN def set_KEEPALIVE_MAX_CONN(self, KEEPALIVE_MAX_CONN): self.KEEPALIVE_MAX_CONN = KEEPALIVE_MAX_CONN def add_KEEPALIVE_MAX_CONN(self, value): self.KEEPALIVE_MAX_CONN.append(value) def insert_KEEPALIVE_MAX_CONN_at(self, index, value): self.KEEPALIVE_MAX_CONN.insert(index, value) def replace_KEEPALIVE_MAX_CONN_at(self, index, value): self.KEEPALIVE_MAX_CONN[index] = value def get_KEEPALIVE_TIMEOUT(self): return self.KEEPALIVE_TIMEOUT def set_KEEPALIVE_TIMEOUT(self, KEEPALIVE_TIMEOUT): self.KEEPALIVE_TIMEOUT = KEEPALIVE_TIMEOUT def add_KEEPALIVE_TIMEOUT(self, value): self.KEEPALIVE_TIMEOUT.append(value) def insert_KEEPALIVE_TIMEOUT_at(self, index, value): self.KEEPALIVE_TIMEOUT.insert(index, value) def replace_KEEPALIVE_TIMEOUT_at(self, index, value): self.KEEPALIVE_TIMEOUT[index] = value def get_LISTEN_ADDRESS(self): return self.LISTEN_ADDRESS def set_LISTEN_ADDRESS(self, LISTEN_ADDRESS): self.LISTEN_ADDRESS = LISTEN_ADDRESS def add_LISTEN_ADDRESS(self, value): self.LISTEN_ADDRESS.append(value) def insert_LISTEN_ADDRESS_at(self, index, value): self.LISTEN_ADDRESS.insert(index, value) def replace_LISTEN_ADDRESS_at(self, index, value): self.LISTEN_ADDRESS[index] = value def get_LOG(self): return self.LOG def set_LOG(self, LOG): self.LOG = LOG def add_LOG(self, value): self.LOG.append(value) def insert_LOG_at(self, index, value): self.LOG.insert(index, value) def replace_LOG_at(self, index, value): self.LOG[index] = value def get_LOG_CALL_FORMAT(self): return self.LOG_CALL_FORMAT def set_LOG_CALL_FORMAT(self, LOG_CALL_FORMAT): self.LOG_CALL_FORMAT = LOG_CALL_FORMAT def add_LOG_CALL_FORMAT(self, value): self.LOG_CALL_FORMAT.append(value) def insert_LOG_CALL_FORMAT_at(self, index, value): self.LOG_CALL_FORMAT.insert(index, value) def replace_LOG_CALL_FORMAT_at(self, index, value): self.LOG_CALL_FORMAT[index] = value def get_MAC_PREFIX(self): return self.MAC_PREFIX def set_MAC_PREFIX(self, MAC_PREFIX): self.MAC_PREFIX = MAC_PREFIX def add_MAC_PREFIX(self, value): self.MAC_PREFIX.append(value) def insert_MAC_PREFIX_at(self, index, value): self.MAC_PREFIX.insert(index, value) def replace_MAC_PREFIX_at(self, index, value): self.MAC_PREFIX[index] = value def get_MANAGER_TIMER(self): return self.MANAGER_TIMER def set_MANAGER_TIMER(self, MANAGER_TIMER): self.MANAGER_TIMER = MANAGER_TIMER def add_MANAGER_TIMER(self, value): self.MANAGER_TIMER.append(value) def insert_MANAGER_TIMER_at(self, index, value): self.MANAGER_TIMER.insert(index, value) def replace_MANAGER_TIMER_at(self, index, value): self.MANAGER_TIMER[index] = value def get_MARKET_MAD(self): return self.MARKET_MAD def set_MARKET_MAD(self, MARKET_MAD): self.MARKET_MAD = MARKET_MAD def add_MARKET_MAD(self, value): self.MARKET_MAD.append(value) def insert_MARKET_MAD_at(self, index, value): self.MARKET_MAD.insert(index, value) def replace_MARKET_MAD_at(self, index, value): self.MARKET_MAD[index] = value def get_MARKET_MAD_CONF(self): return self.MARKET_MAD_CONF def set_MARKET_MAD_CONF(self, MARKET_MAD_CONF): self.MARKET_MAD_CONF = MARKET_MAD_CONF def add_MARKET_MAD_CONF(self, value): self.MARKET_MAD_CONF.append(value) def insert_MARKET_MAD_CONF_at(self, index, value): self.MARKET_MAD_CONF.insert(index, value) def replace_MARKET_MAD_CONF_at(self, index, value): self.MARKET_MAD_CONF[index] = value def get_MAX_BACKUPS(self): return self.MAX_BACKUPS def set_MAX_BACKUPS(self, MAX_BACKUPS): self.MAX_BACKUPS = MAX_BACKUPS def get_MAX_BACKUPS_HOST(self): return self.MAX_BACKUPS_HOST def set_MAX_BACKUPS_HOST(self, MAX_BACKUPS_HOST): self.MAX_BACKUPS_HOST = MAX_BACKUPS_HOST def get_MAX_CONN(self): return self.MAX_CONN def set_MAX_CONN(self, MAX_CONN): self.MAX_CONN = MAX_CONN def get_MAX_CONN_BACKLOG(self): return self.MAX_CONN_BACKLOG def set_MAX_CONN_BACKLOG(self, MAX_CONN_BACKLOG): self.MAX_CONN_BACKLOG = MAX_CONN_BACKLOG def get_MESSAGE_SIZE(self): return self.MESSAGE_SIZE def set_MESSAGE_SIZE(self, MESSAGE_SIZE): self.MESSAGE_SIZE = MESSAGE_SIZE def get_MONITORING_INTERVAL_DATASTORE(self): return self.MONITORING_INTERVAL_DATASTORE def set_MONITORING_INTERVAL_DATASTORE(self, MONITORING_INTERVAL_DATASTORE): self.MONITORING_INTERVAL_DATASTORE = MONITORING_INTERVAL_DATASTORE def get_MONITORING_INTERVAL_DB_UPDATE(self): return self.MONITORING_INTERVAL_DB_UPDATE def set_MONITORING_INTERVAL_DB_UPDATE(self, MONITORING_INTERVAL_DB_UPDATE): self.MONITORING_INTERVAL_DB_UPDATE = MONITORING_INTERVAL_DB_UPDATE def get_MONITORING_INTERVAL_HOST(self): return self.MONITORING_INTERVAL_HOST def set_MONITORING_INTERVAL_HOST(self, MONITORING_INTERVAL_HOST): self.MONITORING_INTERVAL_HOST = MONITORING_INTERVAL_HOST def get_MONITORING_INTERVAL_MARKET(self): return self.MONITORING_INTERVAL_MARKET def set_MONITORING_INTERVAL_MARKET(self, MONITORING_INTERVAL_MARKET): self.MONITORING_INTERVAL_MARKET = MONITORING_INTERVAL_MARKET def get_MONITORING_INTERVAL_VM(self): return self.MONITORING_INTERVAL_VM def set_MONITORING_INTERVAL_VM(self, MONITORING_INTERVAL_VM): self.MONITORING_INTERVAL_VM = MONITORING_INTERVAL_VM def get_NETWORK_SIZE(self): return self.NETWORK_SIZE def set_NETWORK_SIZE(self, NETWORK_SIZE): self.NETWORK_SIZE = NETWORK_SIZE def get_ONE_KEY(self): return self.ONE_KEY def set_ONE_KEY(self, ONE_KEY): self.ONE_KEY = ONE_KEY def add_ONE_KEY(self, value): self.ONE_KEY.append(value) def insert_ONE_KEY_at(self, index, value): self.ONE_KEY.insert(index, value) def replace_ONE_KEY_at(self, index, value): self.ONE_KEY[index] = value def get_PCI_PASSTHROUGH_BUS(self): return self.PCI_PASSTHROUGH_BUS def set_PCI_PASSTHROUGH_BUS(self, PCI_PASSTHROUGH_BUS): self.PCI_PASSTHROUGH_BUS = PCI_PASSTHROUGH_BUS def get_PORT(self): return self.PORT def set_PORT(self, PORT): self.PORT = PORT def get_RAFT(self): return self.RAFT def set_RAFT(self, RAFT): self.RAFT = RAFT def get_RPC_LOG(self): return self.RPC_LOG def set_RPC_LOG(self, RPC_LOG): self.RPC_LOG = RPC_LOG def get_SCRIPTS_REMOTE_DIR(self): return self.SCRIPTS_REMOTE_DIR def set_SCRIPTS_REMOTE_DIR(self, SCRIPTS_REMOTE_DIR): self.SCRIPTS_REMOTE_DIR = SCRIPTS_REMOTE_DIR def get_SESSION_EXPIRATION_TIME(self): return self.SESSION_EXPIRATION_TIME def set_SESSION_EXPIRATION_TIME(self, SESSION_EXPIRATION_TIME): self.SESSION_EXPIRATION_TIME = SESSION_EXPIRATION_TIME def get_SHOWBACK_ONLY_RUNNING(self): return self.SHOWBACK_ONLY_RUNNING def set_SHOWBACK_ONLY_RUNNING(self, SHOWBACK_ONLY_RUNNING): self.SHOWBACK_ONLY_RUNNING = SHOWBACK_ONLY_RUNNING def get_TIMEOUT(self): return self.TIMEOUT def set_TIMEOUT(self, TIMEOUT): self.TIMEOUT = TIMEOUT def get_TM_MAD(self): return self.TM_MAD def set_TM_MAD(self, TM_MAD): self.TM_MAD = TM_MAD def add_TM_MAD(self, value): self.TM_MAD.append(value) def insert_TM_MAD_at(self, index, value): self.TM_MAD.insert(index, value) def replace_TM_MAD_at(self, index, value): self.TM_MAD[index] = value def get_TM_MAD_CONF(self): return self.TM_MAD_CONF def set_TM_MAD_CONF(self, TM_MAD_CONF): self.TM_MAD_CONF = TM_MAD_CONF def add_TM_MAD_CONF(self, value): self.TM_MAD_CONF.append(value) def insert_TM_MAD_CONF_at(self, index, value): self.TM_MAD_CONF.insert(index, value) def replace_TM_MAD_CONF_at(self, index, value): self.TM_MAD_CONF[index] = value def get_USER_ENCRYPTED_ATTR(self): return self.USER_ENCRYPTED_ATTR def set_USER_ENCRYPTED_ATTR(self, USER_ENCRYPTED_ATTR): self.USER_ENCRYPTED_ATTR = USER_ENCRYPTED_ATTR def add_USER_ENCRYPTED_ATTR(self, value): self.USER_ENCRYPTED_ATTR.append(value) def insert_USER_ENCRYPTED_ATTR_at(self, index, value): self.USER_ENCRYPTED_ATTR.insert(index, value) def replace_USER_ENCRYPTED_ATTR_at(self, index, value): self.USER_ENCRYPTED_ATTR[index] = value def get_USER_RESTRICTED_ATTR(self): return self.USER_RESTRICTED_ATTR def set_USER_RESTRICTED_ATTR(self, USER_RESTRICTED_ATTR): self.USER_RESTRICTED_ATTR = USER_RESTRICTED_ATTR def add_USER_RESTRICTED_ATTR(self, value): self.USER_RESTRICTED_ATTR.append(value) def insert_USER_RESTRICTED_ATTR_at(self, index, value): self.USER_RESTRICTED_ATTR.insert(index, value) def replace_USER_RESTRICTED_ATTR_at(self, index, value): self.USER_RESTRICTED_ATTR[index] = value def get_VLAN_IDS(self): return self.VLAN_IDS def set_VLAN_IDS(self, VLAN_IDS): self.VLAN_IDS = VLAN_IDS def get_VM_ADMIN_OPERATIONS(self): return self.VM_ADMIN_OPERATIONS def set_VM_ADMIN_OPERATIONS(self, VM_ADMIN_OPERATIONS): self.VM_ADMIN_OPERATIONS = VM_ADMIN_OPERATIONS def get_VM_ENCRYPTED_ATTR(self): return self.VM_ENCRYPTED_ATTR def set_VM_ENCRYPTED_ATTR(self, VM_ENCRYPTED_ATTR): self.VM_ENCRYPTED_ATTR = VM_ENCRYPTED_ATTR def add_VM_ENCRYPTED_ATTR(self, value): self.VM_ENCRYPTED_ATTR.append(value) def insert_VM_ENCRYPTED_ATTR_at(self, index, value): self.VM_ENCRYPTED_ATTR.insert(index, value) def replace_VM_ENCRYPTED_ATTR_at(self, index, value): self.VM_ENCRYPTED_ATTR[index] = value def get_VM_MAD(self): return self.VM_MAD def set_VM_MAD(self, VM_MAD): self.VM_MAD = VM_MAD def add_VM_MAD(self, value): self.VM_MAD.append(value) def insert_VM_MAD_at(self, index, value): self.VM_MAD.insert(index, value) def replace_VM_MAD_at(self, index, value): self.VM_MAD[index] = value def get_VM_MANAGE_OPERATIONS(self): return self.VM_MANAGE_OPERATIONS def set_VM_MANAGE_OPERATIONS(self, VM_MANAGE_OPERATIONS): self.VM_MANAGE_OPERATIONS = VM_MANAGE_OPERATIONS def get_VM_MONITORING_EXPIRATION_TIME(self): return self.VM_MONITORING_EXPIRATION_TIME def set_VM_MONITORING_EXPIRATION_TIME(self, VM_MONITORING_EXPIRATION_TIME): self.VM_MONITORING_EXPIRATION_TIME = VM_MONITORING_EXPIRATION_TIME def add_VM_MONITORING_EXPIRATION_TIME(self, value): self.VM_MONITORING_EXPIRATION_TIME.append(value) def insert_VM_MONITORING_EXPIRATION_TIME_at(self, index, value): self.VM_MONITORING_EXPIRATION_TIME.insert(index, value) def replace_VM_MONITORING_EXPIRATION_TIME_at(self, index, value): self.VM_MONITORING_EXPIRATION_TIME[index] = value def get_VM_RESTRICTED_ATTR(self): return self.VM_RESTRICTED_ATTR def set_VM_RESTRICTED_ATTR(self, VM_RESTRICTED_ATTR): self.VM_RESTRICTED_ATTR = VM_RESTRICTED_ATTR def add_VM_RESTRICTED_ATTR(self, value): self.VM_RESTRICTED_ATTR.append(value) def insert_VM_RESTRICTED_ATTR_at(self, index, value): self.VM_RESTRICTED_ATTR.insert(index, value) def replace_VM_RESTRICTED_ATTR_at(self, index, value): self.VM_RESTRICTED_ATTR[index] = value def get_VM_SNAPSHOT_FACTOR(self): return self.VM_SNAPSHOT_FACTOR def set_VM_SNAPSHOT_FACTOR(self, VM_SNAPSHOT_FACTOR): self.VM_SNAPSHOT_FACTOR = VM_SNAPSHOT_FACTOR def get_VM_SUBMIT_ON_HOLD(self): return self.VM_SUBMIT_ON_HOLD def set_VM_SUBMIT_ON_HOLD(self, VM_SUBMIT_ON_HOLD): self.VM_SUBMIT_ON_HOLD = VM_SUBMIT_ON_HOLD def get_VM_USE_OPERATIONS(self): return self.VM_USE_OPERATIONS def set_VM_USE_OPERATIONS(self, VM_USE_OPERATIONS): self.VM_USE_OPERATIONS = VM_USE_OPERATIONS def add_VM_USE_OPERATIONS(self, value): self.VM_USE_OPERATIONS.append(value) def insert_VM_USE_OPERATIONS_at(self, index, value): self.VM_USE_OPERATIONS.insert(index, value) def replace_VM_USE_OPERATIONS_at(self, index, value): self.VM_USE_OPERATIONS[index] = value def get_VNC_PORTS(self): return self.VNC_PORTS def set_VNC_PORTS(self, VNC_PORTS): self.VNC_PORTS = VNC_PORTS def get_VNET_ENCRYPTED_ATTR(self): return self.VNET_ENCRYPTED_ATTR def set_VNET_ENCRYPTED_ATTR(self, VNET_ENCRYPTED_ATTR): self.VNET_ENCRYPTED_ATTR = VNET_ENCRYPTED_ATTR def add_VNET_ENCRYPTED_ATTR(self, value): self.VNET_ENCRYPTED_ATTR.append(value) def insert_VNET_ENCRYPTED_ATTR_at(self, index, value): self.VNET_ENCRYPTED_ATTR.insert(index, value) def replace_VNET_ENCRYPTED_ATTR_at(self, index, value): self.VNET_ENCRYPTED_ATTR[index] = value def get_VNET_RESTRICTED_ATTR(self): return self.VNET_RESTRICTED_ATTR def set_VNET_RESTRICTED_ATTR(self, VNET_RESTRICTED_ATTR): self.VNET_RESTRICTED_ATTR = VNET_RESTRICTED_ATTR def add_VNET_RESTRICTED_ATTR(self, value): self.VNET_RESTRICTED_ATTR.append(value) def insert_VNET_RESTRICTED_ATTR_at(self, index, value): self.VNET_RESTRICTED_ATTR.insert(index, value) def replace_VNET_RESTRICTED_ATTR_at(self, index, value): self.VNET_RESTRICTED_ATTR[index] = value def get_VN_MAD_CONF(self): return self.VN_MAD_CONF def set_VN_MAD_CONF(self, VN_MAD_CONF): self.VN_MAD_CONF = VN_MAD_CONF def add_VN_MAD_CONF(self, value): self.VN_MAD_CONF.append(value) def insert_VN_MAD_CONF_at(self, index, value): self.VN_MAD_CONF.insert(index, value) def replace_VN_MAD_CONF_at(self, index, value): self.VN_MAD_CONF[index] = value def get_VXLAN_IDS(self): return self.VXLAN_IDS def set_VXLAN_IDS(self, VXLAN_IDS): self.VXLAN_IDS = VXLAN_IDS def validate_ENABLE_OTHER_PERMISSIONSType(self, value): result = True # Validate type ENABLE_OTHER_PERMISSIONSType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_ENABLE_OTHER_PERMISSIONSType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_ENABLE_OTHER_PERMISSIONSType_patterns_, )) result = False return result validate_ENABLE_OTHER_PERMISSIONSType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def validate_VM_SUBMIT_ON_HOLDType(self, value): result = True # Validate type VM_SUBMIT_ON_HOLDType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_VM_SUBMIT_ON_HOLDType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_VM_SUBMIT_ON_HOLDType_patterns_, )) result = False return result validate_VM_SUBMIT_ON_HOLDType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def has__content(self): if ( self.API_LIST_ORDER or self.AUTH_MAD or self.AUTH_MAD_CONF or self.CLUSTER_ENCRYPTED_ATTR or self.CONTEXT_RESTRICTED_DIRS is not None or self.CONTEXT_SAFE_DIRS is not None or self.DATASTORE_CAPACITY_CHECK or self.DATASTORE_ENCRYPTED_ATTR or self.DATASTORE_LOCATION or self.DATASTORE_MAD or self.DB is not None or self.DEFAULT_AUTH or self.DEFAULT_CDROM_DEVICE_PREFIX or self.DEFAULT_COST or self.DEFAULT_DEVICE_PREFIX or self.DEFAULT_IMAGE_PERSISTENT or self.DEFAULT_IMAGE_PERSISTENT_NEW or self.DEFAULT_IMAGE_TYPE or self.DEFAULT_UMASK or self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL or self.DEFAULT_VDC_CLUSTER_HOST_ACL or self.DEFAULT_VDC_CLUSTER_NET_ACL or self.DEFAULT_VDC_DATASTORE_ACL or self.DEFAULT_VDC_HOST_ACL or self.DEFAULT_VDC_VNET_ACL or self.DOCUMENT_ENCRYPTED_ATTR or self.DS_MAD_CONF or self.DS_MONITOR_VM_DISK is not None or self.ENABLE_OTHER_PERMISSIONS is not None or self.FEDERATION is not None or self.GROUP_RESTRICTED_ATTR or self.HM_MAD is not None or self.HOOK_LOG_CONF is not None or self.HOST_ENCRYPTED_ATTR or self.IMAGE_ENCRYPTED_ATTR or self.IMAGE_RESTRICTED_ATTR or self.IM_MAD or self.INHERIT_DATASTORE_ATTR or self.INHERIT_IMAGE_ATTR or self.INHERIT_VNET_ATTR or self.IPAM_MAD or self.KEEPALIVE_MAX_CONN or self.KEEPALIVE_TIMEOUT or self.LISTEN_ADDRESS or self.LOG or self.LOG_CALL_FORMAT or self.MAC_PREFIX or self.MANAGER_TIMER or self.MARKET_MAD or self.MARKET_MAD_CONF or self.MAX_BACKUPS is not None or self.MAX_BACKUPS_HOST is not None or self.MAX_CONN is not None or self.MAX_CONN_BACKLOG is not None or self.MESSAGE_SIZE is not None or self.MONITORING_INTERVAL_DATASTORE is not None or self.MONITORING_INTERVAL_DB_UPDATE is not None or self.MONITORING_INTERVAL_HOST is not None or self.MONITORING_INTERVAL_MARKET is not None or self.MONITORING_INTERVAL_VM is not None or self.NETWORK_SIZE is not None or self.ONE_KEY or self.PCI_PASSTHROUGH_BUS is not None or self.PORT is not None or self.RAFT is not None or self.RPC_LOG is not None or self.SCRIPTS_REMOTE_DIR is not None or self.SESSION_EXPIRATION_TIME is not None or self.SHOWBACK_ONLY_RUNNING is not None or self.TIMEOUT is not None or self.TM_MAD or self.TM_MAD_CONF or self.USER_ENCRYPTED_ATTR or self.USER_RESTRICTED_ATTR or self.VLAN_IDS is not None or self.VM_ADMIN_OPERATIONS is not None or self.VM_ENCRYPTED_ATTR or self.VM_MAD or self.VM_MANAGE_OPERATIONS is not None or self.VM_MONITORING_EXPIRATION_TIME or self.VM_RESTRICTED_ATTR or self.VM_SNAPSHOT_FACTOR is not None or self.VM_SUBMIT_ON_HOLD is not None or self.VM_USE_OPERATIONS or self.VNC_PORTS is not None or self.VNET_ENCRYPTED_ATTR or self.VNET_RESTRICTED_ATTR or self.VN_MAD_CONF or self.VXLAN_IDS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OPENNEBULA_CONFIGURATION', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('OPENNEBULA_CONFIGURATION') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'OPENNEBULA_CONFIGURATION': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='OPENNEBULA_CONFIGURATION') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='OPENNEBULA_CONFIGURATION', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='OPENNEBULA_CONFIGURATION'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OPENNEBULA_CONFIGURATION', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for API_LIST_ORDER_ in self.API_LIST_ORDER: namespaceprefix_ = self.API_LIST_ORDER_nsprefix_ + ':' if (UseCapturedNS_ and self.API_LIST_ORDER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAPI_LIST_ORDER>%s</%sAPI_LIST_ORDER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(API_LIST_ORDER_), input_name='API_LIST_ORDER')), namespaceprefix_ , eol_)) for AUTH_MAD_ in self.AUTH_MAD: namespaceprefix_ = self.AUTH_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTH_MAD_nsprefix_) else '' AUTH_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AUTH_MAD', pretty_print=pretty_print) for AUTH_MAD_CONF_ in self.AUTH_MAD_CONF: namespaceprefix_ = self.AUTH_MAD_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTH_MAD_CONF_nsprefix_) else '' AUTH_MAD_CONF_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AUTH_MAD_CONF', pretty_print=pretty_print) for CLUSTER_ENCRYPTED_ATTR_ in self.CLUSTER_ENCRYPTED_ATTR: namespaceprefix_ = self.CLUSTER_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLUSTER_ENCRYPTED_ATTR>%s</%sCLUSTER_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(CLUSTER_ENCRYPTED_ATTR_), input_name='CLUSTER_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) if self.CONTEXT_RESTRICTED_DIRS is not None: namespaceprefix_ = self.CONTEXT_RESTRICTED_DIRS_nsprefix_ + ':' if (UseCapturedNS_ and self.CONTEXT_RESTRICTED_DIRS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCONTEXT_RESTRICTED_DIRS>%s</%sCONTEXT_RESTRICTED_DIRS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CONTEXT_RESTRICTED_DIRS), input_name='CONTEXT_RESTRICTED_DIRS')), namespaceprefix_ , eol_)) if self.CONTEXT_SAFE_DIRS is not None: namespaceprefix_ = self.CONTEXT_SAFE_DIRS_nsprefix_ + ':' if (UseCapturedNS_ and self.CONTEXT_SAFE_DIRS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCONTEXT_SAFE_DIRS>%s</%sCONTEXT_SAFE_DIRS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CONTEXT_SAFE_DIRS), input_name='CONTEXT_SAFE_DIRS')), namespaceprefix_ , eol_)) for DATASTORE_CAPACITY_CHECK_ in self.DATASTORE_CAPACITY_CHECK: namespaceprefix_ = self.DATASTORE_CAPACITY_CHECK_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_CAPACITY_CHECK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_CAPACITY_CHECK>%s</%sDATASTORE_CAPACITY_CHECK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DATASTORE_CAPACITY_CHECK_), input_name='DATASTORE_CAPACITY_CHECK')), namespaceprefix_ , eol_)) for DATASTORE_ENCRYPTED_ATTR_ in self.DATASTORE_ENCRYPTED_ATTR: namespaceprefix_ = self.DATASTORE_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_ENCRYPTED_ATTR>%s</%sDATASTORE_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DATASTORE_ENCRYPTED_ATTR_), input_name='DATASTORE_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for DATASTORE_LOCATION_ in self.DATASTORE_LOCATION: namespaceprefix_ = self.DATASTORE_LOCATION_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_LOCATION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_LOCATION>%s</%sDATASTORE_LOCATION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DATASTORE_LOCATION_), input_name='DATASTORE_LOCATION')), namespaceprefix_ , eol_)) for DATASTORE_MAD_ in self.DATASTORE_MAD: namespaceprefix_ = self.DATASTORE_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_MAD_nsprefix_) else '' DATASTORE_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_MAD', pretty_print=pretty_print) if self.DB is not None: namespaceprefix_ = self.DB_nsprefix_ + ':' if (UseCapturedNS_ and self.DB_nsprefix_) else '' self.DB.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DB', pretty_print=pretty_print) for DEFAULT_AUTH_ in self.DEFAULT_AUTH: namespaceprefix_ = self.DEFAULT_AUTH_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_AUTH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_AUTH>%s</%sDEFAULT_AUTH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_AUTH_), input_name='DEFAULT_AUTH')), namespaceprefix_ , eol_)) for DEFAULT_CDROM_DEVICE_PREFIX_ in self.DEFAULT_CDROM_DEVICE_PREFIX: namespaceprefix_ = self.DEFAULT_CDROM_DEVICE_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_CDROM_DEVICE_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_CDROM_DEVICE_PREFIX>%s</%sDEFAULT_CDROM_DEVICE_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_CDROM_DEVICE_PREFIX_), input_name='DEFAULT_CDROM_DEVICE_PREFIX')), namespaceprefix_ , eol_)) for DEFAULT_COST_ in self.DEFAULT_COST: namespaceprefix_ = self.DEFAULT_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_COST_nsprefix_) else '' DEFAULT_COST_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DEFAULT_COST', pretty_print=pretty_print) for DEFAULT_DEVICE_PREFIX_ in self.DEFAULT_DEVICE_PREFIX: namespaceprefix_ = self.DEFAULT_DEVICE_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_DEVICE_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_DEVICE_PREFIX>%s</%sDEFAULT_DEVICE_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_DEVICE_PREFIX_), input_name='DEFAULT_DEVICE_PREFIX')), namespaceprefix_ , eol_)) for DEFAULT_IMAGE_PERSISTENT_ in self.DEFAULT_IMAGE_PERSISTENT: namespaceprefix_ = self.DEFAULT_IMAGE_PERSISTENT_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_IMAGE_PERSISTENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_IMAGE_PERSISTENT>%s</%sDEFAULT_IMAGE_PERSISTENT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_IMAGE_PERSISTENT_), input_name='DEFAULT_IMAGE_PERSISTENT')), namespaceprefix_ , eol_)) for DEFAULT_IMAGE_PERSISTENT_NEW_ in self.DEFAULT_IMAGE_PERSISTENT_NEW: namespaceprefix_ = self.DEFAULT_IMAGE_PERSISTENT_NEW_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_IMAGE_PERSISTENT_NEW_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_IMAGE_PERSISTENT_NEW>%s</%sDEFAULT_IMAGE_PERSISTENT_NEW>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_IMAGE_PERSISTENT_NEW_), input_name='DEFAULT_IMAGE_PERSISTENT_NEW')), namespaceprefix_ , eol_)) for DEFAULT_IMAGE_TYPE_ in self.DEFAULT_IMAGE_TYPE: namespaceprefix_ = self.DEFAULT_IMAGE_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_IMAGE_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_IMAGE_TYPE>%s</%sDEFAULT_IMAGE_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_IMAGE_TYPE_), input_name='DEFAULT_IMAGE_TYPE')), namespaceprefix_ , eol_)) for DEFAULT_UMASK_ in self.DEFAULT_UMASK: namespaceprefix_ = self.DEFAULT_UMASK_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_UMASK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_UMASK>%s</%sDEFAULT_UMASK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_UMASK_), input_name='DEFAULT_UMASK')), namespaceprefix_ , eol_)) for DEFAULT_VDC_CLUSTER_DATASTORE_ACL_ in self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL: namespaceprefix_ = self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_CLUSTER_DATASTORE_ACL>%s</%sDEFAULT_VDC_CLUSTER_DATASTORE_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_CLUSTER_DATASTORE_ACL_), input_name='DEFAULT_VDC_CLUSTER_DATASTORE_ACL')), namespaceprefix_ , eol_)) for DEFAULT_VDC_CLUSTER_HOST_ACL_ in self.DEFAULT_VDC_CLUSTER_HOST_ACL: namespaceprefix_ = self.DEFAULT_VDC_CLUSTER_HOST_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_CLUSTER_HOST_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_CLUSTER_HOST_ACL>%s</%sDEFAULT_VDC_CLUSTER_HOST_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_CLUSTER_HOST_ACL_), input_name='DEFAULT_VDC_CLUSTER_HOST_ACL')), namespaceprefix_ , eol_)) for DEFAULT_VDC_CLUSTER_NET_ACL_ in self.DEFAULT_VDC_CLUSTER_NET_ACL: namespaceprefix_ = self.DEFAULT_VDC_CLUSTER_NET_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_CLUSTER_NET_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_CLUSTER_NET_ACL>%s</%sDEFAULT_VDC_CLUSTER_NET_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_CLUSTER_NET_ACL_), input_name='DEFAULT_VDC_CLUSTER_NET_ACL')), namespaceprefix_ , eol_)) for DEFAULT_VDC_DATASTORE_ACL_ in self.DEFAULT_VDC_DATASTORE_ACL: namespaceprefix_ = self.DEFAULT_VDC_DATASTORE_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_DATASTORE_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_DATASTORE_ACL>%s</%sDEFAULT_VDC_DATASTORE_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_DATASTORE_ACL_), input_name='DEFAULT_VDC_DATASTORE_ACL')), namespaceprefix_ , eol_)) for DEFAULT_VDC_HOST_ACL_ in self.DEFAULT_VDC_HOST_ACL: namespaceprefix_ = self.DEFAULT_VDC_HOST_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_HOST_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_HOST_ACL>%s</%sDEFAULT_VDC_HOST_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_HOST_ACL_), input_name='DEFAULT_VDC_HOST_ACL')), namespaceprefix_ , eol_)) for DEFAULT_VDC_VNET_ACL_ in self.DEFAULT_VDC_VNET_ACL: namespaceprefix_ = self.DEFAULT_VDC_VNET_ACL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_VDC_VNET_ACL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT_VDC_VNET_ACL>%s</%sDEFAULT_VDC_VNET_ACL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DEFAULT_VDC_VNET_ACL_), input_name='DEFAULT_VDC_VNET_ACL')), namespaceprefix_ , eol_)) for DOCUMENT_ENCRYPTED_ATTR_ in self.DOCUMENT_ENCRYPTED_ATTR: namespaceprefix_ = self.DOCUMENT_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.DOCUMENT_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDOCUMENT_ENCRYPTED_ATTR>%s</%sDOCUMENT_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(DOCUMENT_ENCRYPTED_ATTR_), input_name='DOCUMENT_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for DS_MAD_CONF_ in self.DS_MAD_CONF: namespaceprefix_ = self.DS_MAD_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_MAD_CONF_nsprefix_) else '' DS_MAD_CONF_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DS_MAD_CONF', pretty_print=pretty_print) if self.DS_MONITOR_VM_DISK is not None: namespaceprefix_ = self.DS_MONITOR_VM_DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_MONITOR_VM_DISK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_MONITOR_VM_DISK>%s</%sDS_MONITOR_VM_DISK>%s' % (namespaceprefix_ , self.gds_format_integer(self.DS_MONITOR_VM_DISK, input_name='DS_MONITOR_VM_DISK'), namespaceprefix_ , eol_)) if self.ENABLE_OTHER_PERMISSIONS is not None: namespaceprefix_ = self.ENABLE_OTHER_PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.ENABLE_OTHER_PERMISSIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENABLE_OTHER_PERMISSIONS>%s</%sENABLE_OTHER_PERMISSIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ENABLE_OTHER_PERMISSIONS), input_name='ENABLE_OTHER_PERMISSIONS')), namespaceprefix_ , eol_)) if self.FEDERATION is not None: namespaceprefix_ = self.FEDERATION_nsprefix_ + ':' if (UseCapturedNS_ and self.FEDERATION_nsprefix_) else '' self.FEDERATION.export(outfile, level, namespaceprefix_, namespacedef_='', name_='FEDERATION', pretty_print=pretty_print) for GROUP_RESTRICTED_ATTR_ in self.GROUP_RESTRICTED_ATTR: namespaceprefix_ = self.GROUP_RESTRICTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_RESTRICTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_RESTRICTED_ATTR>%s</%sGROUP_RESTRICTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(GROUP_RESTRICTED_ATTR_), input_name='GROUP_RESTRICTED_ATTR')), namespaceprefix_ , eol_)) if self.HM_MAD is not None: namespaceprefix_ = self.HM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.HM_MAD_nsprefix_) else '' self.HM_MAD.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HM_MAD', pretty_print=pretty_print) if self.HOOK_LOG_CONF is not None: namespaceprefix_ = self.HOOK_LOG_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOK_LOG_CONF_nsprefix_) else '' self.HOOK_LOG_CONF.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOOK_LOG_CONF', pretty_print=pretty_print) for HOST_ENCRYPTED_ATTR_ in self.HOST_ENCRYPTED_ATTR: namespaceprefix_ = self.HOST_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOST_ENCRYPTED_ATTR>%s</%sHOST_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(HOST_ENCRYPTED_ATTR_), input_name='HOST_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for IMAGE_ENCRYPTED_ATTR_ in self.IMAGE_ENCRYPTED_ATTR: namespaceprefix_ = self.IMAGE_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGE_ENCRYPTED_ATTR>%s</%sIMAGE_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(IMAGE_ENCRYPTED_ATTR_), input_name='IMAGE_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for IMAGE_RESTRICTED_ATTR_ in self.IMAGE_RESTRICTED_ATTR: namespaceprefix_ = self.IMAGE_RESTRICTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_RESTRICTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGE_RESTRICTED_ATTR>%s</%sIMAGE_RESTRICTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(IMAGE_RESTRICTED_ATTR_), input_name='IMAGE_RESTRICTED_ATTR')), namespaceprefix_ , eol_)) for IM_MAD_ in self.IM_MAD: namespaceprefix_ = self.IM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.IM_MAD_nsprefix_) else '' IM_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IM_MAD', pretty_print=pretty_print) for INHERIT_DATASTORE_ATTR_ in self.INHERIT_DATASTORE_ATTR: namespaceprefix_ = self.INHERIT_DATASTORE_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.INHERIT_DATASTORE_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINHERIT_DATASTORE_ATTR>%s</%sINHERIT_DATASTORE_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(INHERIT_DATASTORE_ATTR_), input_name='INHERIT_DATASTORE_ATTR')), namespaceprefix_ , eol_)) for INHERIT_IMAGE_ATTR_ in self.INHERIT_IMAGE_ATTR: namespaceprefix_ = self.INHERIT_IMAGE_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.INHERIT_IMAGE_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINHERIT_IMAGE_ATTR>%s</%sINHERIT_IMAGE_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(INHERIT_IMAGE_ATTR_), input_name='INHERIT_IMAGE_ATTR')), namespaceprefix_ , eol_)) for INHERIT_VNET_ATTR_ in self.INHERIT_VNET_ATTR: namespaceprefix_ = self.INHERIT_VNET_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.INHERIT_VNET_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINHERIT_VNET_ATTR>%s</%sINHERIT_VNET_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(INHERIT_VNET_ATTR_), input_name='INHERIT_VNET_ATTR')), namespaceprefix_ , eol_)) for IPAM_MAD_ in self.IPAM_MAD: namespaceprefix_ = self.IPAM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.IPAM_MAD_nsprefix_) else '' IPAM_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IPAM_MAD', pretty_print=pretty_print) for KEEPALIVE_MAX_CONN_ in self.KEEPALIVE_MAX_CONN: namespaceprefix_ = self.KEEPALIVE_MAX_CONN_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEPALIVE_MAX_CONN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEPALIVE_MAX_CONN>%s</%sKEEPALIVE_MAX_CONN>%s' % (namespaceprefix_ , self.gds_format_integer(KEEPALIVE_MAX_CONN_, input_name='KEEPALIVE_MAX_CONN'), namespaceprefix_ , eol_)) for KEEPALIVE_TIMEOUT_ in self.KEEPALIVE_TIMEOUT: namespaceprefix_ = self.KEEPALIVE_TIMEOUT_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEPALIVE_TIMEOUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEPALIVE_TIMEOUT>%s</%sKEEPALIVE_TIMEOUT>%s' % (namespaceprefix_ , self.gds_format_integer(KEEPALIVE_TIMEOUT_, input_name='KEEPALIVE_TIMEOUT'), namespaceprefix_ , eol_)) for LISTEN_ADDRESS_ in self.LISTEN_ADDRESS: namespaceprefix_ = self.LISTEN_ADDRESS_nsprefix_ + ':' if (UseCapturedNS_ and self.LISTEN_ADDRESS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLISTEN_ADDRESS>%s</%sLISTEN_ADDRESS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(LISTEN_ADDRESS_), input_name='LISTEN_ADDRESS')), namespaceprefix_ , eol_)) for LOG_ in self.LOG: namespaceprefix_ = self.LOG_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_nsprefix_) else '' LOG_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOG', pretty_print=pretty_print) for LOG_CALL_FORMAT_ in self.LOG_CALL_FORMAT: namespaceprefix_ = self.LOG_CALL_FORMAT_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_CALL_FORMAT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_CALL_FORMAT>%s</%sLOG_CALL_FORMAT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(LOG_CALL_FORMAT_), input_name='LOG_CALL_FORMAT')), namespaceprefix_ , eol_)) for MAC_PREFIX_ in self.MAC_PREFIX: namespaceprefix_ = self.MAC_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.MAC_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAC_PREFIX>%s</%sMAC_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(MAC_PREFIX_), input_name='MAC_PREFIX')), namespaceprefix_ , eol_)) for MANAGER_TIMER_ in self.MANAGER_TIMER: namespaceprefix_ = self.MANAGER_TIMER_nsprefix_ + ':' if (UseCapturedNS_ and self.MANAGER_TIMER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMANAGER_TIMER>%s</%sMANAGER_TIMER>%s' % (namespaceprefix_ , self.gds_format_integer(MANAGER_TIMER_, input_name='MANAGER_TIMER'), namespaceprefix_ , eol_)) for MARKET_MAD_ in self.MARKET_MAD: namespaceprefix_ = self.MARKET_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKET_MAD_nsprefix_) else '' MARKET_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MARKET_MAD', pretty_print=pretty_print) for MARKET_MAD_CONF_ in self.MARKET_MAD_CONF: namespaceprefix_ = self.MARKET_MAD_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKET_MAD_CONF_nsprefix_) else '' MARKET_MAD_CONF_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MARKET_MAD_CONF', pretty_print=pretty_print) if self.MAX_BACKUPS is not None: namespaceprefix_ = self.MAX_BACKUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_BACKUPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_BACKUPS>%s</%sMAX_BACKUPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_BACKUPS, input_name='MAX_BACKUPS'), namespaceprefix_ , eol_)) if self.MAX_BACKUPS_HOST is not None: namespaceprefix_ = self.MAX_BACKUPS_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_BACKUPS_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_BACKUPS_HOST>%s</%sMAX_BACKUPS_HOST>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_BACKUPS_HOST, input_name='MAX_BACKUPS_HOST'), namespaceprefix_ , eol_)) if self.MAX_CONN is not None: namespaceprefix_ = self.MAX_CONN_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_CONN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_CONN>%s</%sMAX_CONN>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_CONN, input_name='MAX_CONN'), namespaceprefix_ , eol_)) if self.MAX_CONN_BACKLOG is not None: namespaceprefix_ = self.MAX_CONN_BACKLOG_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_CONN_BACKLOG_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_CONN_BACKLOG>%s</%sMAX_CONN_BACKLOG>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_CONN_BACKLOG, input_name='MAX_CONN_BACKLOG'), namespaceprefix_ , eol_)) if self.MESSAGE_SIZE is not None: namespaceprefix_ = self.MESSAGE_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.MESSAGE_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMESSAGE_SIZE>%s</%sMESSAGE_SIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.MESSAGE_SIZE, input_name='MESSAGE_SIZE'), namespaceprefix_ , eol_)) if self.MONITORING_INTERVAL_DATASTORE is not None: namespaceprefix_ = self.MONITORING_INTERVAL_DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_INTERVAL_DATASTORE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING_INTERVAL_DATASTORE>%s</%sMONITORING_INTERVAL_DATASTORE>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONITORING_INTERVAL_DATASTORE, input_name='MONITORING_INTERVAL_DATASTORE'), namespaceprefix_ , eol_)) if self.MONITORING_INTERVAL_DB_UPDATE is not None: namespaceprefix_ = self.MONITORING_INTERVAL_DB_UPDATE_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_INTERVAL_DB_UPDATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING_INTERVAL_DB_UPDATE>%s</%sMONITORING_INTERVAL_DB_UPDATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONITORING_INTERVAL_DB_UPDATE, input_name='MONITORING_INTERVAL_DB_UPDATE'), namespaceprefix_ , eol_)) if self.MONITORING_INTERVAL_HOST is not None: namespaceprefix_ = self.MONITORING_INTERVAL_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_INTERVAL_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING_INTERVAL_HOST>%s</%sMONITORING_INTERVAL_HOST>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONITORING_INTERVAL_HOST, input_name='MONITORING_INTERVAL_HOST'), namespaceprefix_ , eol_)) if self.MONITORING_INTERVAL_MARKET is not None: namespaceprefix_ = self.MONITORING_INTERVAL_MARKET_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_INTERVAL_MARKET_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING_INTERVAL_MARKET>%s</%sMONITORING_INTERVAL_MARKET>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONITORING_INTERVAL_MARKET, input_name='MONITORING_INTERVAL_MARKET'), namespaceprefix_ , eol_)) if self.MONITORING_INTERVAL_VM is not None: namespaceprefix_ = self.MONITORING_INTERVAL_VM_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_INTERVAL_VM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING_INTERVAL_VM>%s</%sMONITORING_INTERVAL_VM>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONITORING_INTERVAL_VM, input_name='MONITORING_INTERVAL_VM'), namespaceprefix_ , eol_)) if self.NETWORK_SIZE is not None: namespaceprefix_ = self.NETWORK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETWORK_SIZE>%s</%sNETWORK_SIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETWORK_SIZE, input_name='NETWORK_SIZE'), namespaceprefix_ , eol_)) for ONE_KEY_ in self.ONE_KEY: namespaceprefix_ = self.ONE_KEY_nsprefix_ + ':' if (UseCapturedNS_ and self.ONE_KEY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sONE_KEY>%s</%sONE_KEY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(ONE_KEY_), input_name='ONE_KEY')), namespaceprefix_ , eol_)) if self.PCI_PASSTHROUGH_BUS is not None: namespaceprefix_ = self.PCI_PASSTHROUGH_BUS_nsprefix_ + ':' if (UseCapturedNS_ and self.PCI_PASSTHROUGH_BUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPCI_PASSTHROUGH_BUS>%s</%sPCI_PASSTHROUGH_BUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PCI_PASSTHROUGH_BUS), input_name='PCI_PASSTHROUGH_BUS')), namespaceprefix_ , eol_)) if self.PORT is not None: namespaceprefix_ = self.PORT_nsprefix_ + ':' if (UseCapturedNS_ and self.PORT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPORT>%s</%sPORT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PORT, input_name='PORT'), namespaceprefix_ , eol_)) if self.RAFT is not None: namespaceprefix_ = self.RAFT_nsprefix_ + ':' if (UseCapturedNS_ and self.RAFT_nsprefix_) else '' self.RAFT.export(outfile, level, namespaceprefix_, namespacedef_='', name_='RAFT', pretty_print=pretty_print) if self.RPC_LOG is not None: namespaceprefix_ = self.RPC_LOG_nsprefix_ + ':' if (UseCapturedNS_ and self.RPC_LOG_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRPC_LOG>%s</%sRPC_LOG>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RPC_LOG), input_name='RPC_LOG')), namespaceprefix_ , eol_)) if self.SCRIPTS_REMOTE_DIR is not None: namespaceprefix_ = self.SCRIPTS_REMOTE_DIR_nsprefix_ + ':' if (UseCapturedNS_ and self.SCRIPTS_REMOTE_DIR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCRIPTS_REMOTE_DIR>%s</%sSCRIPTS_REMOTE_DIR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCRIPTS_REMOTE_DIR), input_name='SCRIPTS_REMOTE_DIR')), namespaceprefix_ , eol_)) if self.SESSION_EXPIRATION_TIME is not None: namespaceprefix_ = self.SESSION_EXPIRATION_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.SESSION_EXPIRATION_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSESSION_EXPIRATION_TIME>%s</%sSESSION_EXPIRATION_TIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.SESSION_EXPIRATION_TIME, input_name='SESSION_EXPIRATION_TIME'), namespaceprefix_ , eol_)) if self.SHOWBACK_ONLY_RUNNING is not None: namespaceprefix_ = self.SHOWBACK_ONLY_RUNNING_nsprefix_ + ':' if (UseCapturedNS_ and self.SHOWBACK_ONLY_RUNNING_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSHOWBACK_ONLY_RUNNING>%s</%sSHOWBACK_ONLY_RUNNING>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SHOWBACK_ONLY_RUNNING), input_name='SHOWBACK_ONLY_RUNNING')), namespaceprefix_ , eol_)) if self.TIMEOUT is not None: namespaceprefix_ = self.TIMEOUT_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMEOUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMEOUT>%s</%sTIMEOUT>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMEOUT, input_name='TIMEOUT'), namespaceprefix_ , eol_)) for TM_MAD_ in self.TM_MAD: namespaceprefix_ = self.TM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_nsprefix_) else '' TM_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TM_MAD', pretty_print=pretty_print) for TM_MAD_CONF_ in self.TM_MAD_CONF: namespaceprefix_ = self.TM_MAD_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_CONF_nsprefix_) else '' TM_MAD_CONF_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TM_MAD_CONF', pretty_print=pretty_print) for USER_ENCRYPTED_ATTR_ in self.USER_ENCRYPTED_ATTR: namespaceprefix_ = self.USER_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER_ENCRYPTED_ATTR>%s</%sUSER_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(USER_ENCRYPTED_ATTR_), input_name='USER_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for USER_RESTRICTED_ATTR_ in self.USER_RESTRICTED_ATTR: namespaceprefix_ = self.USER_RESTRICTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_RESTRICTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER_RESTRICTED_ATTR>%s</%sUSER_RESTRICTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(USER_RESTRICTED_ATTR_), input_name='USER_RESTRICTED_ATTR')), namespaceprefix_ , eol_)) if self.VLAN_IDS is not None: namespaceprefix_ = self.VLAN_IDS_nsprefix_ + ':' if (UseCapturedNS_ and self.VLAN_IDS_nsprefix_) else '' self.VLAN_IDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VLAN_IDS', pretty_print=pretty_print) if self.VM_ADMIN_OPERATIONS is not None: namespaceprefix_ = self.VM_ADMIN_OPERATIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_ADMIN_OPERATIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_ADMIN_OPERATIONS>%s</%sVM_ADMIN_OPERATIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_ADMIN_OPERATIONS), input_name='VM_ADMIN_OPERATIONS')), namespaceprefix_ , eol_)) for VM_ENCRYPTED_ATTR_ in self.VM_ENCRYPTED_ATTR: namespaceprefix_ = self.VM_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_ENCRYPTED_ATTR>%s</%sVM_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VM_ENCRYPTED_ATTR_), input_name='VM_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for VM_MAD_ in self.VM_MAD: namespaceprefix_ = self.VM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MAD_nsprefix_) else '' VM_MAD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_MAD', pretty_print=pretty_print) if self.VM_MANAGE_OPERATIONS is not None: namespaceprefix_ = self.VM_MANAGE_OPERATIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MANAGE_OPERATIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MANAGE_OPERATIONS>%s</%sVM_MANAGE_OPERATIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_MANAGE_OPERATIONS), input_name='VM_MANAGE_OPERATIONS')), namespaceprefix_ , eol_)) for VM_MONITORING_EXPIRATION_TIME_ in self.VM_MONITORING_EXPIRATION_TIME: namespaceprefix_ = self.VM_MONITORING_EXPIRATION_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MONITORING_EXPIRATION_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MONITORING_EXPIRATION_TIME>%s</%sVM_MONITORING_EXPIRATION_TIME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VM_MONITORING_EXPIRATION_TIME_), input_name='VM_MONITORING_EXPIRATION_TIME')), namespaceprefix_ , eol_)) for VM_RESTRICTED_ATTR_ in self.VM_RESTRICTED_ATTR: namespaceprefix_ = self.VM_RESTRICTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_RESTRICTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_RESTRICTED_ATTR>%s</%sVM_RESTRICTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VM_RESTRICTED_ATTR_), input_name='VM_RESTRICTED_ATTR')), namespaceprefix_ , eol_)) if self.VM_SNAPSHOT_FACTOR is not None: namespaceprefix_ = self.VM_SNAPSHOT_FACTOR_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_SNAPSHOT_FACTOR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_SNAPSHOT_FACTOR>%s</%sVM_SNAPSHOT_FACTOR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_SNAPSHOT_FACTOR), input_name='VM_SNAPSHOT_FACTOR')), namespaceprefix_ , eol_)) if self.VM_SUBMIT_ON_HOLD is not None: namespaceprefix_ = self.VM_SUBMIT_ON_HOLD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_SUBMIT_ON_HOLD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_SUBMIT_ON_HOLD>%s</%sVM_SUBMIT_ON_HOLD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_SUBMIT_ON_HOLD), input_name='VM_SUBMIT_ON_HOLD')), namespaceprefix_ , eol_)) for VM_USE_OPERATIONS_ in self.VM_USE_OPERATIONS: namespaceprefix_ = self.VM_USE_OPERATIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_USE_OPERATIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_USE_OPERATIONS>%s</%sVM_USE_OPERATIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VM_USE_OPERATIONS_), input_name='VM_USE_OPERATIONS')), namespaceprefix_ , eol_)) if self.VNC_PORTS is not None: namespaceprefix_ = self.VNC_PORTS_nsprefix_ + ':' if (UseCapturedNS_ and self.VNC_PORTS_nsprefix_) else '' self.VNC_PORTS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNC_PORTS', pretty_print=pretty_print) for VNET_ENCRYPTED_ATTR_ in self.VNET_ENCRYPTED_ATTR: namespaceprefix_ = self.VNET_ENCRYPTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_ENCRYPTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVNET_ENCRYPTED_ATTR>%s</%sVNET_ENCRYPTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VNET_ENCRYPTED_ATTR_), input_name='VNET_ENCRYPTED_ATTR')), namespaceprefix_ , eol_)) for VNET_RESTRICTED_ATTR_ in self.VNET_RESTRICTED_ATTR: namespaceprefix_ = self.VNET_RESTRICTED_ATTR_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_RESTRICTED_ATTR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVNET_RESTRICTED_ATTR>%s</%sVNET_RESTRICTED_ATTR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VNET_RESTRICTED_ATTR_), input_name='VNET_RESTRICTED_ATTR')), namespaceprefix_ , eol_)) for VN_MAD_CONF_ in self.VN_MAD_CONF: namespaceprefix_ = self.VN_MAD_CONF_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_CONF_nsprefix_) else '' VN_MAD_CONF_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VN_MAD_CONF', pretty_print=pretty_print) if self.VXLAN_IDS is not None: namespaceprefix_ = self.VXLAN_IDS_nsprefix_ + ':' if (UseCapturedNS_ and self.VXLAN_IDS_nsprefix_) else '' self.VXLAN_IDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VXLAN_IDS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'API_LIST_ORDER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'API_LIST_ORDER') value_ = self.gds_validate_string(value_, node, 'API_LIST_ORDER') self.API_LIST_ORDER.append(value_) self.API_LIST_ORDER_nsprefix_ = child_.prefix elif nodeName_ == 'AUTH_MAD': obj_ = AUTH_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AUTH_MAD.append(obj_) obj_.original_tagname_ = 'AUTH_MAD' elif nodeName_ == 'AUTH_MAD_CONF': obj_ = AUTH_MAD_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AUTH_MAD_CONF.append(obj_) obj_.original_tagname_ = 'AUTH_MAD_CONF' elif nodeName_ == 'CLUSTER_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLUSTER_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'CLUSTER_ENCRYPTED_ATTR') self.CLUSTER_ENCRYPTED_ATTR.append(value_) self.CLUSTER_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'CONTEXT_RESTRICTED_DIRS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CONTEXT_RESTRICTED_DIRS') value_ = self.gds_validate_string(value_, node, 'CONTEXT_RESTRICTED_DIRS') self.CONTEXT_RESTRICTED_DIRS = value_ self.CONTEXT_RESTRICTED_DIRS_nsprefix_ = child_.prefix elif nodeName_ == 'CONTEXT_SAFE_DIRS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CONTEXT_SAFE_DIRS') value_ = self.gds_validate_string(value_, node, 'CONTEXT_SAFE_DIRS') self.CONTEXT_SAFE_DIRS = value_ self.CONTEXT_SAFE_DIRS_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_CAPACITY_CHECK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATASTORE_CAPACITY_CHECK') value_ = self.gds_validate_string(value_, node, 'DATASTORE_CAPACITY_CHECK') self.DATASTORE_CAPACITY_CHECK.append(value_) self.DATASTORE_CAPACITY_CHECK_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATASTORE_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'DATASTORE_ENCRYPTED_ATTR') self.DATASTORE_ENCRYPTED_ATTR.append(value_) self.DATASTORE_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_LOCATION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATASTORE_LOCATION') value_ = self.gds_validate_string(value_, node, 'DATASTORE_LOCATION') self.DATASTORE_LOCATION.append(value_) self.DATASTORE_LOCATION_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_MAD': obj_ = DATASTORE_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_MAD.append(obj_) obj_.original_tagname_ = 'DATASTORE_MAD' elif nodeName_ == 'DB': obj_ = DBType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DB = obj_ obj_.original_tagname_ = 'DB' elif nodeName_ == 'DEFAULT_AUTH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_AUTH') value_ = self.gds_validate_string(value_, node, 'DEFAULT_AUTH') self.DEFAULT_AUTH.append(value_) self.DEFAULT_AUTH_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_CDROM_DEVICE_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_CDROM_DEVICE_PREFIX') value_ = self.gds_validate_string(value_, node, 'DEFAULT_CDROM_DEVICE_PREFIX') self.DEFAULT_CDROM_DEVICE_PREFIX.append(value_) self.DEFAULT_CDROM_DEVICE_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_COST': obj_ = DEFAULT_COSTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DEFAULT_COST.append(obj_) obj_.original_tagname_ = 'DEFAULT_COST' elif nodeName_ == 'DEFAULT_DEVICE_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_DEVICE_PREFIX') value_ = self.gds_validate_string(value_, node, 'DEFAULT_DEVICE_PREFIX') self.DEFAULT_DEVICE_PREFIX.append(value_) self.DEFAULT_DEVICE_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_IMAGE_PERSISTENT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_IMAGE_PERSISTENT') value_ = self.gds_validate_string(value_, node, 'DEFAULT_IMAGE_PERSISTENT') self.DEFAULT_IMAGE_PERSISTENT.append(value_) self.DEFAULT_IMAGE_PERSISTENT_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_IMAGE_PERSISTENT_NEW': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_IMAGE_PERSISTENT_NEW') value_ = self.gds_validate_string(value_, node, 'DEFAULT_IMAGE_PERSISTENT_NEW') self.DEFAULT_IMAGE_PERSISTENT_NEW.append(value_) self.DEFAULT_IMAGE_PERSISTENT_NEW_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_IMAGE_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_IMAGE_TYPE') value_ = self.gds_validate_string(value_, node, 'DEFAULT_IMAGE_TYPE') self.DEFAULT_IMAGE_TYPE.append(value_) self.DEFAULT_IMAGE_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_UMASK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_UMASK') value_ = self.gds_validate_string(value_, node, 'DEFAULT_UMASK') self.DEFAULT_UMASK.append(value_) self.DEFAULT_UMASK_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_CLUSTER_DATASTORE_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_CLUSTER_DATASTORE_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_CLUSTER_DATASTORE_ACL') self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL.append(value_) self.DEFAULT_VDC_CLUSTER_DATASTORE_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_CLUSTER_HOST_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_CLUSTER_HOST_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_CLUSTER_HOST_ACL') self.DEFAULT_VDC_CLUSTER_HOST_ACL.append(value_) self.DEFAULT_VDC_CLUSTER_HOST_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_CLUSTER_NET_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_CLUSTER_NET_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_CLUSTER_NET_ACL') self.DEFAULT_VDC_CLUSTER_NET_ACL.append(value_) self.DEFAULT_VDC_CLUSTER_NET_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_DATASTORE_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_DATASTORE_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_DATASTORE_ACL') self.DEFAULT_VDC_DATASTORE_ACL.append(value_) self.DEFAULT_VDC_DATASTORE_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_HOST_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_HOST_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_HOST_ACL') self.DEFAULT_VDC_HOST_ACL.append(value_) self.DEFAULT_VDC_HOST_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT_VDC_VNET_ACL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT_VDC_VNET_ACL') value_ = self.gds_validate_string(value_, node, 'DEFAULT_VDC_VNET_ACL') self.DEFAULT_VDC_VNET_ACL.append(value_) self.DEFAULT_VDC_VNET_ACL_nsprefix_ = child_.prefix elif nodeName_ == 'DOCUMENT_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DOCUMENT_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'DOCUMENT_ENCRYPTED_ATTR') self.DOCUMENT_ENCRYPTED_ATTR.append(value_) self.DOCUMENT_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'DS_MAD_CONF': obj_ = DS_MAD_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DS_MAD_CONF.append(obj_) obj_.original_tagname_ = 'DS_MAD_CONF' elif nodeName_ == 'DS_MONITOR_VM_DISK' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DS_MONITOR_VM_DISK') ival_ = self.gds_validate_integer(ival_, node, 'DS_MONITOR_VM_DISK') self.DS_MONITOR_VM_DISK = ival_ self.DS_MONITOR_VM_DISK_nsprefix_ = child_.prefix elif nodeName_ == 'ENABLE_OTHER_PERMISSIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ENABLE_OTHER_PERMISSIONS') value_ = self.gds_validate_string(value_, node, 'ENABLE_OTHER_PERMISSIONS') self.ENABLE_OTHER_PERMISSIONS = value_ self.ENABLE_OTHER_PERMISSIONS_nsprefix_ = child_.prefix # validate type ENABLE_OTHER_PERMISSIONSType self.validate_ENABLE_OTHER_PERMISSIONSType(self.ENABLE_OTHER_PERMISSIONS) elif nodeName_ == 'FEDERATION': obj_ = FEDERATIONType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.FEDERATION = obj_ obj_.original_tagname_ = 'FEDERATION' elif nodeName_ == 'GROUP_RESTRICTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GROUP_RESTRICTED_ATTR') value_ = self.gds_validate_string(value_, node, 'GROUP_RESTRICTED_ATTR') self.GROUP_RESTRICTED_ATTR.append(value_) self.GROUP_RESTRICTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'HM_MAD': obj_ = HM_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HM_MAD = obj_ obj_.original_tagname_ = 'HM_MAD' elif nodeName_ == 'HOOK_LOG_CONF': obj_ = HOOK_LOG_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOOK_LOG_CONF = obj_ obj_.original_tagname_ = 'HOOK_LOG_CONF' elif nodeName_ == 'HOST_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOST_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'HOST_ENCRYPTED_ATTR') self.HOST_ENCRYPTED_ATTR.append(value_) self.HOST_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGE_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGE_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'IMAGE_ENCRYPTED_ATTR') self.IMAGE_ENCRYPTED_ATTR.append(value_) self.IMAGE_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGE_RESTRICTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGE_RESTRICTED_ATTR') value_ = self.gds_validate_string(value_, node, 'IMAGE_RESTRICTED_ATTR') self.IMAGE_RESTRICTED_ATTR.append(value_) self.IMAGE_RESTRICTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'IM_MAD': obj_ = IM_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IM_MAD.append(obj_) obj_.original_tagname_ = 'IM_MAD' elif nodeName_ == 'INHERIT_DATASTORE_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INHERIT_DATASTORE_ATTR') value_ = self.gds_validate_string(value_, node, 'INHERIT_DATASTORE_ATTR') self.INHERIT_DATASTORE_ATTR.append(value_) self.INHERIT_DATASTORE_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'INHERIT_IMAGE_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INHERIT_IMAGE_ATTR') value_ = self.gds_validate_string(value_, node, 'INHERIT_IMAGE_ATTR') self.INHERIT_IMAGE_ATTR.append(value_) self.INHERIT_IMAGE_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'INHERIT_VNET_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INHERIT_VNET_ATTR') value_ = self.gds_validate_string(value_, node, 'INHERIT_VNET_ATTR') self.INHERIT_VNET_ATTR.append(value_) self.INHERIT_VNET_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'IPAM_MAD': obj_ = IPAM_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IPAM_MAD.append(obj_) obj_.original_tagname_ = 'IPAM_MAD' elif nodeName_ == 'KEEPALIVE_MAX_CONN' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'KEEPALIVE_MAX_CONN') ival_ = self.gds_validate_integer(ival_, node, 'KEEPALIVE_MAX_CONN') self.KEEPALIVE_MAX_CONN.append(ival_) self.KEEPALIVE_MAX_CONN_nsprefix_ = child_.prefix elif nodeName_ == 'KEEPALIVE_TIMEOUT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'KEEPALIVE_TIMEOUT') ival_ = self.gds_validate_integer(ival_, node, 'KEEPALIVE_TIMEOUT') self.KEEPALIVE_TIMEOUT.append(ival_) self.KEEPALIVE_TIMEOUT_nsprefix_ = child_.prefix elif nodeName_ == 'LISTEN_ADDRESS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LISTEN_ADDRESS') value_ = self.gds_validate_string(value_, node, 'LISTEN_ADDRESS') self.LISTEN_ADDRESS.append(value_) self.LISTEN_ADDRESS_nsprefix_ = child_.prefix elif nodeName_ == 'LOG': obj_ = LOGType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOG.append(obj_) obj_.original_tagname_ = 'LOG' elif nodeName_ == 'LOG_CALL_FORMAT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LOG_CALL_FORMAT') value_ = self.gds_validate_string(value_, node, 'LOG_CALL_FORMAT') self.LOG_CALL_FORMAT.append(value_) self.LOG_CALL_FORMAT_nsprefix_ = child_.prefix elif nodeName_ == 'MAC_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MAC_PREFIX') value_ = self.gds_validate_string(value_, node, 'MAC_PREFIX') self.MAC_PREFIX.append(value_) self.MAC_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'MANAGER_TIMER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MANAGER_TIMER') ival_ = self.gds_validate_integer(ival_, node, 'MANAGER_TIMER') self.MANAGER_TIMER.append(ival_) self.MANAGER_TIMER_nsprefix_ = child_.prefix elif nodeName_ == 'MARKET_MAD': obj_ = MARKET_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MARKET_MAD.append(obj_) obj_.original_tagname_ = 'MARKET_MAD' elif nodeName_ == 'MARKET_MAD_CONF': obj_ = MARKET_MAD_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MARKET_MAD_CONF.append(obj_) obj_.original_tagname_ = 'MARKET_MAD_CONF' elif nodeName_ == 'MAX_BACKUPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_BACKUPS') ival_ = self.gds_validate_integer(ival_, node, 'MAX_BACKUPS') self.MAX_BACKUPS = ival_ self.MAX_BACKUPS_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_BACKUPS_HOST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_BACKUPS_HOST') ival_ = self.gds_validate_integer(ival_, node, 'MAX_BACKUPS_HOST') self.MAX_BACKUPS_HOST = ival_ self.MAX_BACKUPS_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_CONN' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_CONN') ival_ = self.gds_validate_integer(ival_, node, 'MAX_CONN') self.MAX_CONN = ival_ self.MAX_CONN_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_CONN_BACKLOG' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_CONN_BACKLOG') ival_ = self.gds_validate_integer(ival_, node, 'MAX_CONN_BACKLOG') self.MAX_CONN_BACKLOG = ival_ self.MAX_CONN_BACKLOG_nsprefix_ = child_.prefix elif nodeName_ == 'MESSAGE_SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MESSAGE_SIZE') ival_ = self.gds_validate_integer(ival_, node, 'MESSAGE_SIZE') self.MESSAGE_SIZE = ival_ self.MESSAGE_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING_INTERVAL_DATASTORE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONITORING_INTERVAL_DATASTORE') ival_ = self.gds_validate_integer(ival_, node, 'MONITORING_INTERVAL_DATASTORE') self.MONITORING_INTERVAL_DATASTORE = ival_ self.MONITORING_INTERVAL_DATASTORE_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING_INTERVAL_DB_UPDATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONITORING_INTERVAL_DB_UPDATE') ival_ = self.gds_validate_integer(ival_, node, 'MONITORING_INTERVAL_DB_UPDATE') self.MONITORING_INTERVAL_DB_UPDATE = ival_ self.MONITORING_INTERVAL_DB_UPDATE_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING_INTERVAL_HOST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONITORING_INTERVAL_HOST') ival_ = self.gds_validate_integer(ival_, node, 'MONITORING_INTERVAL_HOST') self.MONITORING_INTERVAL_HOST = ival_ self.MONITORING_INTERVAL_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING_INTERVAL_MARKET' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONITORING_INTERVAL_MARKET') ival_ = self.gds_validate_integer(ival_, node, 'MONITORING_INTERVAL_MARKET') self.MONITORING_INTERVAL_MARKET = ival_ self.MONITORING_INTERVAL_MARKET_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING_INTERVAL_VM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONITORING_INTERVAL_VM') ival_ = self.gds_validate_integer(ival_, node, 'MONITORING_INTERVAL_VM') self.MONITORING_INTERVAL_VM = ival_ self.MONITORING_INTERVAL_VM_nsprefix_ = child_.prefix elif nodeName_ == 'NETWORK_SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETWORK_SIZE') ival_ = self.gds_validate_integer(ival_, node, 'NETWORK_SIZE') self.NETWORK_SIZE = ival_ self.NETWORK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'ONE_KEY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ONE_KEY') value_ = self.gds_validate_string(value_, node, 'ONE_KEY') self.ONE_KEY.append(value_) self.ONE_KEY_nsprefix_ = child_.prefix elif nodeName_ == 'PCI_PASSTHROUGH_BUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PCI_PASSTHROUGH_BUS') value_ = self.gds_validate_string(value_, node, 'PCI_PASSTHROUGH_BUS') self.PCI_PASSTHROUGH_BUS = value_ self.PCI_PASSTHROUGH_BUS_nsprefix_ = child_.prefix elif nodeName_ == 'PORT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PORT') ival_ = self.gds_validate_integer(ival_, node, 'PORT') self.PORT = ival_ self.PORT_nsprefix_ = child_.prefix elif nodeName_ == 'RAFT': obj_ = RAFTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.RAFT = obj_ obj_.original_tagname_ = 'RAFT' elif nodeName_ == 'RPC_LOG': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RPC_LOG') value_ = self.gds_validate_string(value_, node, 'RPC_LOG') self.RPC_LOG = value_ self.RPC_LOG_nsprefix_ = child_.prefix elif nodeName_ == 'SCRIPTS_REMOTE_DIR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCRIPTS_REMOTE_DIR') value_ = self.gds_validate_string(value_, node, 'SCRIPTS_REMOTE_DIR') self.SCRIPTS_REMOTE_DIR = value_ self.SCRIPTS_REMOTE_DIR_nsprefix_ = child_.prefix elif nodeName_ == 'SESSION_EXPIRATION_TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SESSION_EXPIRATION_TIME') ival_ = self.gds_validate_integer(ival_, node, 'SESSION_EXPIRATION_TIME') self.SESSION_EXPIRATION_TIME = ival_ self.SESSION_EXPIRATION_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'SHOWBACK_ONLY_RUNNING': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SHOWBACK_ONLY_RUNNING') value_ = self.gds_validate_string(value_, node, 'SHOWBACK_ONLY_RUNNING') self.SHOWBACK_ONLY_RUNNING = value_ self.SHOWBACK_ONLY_RUNNING_nsprefix_ = child_.prefix elif nodeName_ == 'TIMEOUT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMEOUT') ival_ = self.gds_validate_integer(ival_, node, 'TIMEOUT') self.TIMEOUT = ival_ self.TIMEOUT_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD': obj_ = TM_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TM_MAD.append(obj_) obj_.original_tagname_ = 'TM_MAD' elif nodeName_ == 'TM_MAD_CONF': obj_ = TM_MAD_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TM_MAD_CONF.append(obj_) obj_.original_tagname_ = 'TM_MAD_CONF' elif nodeName_ == 'USER_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'USER_ENCRYPTED_ATTR') self.USER_ENCRYPTED_ATTR.append(value_) self.USER_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'USER_RESTRICTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER_RESTRICTED_ATTR') value_ = self.gds_validate_string(value_, node, 'USER_RESTRICTED_ATTR') self.USER_RESTRICTED_ATTR.append(value_) self.USER_RESTRICTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'VLAN_IDS': obj_ = VLAN_IDSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VLAN_IDS = obj_ obj_.original_tagname_ = 'VLAN_IDS' elif nodeName_ == 'VM_ADMIN_OPERATIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_ADMIN_OPERATIONS') value_ = self.gds_validate_string(value_, node, 'VM_ADMIN_OPERATIONS') self.VM_ADMIN_OPERATIONS = value_ self.VM_ADMIN_OPERATIONS_nsprefix_ = child_.prefix elif nodeName_ == 'VM_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'VM_ENCRYPTED_ATTR') self.VM_ENCRYPTED_ATTR.append(value_) self.VM_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MAD': obj_ = VM_MADType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_MAD.append(obj_) obj_.original_tagname_ = 'VM_MAD' elif nodeName_ == 'VM_MANAGE_OPERATIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MANAGE_OPERATIONS') value_ = self.gds_validate_string(value_, node, 'VM_MANAGE_OPERATIONS') self.VM_MANAGE_OPERATIONS = value_ self.VM_MANAGE_OPERATIONS_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MONITORING_EXPIRATION_TIME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MONITORING_EXPIRATION_TIME') value_ = self.gds_validate_string(value_, node, 'VM_MONITORING_EXPIRATION_TIME') self.VM_MONITORING_EXPIRATION_TIME.append(value_) self.VM_MONITORING_EXPIRATION_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'VM_RESTRICTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_RESTRICTED_ATTR') value_ = self.gds_validate_string(value_, node, 'VM_RESTRICTED_ATTR') self.VM_RESTRICTED_ATTR.append(value_) self.VM_RESTRICTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'VM_SNAPSHOT_FACTOR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_SNAPSHOT_FACTOR') value_ = self.gds_validate_string(value_, node, 'VM_SNAPSHOT_FACTOR') self.VM_SNAPSHOT_FACTOR = value_ self.VM_SNAPSHOT_FACTOR_nsprefix_ = child_.prefix elif nodeName_ == 'VM_SUBMIT_ON_HOLD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_SUBMIT_ON_HOLD') value_ = self.gds_validate_string(value_, node, 'VM_SUBMIT_ON_HOLD') self.VM_SUBMIT_ON_HOLD = value_ self.VM_SUBMIT_ON_HOLD_nsprefix_ = child_.prefix # validate type VM_SUBMIT_ON_HOLDType self.validate_VM_SUBMIT_ON_HOLDType(self.VM_SUBMIT_ON_HOLD) elif nodeName_ == 'VM_USE_OPERATIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_USE_OPERATIONS') value_ = self.gds_validate_string(value_, node, 'VM_USE_OPERATIONS') self.VM_USE_OPERATIONS.append(value_) self.VM_USE_OPERATIONS_nsprefix_ = child_.prefix elif nodeName_ == 'VNC_PORTS': obj_ = VNC_PORTSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNC_PORTS = obj_ obj_.original_tagname_ = 'VNC_PORTS' elif nodeName_ == 'VNET_ENCRYPTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VNET_ENCRYPTED_ATTR') value_ = self.gds_validate_string(value_, node, 'VNET_ENCRYPTED_ATTR') self.VNET_ENCRYPTED_ATTR.append(value_) self.VNET_ENCRYPTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'VNET_RESTRICTED_ATTR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VNET_RESTRICTED_ATTR') value_ = self.gds_validate_string(value_, node, 'VNET_RESTRICTED_ATTR') self.VNET_RESTRICTED_ATTR.append(value_) self.VNET_RESTRICTED_ATTR_nsprefix_ = child_.prefix elif nodeName_ == 'VN_MAD_CONF': obj_ = VN_MAD_CONFType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VN_MAD_CONF.append(obj_) obj_.original_tagname_ = 'VN_MAD_CONF' elif nodeName_ == 'VXLAN_IDS': obj_ = VXLAN_IDSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VXLAN_IDS = obj_ obj_.original_tagname_ = 'VXLAN_IDS' # end class OPENNEBULA_CONFIGURATION class RAFT(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, SERVER_ID=None, STATE=None, TERM=None, VOTEDFOR=None, COMMIT=None, LOG_INDEX=None, LOG_TERM=None, FEDLOG_INDEX=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.SERVER_ID = SERVER_ID self.SERVER_ID_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.TERM = TERM self.TERM_nsprefix_ = None self.VOTEDFOR = VOTEDFOR self.VOTEDFOR_nsprefix_ = None self.COMMIT = COMMIT self.COMMIT_nsprefix_ = None self.LOG_INDEX = LOG_INDEX self.LOG_INDEX_nsprefix_ = None self.LOG_TERM = LOG_TERM self.LOG_TERM_nsprefix_ = None self.FEDLOG_INDEX = FEDLOG_INDEX self.FEDLOG_INDEX_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, RAFT) if subclass is not None: return subclass(*args_, **kwargs_) if RAFT.subclass: return RAFT.subclass(*args_, **kwargs_) else: return RAFT(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_SERVER_ID(self): return self.SERVER_ID def set_SERVER_ID(self, SERVER_ID): self.SERVER_ID = SERVER_ID def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_TERM(self): return self.TERM def set_TERM(self, TERM): self.TERM = TERM def get_VOTEDFOR(self): return self.VOTEDFOR def set_VOTEDFOR(self, VOTEDFOR): self.VOTEDFOR = VOTEDFOR def get_COMMIT(self): return self.COMMIT def set_COMMIT(self, COMMIT): self.COMMIT = COMMIT def get_LOG_INDEX(self): return self.LOG_INDEX def set_LOG_INDEX(self, LOG_INDEX): self.LOG_INDEX = LOG_INDEX def get_LOG_TERM(self): return self.LOG_TERM def set_LOG_TERM(self, LOG_TERM): self.LOG_TERM = LOG_TERM def get_FEDLOG_INDEX(self): return self.FEDLOG_INDEX def set_FEDLOG_INDEX(self, FEDLOG_INDEX): self.FEDLOG_INDEX = FEDLOG_INDEX def has__content(self): if ( self.SERVER_ID is not None or self.STATE is not None or self.TERM is not None or self.VOTEDFOR is not None or self.COMMIT is not None or self.LOG_INDEX is not None or self.LOG_TERM is not None or self.FEDLOG_INDEX is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RAFT', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('RAFT') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'RAFT': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='RAFT') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='RAFT', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='RAFT'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RAFT', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.SERVER_ID is not None: namespaceprefix_ = self.SERVER_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSERVER_ID>%s</%sSERVER_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.SERVER_ID, input_name='SERVER_ID'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.TERM is not None: namespaceprefix_ = self.TERM_nsprefix_ + ':' if (UseCapturedNS_ and self.TERM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTERM>%s</%sTERM>%s' % (namespaceprefix_ , self.gds_format_integer(self.TERM, input_name='TERM'), namespaceprefix_ , eol_)) if self.VOTEDFOR is not None: namespaceprefix_ = self.VOTEDFOR_nsprefix_ + ':' if (UseCapturedNS_ and self.VOTEDFOR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVOTEDFOR>%s</%sVOTEDFOR>%s' % (namespaceprefix_ , self.gds_format_integer(self.VOTEDFOR, input_name='VOTEDFOR'), namespaceprefix_ , eol_)) if self.COMMIT is not None: namespaceprefix_ = self.COMMIT_nsprefix_ + ':' if (UseCapturedNS_ and self.COMMIT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOMMIT>%s</%sCOMMIT>%s' % (namespaceprefix_ , self.gds_format_integer(self.COMMIT, input_name='COMMIT'), namespaceprefix_ , eol_)) if self.LOG_INDEX is not None: namespaceprefix_ = self.LOG_INDEX_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_INDEX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_INDEX>%s</%sLOG_INDEX>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_INDEX, input_name='LOG_INDEX'), namespaceprefix_ , eol_)) if self.LOG_TERM is not None: namespaceprefix_ = self.LOG_TERM_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_TERM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_TERM>%s</%sLOG_TERM>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_TERM, input_name='LOG_TERM'), namespaceprefix_ , eol_)) if self.FEDLOG_INDEX is not None: namespaceprefix_ = self.FEDLOG_INDEX_nsprefix_ + ':' if (UseCapturedNS_ and self.FEDLOG_INDEX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFEDLOG_INDEX>%s</%sFEDLOG_INDEX>%s' % (namespaceprefix_ , self.gds_format_integer(self.FEDLOG_INDEX, input_name='FEDLOG_INDEX'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'SERVER_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SERVER_ID') ival_ = self.gds_validate_integer(ival_, node, 'SERVER_ID') self.SERVER_ID = ival_ self.SERVER_ID_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'TERM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TERM') ival_ = self.gds_validate_integer(ival_, node, 'TERM') self.TERM = ival_ self.TERM_nsprefix_ = child_.prefix elif nodeName_ == 'VOTEDFOR' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VOTEDFOR') ival_ = self.gds_validate_integer(ival_, node, 'VOTEDFOR') self.VOTEDFOR = ival_ self.VOTEDFOR_nsprefix_ = child_.prefix elif nodeName_ == 'COMMIT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'COMMIT') ival_ = self.gds_validate_integer(ival_, node, 'COMMIT') self.COMMIT = ival_ self.COMMIT_nsprefix_ = child_.prefix elif nodeName_ == 'LOG_INDEX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_INDEX') ival_ = self.gds_validate_integer(ival_, node, 'LOG_INDEX') self.LOG_INDEX = ival_ self.LOG_INDEX_nsprefix_ = child_.prefix elif nodeName_ == 'LOG_TERM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_TERM') ival_ = self.gds_validate_integer(ival_, node, 'LOG_TERM') self.LOG_TERM = ival_ self.LOG_TERM_nsprefix_ = child_.prefix elif nodeName_ == 'FEDLOG_INDEX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FEDLOG_INDEX') ival_ = self.gds_validate_integer(ival_, node, 'FEDLOG_INDEX') self.FEDLOG_INDEX = ival_ self.FEDLOG_INDEX_nsprefix_ = child_.prefix # end class RAFT class SECURITY_GROUP_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, SECURITY_GROUP=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if SECURITY_GROUP is None: self.SECURITY_GROUP = [] else: self.SECURITY_GROUP = SECURITY_GROUP self.SECURITY_GROUP_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SECURITY_GROUP_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if SECURITY_GROUP_POOL.subclass: return SECURITY_GROUP_POOL.subclass(*args_, **kwargs_) else: return SECURITY_GROUP_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_SECURITY_GROUP(self): return self.SECURITY_GROUP def set_SECURITY_GROUP(self, SECURITY_GROUP): self.SECURITY_GROUP = SECURITY_GROUP def add_SECURITY_GROUP(self, value): self.SECURITY_GROUP.append(value) def insert_SECURITY_GROUP_at(self, index, value): self.SECURITY_GROUP.insert(index, value) def replace_SECURITY_GROUP_at(self, index, value): self.SECURITY_GROUP[index] = value def has__content(self): if ( self.SECURITY_GROUP ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SECURITY_GROUP_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SECURITY_GROUP_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SECURITY_GROUP_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SECURITY_GROUP_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SECURITY_GROUP_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SECURITY_GROUP_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SECURITY_GROUP_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for SECURITY_GROUP_ in self.SECURITY_GROUP: namespaceprefix_ = self.SECURITY_GROUP_nsprefix_ + ':' if (UseCapturedNS_ and self.SECURITY_GROUP_nsprefix_) else '' SECURITY_GROUP_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SECURITY_GROUP', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'SECURITY_GROUP': obj_ = SECURITY_GROUP.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SECURITY_GROUP.append(obj_) obj_.original_tagname_ = 'SECURITY_GROUP' # end class SECURITY_GROUP_POOL class SECURITY_GROUP(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, UPDATED_VMS=None, OUTDATED_VMS=None, UPDATING_VMS=None, ERROR_VMS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.UPDATED_VMS = UPDATED_VMS self.UPDATED_VMS_nsprefix_ = None self.OUTDATED_VMS = OUTDATED_VMS self.OUTDATED_VMS_nsprefix_ = None self.UPDATING_VMS = UPDATING_VMS self.UPDATING_VMS_nsprefix_ = None self.ERROR_VMS = ERROR_VMS self.ERROR_VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SECURITY_GROUP) if subclass is not None: return subclass(*args_, **kwargs_) if SECURITY_GROUP.subclass: return SECURITY_GROUP.subclass(*args_, **kwargs_) else: return SECURITY_GROUP(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_UPDATED_VMS(self): return self.UPDATED_VMS def set_UPDATED_VMS(self, UPDATED_VMS): self.UPDATED_VMS = UPDATED_VMS def get_OUTDATED_VMS(self): return self.OUTDATED_VMS def set_OUTDATED_VMS(self, OUTDATED_VMS): self.OUTDATED_VMS = OUTDATED_VMS def get_UPDATING_VMS(self): return self.UPDATING_VMS def set_UPDATING_VMS(self, UPDATING_VMS): self.UPDATING_VMS = UPDATING_VMS def get_ERROR_VMS(self): return self.ERROR_VMS def set_ERROR_VMS(self, ERROR_VMS): self.ERROR_VMS = ERROR_VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.UPDATED_VMS is not None or self.OUTDATED_VMS is not None or self.UPDATING_VMS is not None or self.ERROR_VMS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SECURITY_GROUP', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SECURITY_GROUP') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SECURITY_GROUP': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SECURITY_GROUP') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SECURITY_GROUP', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SECURITY_GROUP'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SECURITY_GROUP', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.UPDATED_VMS is not None: namespaceprefix_ = self.UPDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATED_VMS_nsprefix_) else '' self.UPDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATED_VMS', pretty_print=pretty_print) if self.OUTDATED_VMS is not None: namespaceprefix_ = self.OUTDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTDATED_VMS_nsprefix_) else '' self.OUTDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='OUTDATED_VMS', pretty_print=pretty_print) if self.UPDATING_VMS is not None: namespaceprefix_ = self.UPDATING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATING_VMS_nsprefix_) else '' self.UPDATING_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATING_VMS', pretty_print=pretty_print) if self.ERROR_VMS is not None: namespaceprefix_ = self.ERROR_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_VMS_nsprefix_) else '' self.ERROR_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ERROR_VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType47.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'UPDATED_VMS': obj_ = UPDATED_VMSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATED_VMS = obj_ obj_.original_tagname_ = 'UPDATED_VMS' elif nodeName_ == 'OUTDATED_VMS': obj_ = OUTDATED_VMSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.OUTDATED_VMS = obj_ obj_.original_tagname_ = 'OUTDATED_VMS' elif nodeName_ == 'UPDATING_VMS': obj_ = UPDATING_VMSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATING_VMS = obj_ obj_.original_tagname_ = 'UPDATING_VMS' elif nodeName_ == 'ERROR_VMS': obj_ = ERROR_VMSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ERROR_VMS = obj_ obj_.original_tagname_ = 'ERROR_VMS' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType48.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' # end class SECURITY_GROUP class SHOWBACK_RECORDS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, SHOWBACK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if SHOWBACK is None: self.SHOWBACK = [] else: self.SHOWBACK = SHOWBACK self.SHOWBACK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SHOWBACK_RECORDS) if subclass is not None: return subclass(*args_, **kwargs_) if SHOWBACK_RECORDS.subclass: return SHOWBACK_RECORDS.subclass(*args_, **kwargs_) else: return SHOWBACK_RECORDS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_SHOWBACK(self): return self.SHOWBACK def set_SHOWBACK(self, SHOWBACK): self.SHOWBACK = SHOWBACK def add_SHOWBACK(self, value): self.SHOWBACK.append(value) def insert_SHOWBACK_at(self, index, value): self.SHOWBACK.insert(index, value) def replace_SHOWBACK_at(self, index, value): self.SHOWBACK[index] = value def has__content(self): if ( self.SHOWBACK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SHOWBACK_RECORDS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SHOWBACK_RECORDS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SHOWBACK_RECORDS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SHOWBACK_RECORDS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SHOWBACK_RECORDS', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SHOWBACK_RECORDS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SHOWBACK_RECORDS', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for SHOWBACK_ in self.SHOWBACK: namespaceprefix_ = self.SHOWBACK_nsprefix_ + ':' if (UseCapturedNS_ and self.SHOWBACK_nsprefix_) else '' SHOWBACK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SHOWBACK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'SHOWBACK': obj_ = SHOWBACKType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SHOWBACK.append(obj_) obj_.original_tagname_ = 'SHOWBACK' # end class SHOWBACK_RECORDS class USER_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, USER=None, QUOTAS=None, DEFAULT_USER_QUOTAS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if USER is None: self.USER = [] else: self.USER = USER self.USER_nsprefix_ = None if QUOTAS is None: self.QUOTAS = [] else: self.QUOTAS = QUOTAS self.QUOTAS_nsprefix_ = None self.DEFAULT_USER_QUOTAS = DEFAULT_USER_QUOTAS self.DEFAULT_USER_QUOTAS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USER_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if USER_POOL.subclass: return USER_POOL.subclass(*args_, **kwargs_) else: return USER_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_USER(self): return self.USER def set_USER(self, USER): self.USER = USER def add_USER(self, value): self.USER.append(value) def insert_USER_at(self, index, value): self.USER.insert(index, value) def replace_USER_at(self, index, value): self.USER[index] = value def get_QUOTAS(self): return self.QUOTAS def set_QUOTAS(self, QUOTAS): self.QUOTAS = QUOTAS def add_QUOTAS(self, value): self.QUOTAS.append(value) def insert_QUOTAS_at(self, index, value): self.QUOTAS.insert(index, value) def replace_QUOTAS_at(self, index, value): self.QUOTAS[index] = value def get_DEFAULT_USER_QUOTAS(self): return self.DEFAULT_USER_QUOTAS def set_DEFAULT_USER_QUOTAS(self, DEFAULT_USER_QUOTAS): self.DEFAULT_USER_QUOTAS = DEFAULT_USER_QUOTAS def has__content(self): if ( self.USER or self.QUOTAS or self.DEFAULT_USER_QUOTAS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USER_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USER_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USER_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USER_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USER_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for USER_ in self.USER: namespaceprefix_ = self.USER_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_nsprefix_) else '' USER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='USER', pretty_print=pretty_print) for QUOTAS_ in self.QUOTAS: namespaceprefix_ = self.QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.QUOTAS_nsprefix_) else '' QUOTAS_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='QUOTAS', pretty_print=pretty_print) if self.DEFAULT_USER_QUOTAS is not None: namespaceprefix_ = self.DEFAULT_USER_QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_USER_QUOTAS_nsprefix_) else '' self.DEFAULT_USER_QUOTAS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DEFAULT_USER_QUOTAS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'USER': obj_ = USERType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.USER.append(obj_) obj_.original_tagname_ = 'USER' elif nodeName_ == 'QUOTAS': obj_ = QUOTASType49.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.QUOTAS.append(obj_) obj_.original_tagname_ = 'QUOTAS' elif nodeName_ == 'DEFAULT_USER_QUOTAS': obj_ = DEFAULT_USER_QUOTASType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DEFAULT_USER_QUOTAS = obj_ obj_.original_tagname_ = 'DEFAULT_USER_QUOTAS' # end class USER_POOL class USER(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, GID=None, GROUPS=None, GNAME=None, NAME=None, PASSWORD=None, AUTH_DRIVER=None, ENABLED=None, LOGIN_TOKEN=None, TEMPLATE=None, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, DEFAULT_USER_QUOTAS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.GROUPS = GROUPS self.GROUPS_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PASSWORD = PASSWORD self.PASSWORD_nsprefix_ = None self.AUTH_DRIVER = AUTH_DRIVER self.AUTH_DRIVER_nsprefix_ = None self.ENABLED = ENABLED self.ENABLED_nsprefix_ = None if LOGIN_TOKEN is None: self.LOGIN_TOKEN = [] else: self.LOGIN_TOKEN = LOGIN_TOKEN self.LOGIN_TOKEN_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None self.DEFAULT_USER_QUOTAS = DEFAULT_USER_QUOTAS self.DEFAULT_USER_QUOTAS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USER) if subclass is not None: return subclass(*args_, **kwargs_) if USER.subclass: return USER.subclass(*args_, **kwargs_) else: return USER(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_GROUPS(self): return self.GROUPS def set_GROUPS(self, GROUPS): self.GROUPS = GROUPS def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PASSWORD(self): return self.PASSWORD def set_PASSWORD(self, PASSWORD): self.PASSWORD = PASSWORD def get_AUTH_DRIVER(self): return self.AUTH_DRIVER def set_AUTH_DRIVER(self, AUTH_DRIVER): self.AUTH_DRIVER = AUTH_DRIVER def get_ENABLED(self): return self.ENABLED def set_ENABLED(self, ENABLED): self.ENABLED = ENABLED def get_LOGIN_TOKEN(self): return self.LOGIN_TOKEN def set_LOGIN_TOKEN(self, LOGIN_TOKEN): self.LOGIN_TOKEN = LOGIN_TOKEN def add_LOGIN_TOKEN(self, value): self.LOGIN_TOKEN.append(value) def insert_LOGIN_TOKEN_at(self, index, value): self.LOGIN_TOKEN.insert(index, value) def replace_LOGIN_TOKEN_at(self, index, value): self.LOGIN_TOKEN[index] = value def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def get_DEFAULT_USER_QUOTAS(self): return self.DEFAULT_USER_QUOTAS def set_DEFAULT_USER_QUOTAS(self, DEFAULT_USER_QUOTAS): self.DEFAULT_USER_QUOTAS = DEFAULT_USER_QUOTAS def has__content(self): if ( self.ID is not None or self.GID is not None or self.GROUPS is not None or self.GNAME is not None or self.NAME is not None or self.PASSWORD is not None or self.AUTH_DRIVER is not None or self.ENABLED is not None or self.LOGIN_TOKEN or self.TEMPLATE is not None or self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None or self.DEFAULT_USER_QUOTAS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USER') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USER': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USER') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USER', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USER'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.GROUPS is not None: namespaceprefix_ = self.GROUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUPS_nsprefix_) else '' self.GROUPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='GROUPS', pretty_print=pretty_print) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PASSWORD is not None: namespaceprefix_ = self.PASSWORD_nsprefix_ + ':' if (UseCapturedNS_ and self.PASSWORD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPASSWORD>%s</%sPASSWORD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PASSWORD), input_name='PASSWORD')), namespaceprefix_ , eol_)) if self.AUTH_DRIVER is not None: namespaceprefix_ = self.AUTH_DRIVER_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTH_DRIVER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTH_DRIVER>%s</%sAUTH_DRIVER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTH_DRIVER), input_name='AUTH_DRIVER')), namespaceprefix_ , eol_)) if self.ENABLED is not None: namespaceprefix_ = self.ENABLED_nsprefix_ + ':' if (UseCapturedNS_ and self.ENABLED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENABLED>%s</%sENABLED>%s' % (namespaceprefix_ , self.gds_format_integer(self.ENABLED, input_name='ENABLED'), namespaceprefix_ , eol_)) for LOGIN_TOKEN_ in self.LOGIN_TOKEN: namespaceprefix_ = self.LOGIN_TOKEN_nsprefix_ + ':' if (UseCapturedNS_ and self.LOGIN_TOKEN_nsprefix_) else '' LOGIN_TOKEN_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOGIN_TOKEN', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) if self.DEFAULT_USER_QUOTAS is not None: namespaceprefix_ = self.DEFAULT_USER_QUOTAS_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_USER_QUOTAS_nsprefix_) else '' self.DEFAULT_USER_QUOTAS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DEFAULT_USER_QUOTAS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'GROUPS': obj_ = GROUPSType66.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.GROUPS = obj_ obj_.original_tagname_ = 'GROUPS' elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PASSWORD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PASSWORD') value_ = self.gds_validate_string(value_, node, 'PASSWORD') self.PASSWORD = value_ self.PASSWORD_nsprefix_ = child_.prefix elif nodeName_ == 'AUTH_DRIVER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTH_DRIVER') value_ = self.gds_validate_string(value_, node, 'AUTH_DRIVER') self.AUTH_DRIVER = value_ self.AUTH_DRIVER_nsprefix_ = child_.prefix elif nodeName_ == 'ENABLED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ENABLED') ival_ = self.gds_validate_integer(ival_, node, 'ENABLED') self.ENABLED = ival_ self.ENABLED_nsprefix_ = child_.prefix elif nodeName_ == 'LOGIN_TOKEN': obj_ = LOGIN_TOKENType67.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOGIN_TOKEN.append(obj_) obj_.original_tagname_ = 'LOGIN_TOKEN' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType68.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType70.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType72.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType74.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' elif nodeName_ == 'DEFAULT_USER_QUOTAS': obj_ = DEFAULT_USER_QUOTASType76.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DEFAULT_USER_QUOTAS = obj_ obj_.original_tagname_ = 'DEFAULT_USER_QUOTAS' # end class USER class VDC_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VDC=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VDC is None: self.VDC = [] else: self.VDC = VDC self.VDC_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VDC_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VDC_POOL.subclass: return VDC_POOL.subclass(*args_, **kwargs_) else: return VDC_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VDC(self): return self.VDC def set_VDC(self, VDC): self.VDC = VDC def add_VDC(self, value): self.VDC.append(value) def insert_VDC_at(self, index, value): self.VDC.insert(index, value) def replace_VDC_at(self, index, value): self.VDC[index] = value def has__content(self): if ( self.VDC ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VDC_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VDC_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VDC_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VDC_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VDC_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VDC_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VDC_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VDC_ in self.VDC: namespaceprefix_ = self.VDC_nsprefix_ + ':' if (UseCapturedNS_ and self.VDC_nsprefix_) else '' VDC_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VDC', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VDC': obj_ = VDC.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VDC.append(obj_) obj_.original_tagname_ = 'VDC' # end class VDC_POOL class VDC(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, GROUPS=None, CLUSTERS=None, HOSTS=None, DATASTORES=None, VNETS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.GROUPS = GROUPS self.GROUPS_nsprefix_ = None self.CLUSTERS = CLUSTERS self.CLUSTERS_nsprefix_ = None self.HOSTS = HOSTS self.HOSTS_nsprefix_ = None self.DATASTORES = DATASTORES self.DATASTORES_nsprefix_ = None self.VNETS = VNETS self.VNETS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VDC) if subclass is not None: return subclass(*args_, **kwargs_) if VDC.subclass: return VDC.subclass(*args_, **kwargs_) else: return VDC(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_GROUPS(self): return self.GROUPS def set_GROUPS(self, GROUPS): self.GROUPS = GROUPS def get_CLUSTERS(self): return self.CLUSTERS def set_CLUSTERS(self, CLUSTERS): self.CLUSTERS = CLUSTERS def get_HOSTS(self): return self.HOSTS def set_HOSTS(self, HOSTS): self.HOSTS = HOSTS def get_DATASTORES(self): return self.DATASTORES def set_DATASTORES(self, DATASTORES): self.DATASTORES = DATASTORES def get_VNETS(self): return self.VNETS def set_VNETS(self, VNETS): self.VNETS = VNETS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.NAME is not None or self.GROUPS is not None or self.CLUSTERS is not None or self.HOSTS is not None or self.DATASTORES is not None or self.VNETS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VDC', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VDC') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VDC': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VDC') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VDC', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VDC'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VDC', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.GROUPS is not None: namespaceprefix_ = self.GROUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUPS_nsprefix_) else '' self.GROUPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='GROUPS', pretty_print=pretty_print) if self.CLUSTERS is not None: namespaceprefix_ = self.CLUSTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTERS_nsprefix_) else '' self.CLUSTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTERS', pretty_print=pretty_print) if self.HOSTS is not None: namespaceprefix_ = self.HOSTS_nsprefix_ + ':' if (UseCapturedNS_ and self.HOSTS_nsprefix_) else '' self.HOSTS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOSTS', pretty_print=pretty_print) if self.DATASTORES is not None: namespaceprefix_ = self.DATASTORES_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORES_nsprefix_) else '' self.DATASTORES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORES', pretty_print=pretty_print) if self.VNETS is not None: namespaceprefix_ = self.VNETS_nsprefix_ + ':' if (UseCapturedNS_ and self.VNETS_nsprefix_) else '' self.VNETS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNETS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'GROUPS': obj_ = GROUPSType85.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.GROUPS = obj_ obj_.original_tagname_ = 'GROUPS' elif nodeName_ == 'CLUSTERS': obj_ = CLUSTERSType86.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTERS = obj_ obj_.original_tagname_ = 'CLUSTERS' elif nodeName_ == 'HOSTS': obj_ = HOSTSType87.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOSTS = obj_ obj_.original_tagname_ = 'HOSTS' elif nodeName_ == 'DATASTORES': obj_ = DATASTORESType88.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORES = obj_ obj_.original_tagname_ = 'DATASTORES' elif nodeName_ == 'VNETS': obj_ = VNETSType90.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNETS = obj_ obj_.original_tagname_ = 'VNETS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class VDC class VM_GROUP_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM_GROUP=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VM_GROUP is None: self.VM_GROUP = [] else: self.VM_GROUP = VM_GROUP self.VM_GROUP_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_GROUP_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VM_GROUP_POOL.subclass: return VM_GROUP_POOL.subclass(*args_, **kwargs_) else: return VM_GROUP_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM_GROUP(self): return self.VM_GROUP def set_VM_GROUP(self, VM_GROUP): self.VM_GROUP = VM_GROUP def add_VM_GROUP(self, value): self.VM_GROUP.append(value) def insert_VM_GROUP_at(self, index, value): self.VM_GROUP.insert(index, value) def replace_VM_GROUP_at(self, index, value): self.VM_GROUP[index] = value def has__content(self): if ( self.VM_GROUP ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_GROUP_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_GROUP_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_GROUP_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_GROUP_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_GROUP_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_GROUP_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_GROUP_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VM_GROUP_ in self.VM_GROUP: namespaceprefix_ = self.VM_GROUP_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_GROUP_nsprefix_) else '' VM_GROUP_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_GROUP', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM_GROUP': obj_ = VM_GROUP.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_GROUP.append(obj_) obj_.original_tagname_ = 'VM_GROUP' # end class VM_GROUP_POOL class VM_GROUP(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, LOCK=None, ROLES=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.ROLES = ROLES self.ROLES_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_GROUP) if subclass is not None: return subclass(*args_, **kwargs_) if VM_GROUP.subclass: return VM_GROUP.subclass(*args_, **kwargs_) else: return VM_GROUP(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_ROLES(self): return self.ROLES def set_ROLES(self, ROLES): self.ROLES = ROLES def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.LOCK is not None or self.ROLES is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_GROUP', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_GROUP') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_GROUP': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_GROUP') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_GROUP', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_GROUP'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_GROUP', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.ROLES is not None: namespaceprefix_ = self.ROLES_nsprefix_ + ':' if (UseCapturedNS_ and self.ROLES_nsprefix_) else '' self.ROLES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ROLES', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType91.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'LOCK': obj_ = LOCKType92.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'ROLES': obj_ = ROLESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ROLES = obj_ obj_.original_tagname_ = 'ROLES' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class VM_GROUP class VM_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VM is None: self.VM = [] else: self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VM_POOL.subclass: return VM_POOL.subclass(*args_, **kwargs_) else: return VM_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def add_VM(self, value): self.VM.append(value) def insert_VM_at(self, index, value): self.VM.insert(index, value) def replace_VM_at(self, index, value): self.VM[index] = value def has__content(self): if ( self.VM ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VM_ in self.VM: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' VM_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType93.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM.append(obj_) obj_.original_tagname_ = 'VM' # end class VM_POOL class VMTEMPLATE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VMTEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VMTEMPLATE is None: self.VMTEMPLATE = [] else: self.VMTEMPLATE = VMTEMPLATE self.VMTEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMTEMPLATE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VMTEMPLATE_POOL.subclass: return VMTEMPLATE_POOL.subclass(*args_, **kwargs_) else: return VMTEMPLATE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VMTEMPLATE(self): return self.VMTEMPLATE def set_VMTEMPLATE(self, VMTEMPLATE): self.VMTEMPLATE = VMTEMPLATE def add_VMTEMPLATE(self, value): self.VMTEMPLATE.append(value) def insert_VMTEMPLATE_at(self, index, value): self.VMTEMPLATE.insert(index, value) def replace_VMTEMPLATE_at(self, index, value): self.VMTEMPLATE[index] = value def has__content(self): if ( self.VMTEMPLATE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMTEMPLATE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMTEMPLATE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMTEMPLATE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMTEMPLATE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMTEMPLATE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMTEMPLATE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMTEMPLATE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VMTEMPLATE_ in self.VMTEMPLATE: namespaceprefix_ = self.VMTEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.VMTEMPLATE_nsprefix_) else '' VMTEMPLATE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VMTEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VMTEMPLATE': obj_ = VMTEMPLATE.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VMTEMPLATE.append(obj_) obj_.original_tagname_ = 'VMTEMPLATE' # end class VMTEMPLATE_POOL class VMTEMPLATE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LOCK=None, PERMISSIONS=None, REGTIME=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.REGTIME = REGTIME self.REGTIME_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMTEMPLATE) if subclass is not None: return subclass(*args_, **kwargs_) if VMTEMPLATE.subclass: return VMTEMPLATE.subclass(*args_, **kwargs_) else: return VMTEMPLATE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_REGTIME(self): return self.REGTIME def set_REGTIME(self, REGTIME): self.REGTIME = REGTIME def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LOCK is not None or self.PERMISSIONS is not None or self.REGTIME is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMTEMPLATE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMTEMPLATE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMTEMPLATE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMTEMPLATE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMTEMPLATE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMTEMPLATE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMTEMPLATE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.REGTIME is not None: namespaceprefix_ = self.REGTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.REGTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREGTIME>%s</%sREGTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.REGTIME, input_name='REGTIME'), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCKType96.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType97.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'REGTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REGTIME') ival_ = self.gds_validate_integer(ival_, node, 'REGTIME') self.REGTIME = ival_ self.REGTIME_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType98.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' # end class VMTEMPLATE class VM(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, LAST_POLL=None, STATE=None, LCM_STATE=None, PREV_STATE=None, PREV_LCM_STATE=None, RESCHED=None, STIME=None, ETIME=None, DEPLOY_ID=None, LOCK=None, MONITORING=None, SCHED_ACTIONS=None, TEMPLATE=None, USER_TEMPLATE=None, HISTORY_RECORDS=None, SNAPSHOTS=None, BACKUPS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.LAST_POLL = LAST_POLL self.LAST_POLL_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.LCM_STATE = LCM_STATE self.LCM_STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.PREV_LCM_STATE = PREV_LCM_STATE self.PREV_LCM_STATE_nsprefix_ = None self.RESCHED = RESCHED self.RESCHED_nsprefix_ = None self.STIME = STIME self.STIME_nsprefix_ = None self.ETIME = ETIME self.ETIME_nsprefix_ = None self.DEPLOY_ID = DEPLOY_ID self.DEPLOY_ID_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.MONITORING = MONITORING self.MONITORING_nsprefix_ = None self.SCHED_ACTIONS = SCHED_ACTIONS self.SCHED_ACTIONS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.USER_TEMPLATE = USER_TEMPLATE self.USER_TEMPLATE_nsprefix_ = None self.HISTORY_RECORDS = HISTORY_RECORDS self.HISTORY_RECORDS_nsprefix_ = None if SNAPSHOTS is None: self.SNAPSHOTS = [] else: self.SNAPSHOTS = SNAPSHOTS self.SNAPSHOTS_nsprefix_ = None self.BACKUPS = BACKUPS self.BACKUPS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM) if subclass is not None: return subclass(*args_, **kwargs_) if VM.subclass: return VM.subclass(*args_, **kwargs_) else: return VM(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_LAST_POLL(self): return self.LAST_POLL def set_LAST_POLL(self, LAST_POLL): self.LAST_POLL = LAST_POLL def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_LCM_STATE(self): return self.LCM_STATE def set_LCM_STATE(self, LCM_STATE): self.LCM_STATE = LCM_STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_PREV_LCM_STATE(self): return self.PREV_LCM_STATE def set_PREV_LCM_STATE(self, PREV_LCM_STATE): self.PREV_LCM_STATE = PREV_LCM_STATE def get_RESCHED(self): return self.RESCHED def set_RESCHED(self, RESCHED): self.RESCHED = RESCHED def get_STIME(self): return self.STIME def set_STIME(self, STIME): self.STIME = STIME def get_ETIME(self): return self.ETIME def set_ETIME(self, ETIME): self.ETIME = ETIME def get_DEPLOY_ID(self): return self.DEPLOY_ID def set_DEPLOY_ID(self, DEPLOY_ID): self.DEPLOY_ID = DEPLOY_ID def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_MONITORING(self): return self.MONITORING def set_MONITORING(self, MONITORING): self.MONITORING = MONITORING def get_SCHED_ACTIONS(self): return self.SCHED_ACTIONS def set_SCHED_ACTIONS(self, SCHED_ACTIONS): self.SCHED_ACTIONS = SCHED_ACTIONS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_USER_TEMPLATE(self): return self.USER_TEMPLATE def set_USER_TEMPLATE(self, USER_TEMPLATE): self.USER_TEMPLATE = USER_TEMPLATE def get_HISTORY_RECORDS(self): return self.HISTORY_RECORDS def set_HISTORY_RECORDS(self, HISTORY_RECORDS): self.HISTORY_RECORDS = HISTORY_RECORDS def get_SNAPSHOTS(self): return self.SNAPSHOTS def set_SNAPSHOTS(self, SNAPSHOTS): self.SNAPSHOTS = SNAPSHOTS def add_SNAPSHOTS(self, value): self.SNAPSHOTS.append(value) def insert_SNAPSHOTS_at(self, index, value): self.SNAPSHOTS.insert(index, value) def replace_SNAPSHOTS_at(self, index, value): self.SNAPSHOTS[index] = value def get_BACKUPS(self): return self.BACKUPS def set_BACKUPS(self, BACKUPS): self.BACKUPS = BACKUPS def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.LAST_POLL is not None or self.STATE is not None or self.LCM_STATE is not None or self.PREV_STATE is not None or self.PREV_LCM_STATE is not None or self.RESCHED is not None or self.STIME is not None or self.ETIME is not None or self.DEPLOY_ID is not None or self.LOCK is not None or self.MONITORING is not None or self.SCHED_ACTIONS is not None or self.TEMPLATE is not None or self.USER_TEMPLATE is not None or self.HISTORY_RECORDS is not None or self.SNAPSHOTS or self.BACKUPS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.LAST_POLL is not None: namespaceprefix_ = self.LAST_POLL_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_POLL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_POLL>%s</%sLAST_POLL>%s' % (namespaceprefix_ , self.gds_format_integer(self.LAST_POLL, input_name='LAST_POLL'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.LCM_STATE is not None: namespaceprefix_ = self.LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLCM_STATE>%s</%sLCM_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.LCM_STATE, input_name='LCM_STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.PREV_LCM_STATE is not None: namespaceprefix_ = self.PREV_LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_LCM_STATE>%s</%sPREV_LCM_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_LCM_STATE, input_name='PREV_LCM_STATE'), namespaceprefix_ , eol_)) if self.RESCHED is not None: namespaceprefix_ = self.RESCHED_nsprefix_ + ':' if (UseCapturedNS_ and self.RESCHED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESCHED>%s</%sRESCHED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RESCHED, input_name='RESCHED'), namespaceprefix_ , eol_)) if self.STIME is not None: namespaceprefix_ = self.STIME_nsprefix_ + ':' if (UseCapturedNS_ and self.STIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTIME>%s</%sSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.STIME, input_name='STIME'), namespaceprefix_ , eol_)) if self.ETIME is not None: namespaceprefix_ = self.ETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sETIME>%s</%sETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ETIME, input_name='ETIME'), namespaceprefix_ , eol_)) if self.DEPLOY_ID is not None: namespaceprefix_ = self.DEPLOY_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DEPLOY_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEPLOY_ID>%s</%sDEPLOY_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEPLOY_ID), input_name='DEPLOY_ID')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.MONITORING is not None: namespaceprefix_ = self.MONITORING_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_nsprefix_) else '' self.MONITORING.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MONITORING', pretty_print=pretty_print) if self.SCHED_ACTIONS is not None: namespaceprefix_ = self.SCHED_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTIONS_nsprefix_) else '' self.SCHED_ACTIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SCHED_ACTIONS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.USER_TEMPLATE is not None: namespaceprefix_ = self.USER_TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_TEMPLATE_nsprefix_) else '' self.USER_TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='USER_TEMPLATE', pretty_print=pretty_print) if self.HISTORY_RECORDS is not None: namespaceprefix_ = self.HISTORY_RECORDS_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_RECORDS_nsprefix_) else '' self.HISTORY_RECORDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY_RECORDS', pretty_print=pretty_print) for SNAPSHOTS_ in self.SNAPSHOTS: namespaceprefix_ = self.SNAPSHOTS_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOTS_nsprefix_) else '' SNAPSHOTS_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOTS', pretty_print=pretty_print) if self.BACKUPS is not None: namespaceprefix_ = self.BACKUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUPS_nsprefix_) else '' self.BACKUPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUPS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'LAST_POLL' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LAST_POLL') ival_ = self.gds_validate_integer(ival_, node, 'LAST_POLL') self.LAST_POLL = ival_ self.LAST_POLL_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'LCM_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LCM_STATE') ival_ = self.gds_validate_integer(ival_, node, 'LCM_STATE') self.LCM_STATE = ival_ self.LCM_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_LCM_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_LCM_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_LCM_STATE') self.PREV_LCM_STATE = ival_ self.PREV_LCM_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'RESCHED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RESCHED') ival_ = self.gds_validate_integer(ival_, node, 'RESCHED') self.RESCHED = ival_ self.RESCHED_nsprefix_ = child_.prefix elif nodeName_ == 'STIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STIME') ival_ = self.gds_validate_integer(ival_, node, 'STIME') self.STIME = ival_ self.STIME_nsprefix_ = child_.prefix elif nodeName_ == 'ETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ETIME') ival_ = self.gds_validate_integer(ival_, node, 'ETIME') self.ETIME = ival_ self.ETIME_nsprefix_ = child_.prefix elif nodeName_ == 'DEPLOY_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEPLOY_ID') value_ = self.gds_validate_string(value_, node, 'DEPLOY_ID') self.DEPLOY_ID = value_ self.DEPLOY_ID_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCK.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'MONITORING': obj_ = MONITORINGType99.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MONITORING = obj_ obj_.original_tagname_ = 'MONITORING' elif nodeName_ == 'SCHED_ACTIONS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SCHED_ACTIONS = obj_ obj_.original_tagname_ = 'SCHED_ACTIONS' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType101.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'USER_TEMPLATE': obj_ = USER_TEMPLATEType105.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.USER_TEMPLATE = obj_ obj_.original_tagname_ = 'USER_TEMPLATE' elif nodeName_ == 'HISTORY_RECORDS': obj_ = HISTORY_RECORDSType106.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY_RECORDS = obj_ obj_.original_tagname_ = 'HISTORY_RECORDS' elif nodeName_ == 'SNAPSHOTS': obj_ = SNAPSHOTSType108.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOTS.append(obj_) obj_.original_tagname_ = 'SNAPSHOTS' elif nodeName_ == 'BACKUPS': obj_ = BACKUPSType110.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUPS = obj_ obj_.original_tagname_ = 'BACKUPS' # end class VM class VNET_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VNET=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VNET is None: self.VNET = [] else: self.VNET = VNET self.VNET_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNET_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VNET_POOL.subclass: return VNET_POOL.subclass(*args_, **kwargs_) else: return VNET_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VNET(self): return self.VNET def set_VNET(self, VNET): self.VNET = VNET def add_VNET(self, value): self.VNET.append(value) def insert_VNET_at(self, index, value): self.VNET.insert(index, value) def replace_VNET_at(self, index, value): self.VNET[index] = value def has__content(self): if ( self.VNET ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNET_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNET_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNET_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNET_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNET_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNET_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNET_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VNET_ in self.VNET: namespaceprefix_ = self.VNET_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_nsprefix_) else '' VNET_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNET', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VNET': obj_ = VNETType112.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNET.append(obj_) obj_.original_tagname_ = 'VNET' # end class VNET_POOL class VNET(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LOCK=None, PERMISSIONS=None, CLUSTERS=None, BRIDGE=None, BRIDGE_TYPE=None, STATE=None, PREV_STATE=None, PARENT_NETWORK_ID=None, VN_MAD=None, PHYDEV=None, VLAN_ID=None, OUTER_VLAN_ID=None, VLAN_ID_AUTOMATIC=None, OUTER_VLAN_ID_AUTOMATIC=None, USED_LEASES=None, VROUTERS=None, UPDATED_VMS=None, OUTDATED_VMS=None, UPDATING_VMS=None, ERROR_VMS=None, TEMPLATE=None, AR_POOL=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.CLUSTERS = CLUSTERS self.CLUSTERS_nsprefix_ = None self.BRIDGE = BRIDGE self.BRIDGE_nsprefix_ = None self.BRIDGE_TYPE = BRIDGE_TYPE self.BRIDGE_TYPE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.PARENT_NETWORK_ID = PARENT_NETWORK_ID self.PARENT_NETWORK_ID_nsprefix_ = None self.VN_MAD = VN_MAD self.VN_MAD_nsprefix_ = None self.PHYDEV = PHYDEV self.PHYDEV_nsprefix_ = None self.VLAN_ID = VLAN_ID self.VLAN_ID_nsprefix_ = None self.OUTER_VLAN_ID = OUTER_VLAN_ID self.OUTER_VLAN_ID_nsprefix_ = None self.VLAN_ID_AUTOMATIC = VLAN_ID_AUTOMATIC self.VLAN_ID_AUTOMATIC_nsprefix_ = None self.OUTER_VLAN_ID_AUTOMATIC = OUTER_VLAN_ID_AUTOMATIC self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ = None self.USED_LEASES = USED_LEASES self.USED_LEASES_nsprefix_ = None self.VROUTERS = VROUTERS self.VROUTERS_nsprefix_ = None self.UPDATED_VMS = UPDATED_VMS self.UPDATED_VMS_nsprefix_ = None self.OUTDATED_VMS = OUTDATED_VMS self.OUTDATED_VMS_nsprefix_ = None self.UPDATING_VMS = UPDATING_VMS self.UPDATING_VMS_nsprefix_ = None self.ERROR_VMS = ERROR_VMS self.ERROR_VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.AR_POOL = AR_POOL self.AR_POOL_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNET) if subclass is not None: return subclass(*args_, **kwargs_) if VNET.subclass: return VNET.subclass(*args_, **kwargs_) else: return VNET(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_CLUSTERS(self): return self.CLUSTERS def set_CLUSTERS(self, CLUSTERS): self.CLUSTERS = CLUSTERS def get_BRIDGE(self): return self.BRIDGE def set_BRIDGE(self, BRIDGE): self.BRIDGE = BRIDGE def get_BRIDGE_TYPE(self): return self.BRIDGE_TYPE def set_BRIDGE_TYPE(self, BRIDGE_TYPE): self.BRIDGE_TYPE = BRIDGE_TYPE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_PARENT_NETWORK_ID(self): return self.PARENT_NETWORK_ID def set_PARENT_NETWORK_ID(self, PARENT_NETWORK_ID): self.PARENT_NETWORK_ID = PARENT_NETWORK_ID def get_VN_MAD(self): return self.VN_MAD def set_VN_MAD(self, VN_MAD): self.VN_MAD = VN_MAD def get_PHYDEV(self): return self.PHYDEV def set_PHYDEV(self, PHYDEV): self.PHYDEV = PHYDEV def get_VLAN_ID(self): return self.VLAN_ID def set_VLAN_ID(self, VLAN_ID): self.VLAN_ID = VLAN_ID def get_OUTER_VLAN_ID(self): return self.OUTER_VLAN_ID def set_OUTER_VLAN_ID(self, OUTER_VLAN_ID): self.OUTER_VLAN_ID = OUTER_VLAN_ID def get_VLAN_ID_AUTOMATIC(self): return self.VLAN_ID_AUTOMATIC def set_VLAN_ID_AUTOMATIC(self, VLAN_ID_AUTOMATIC): self.VLAN_ID_AUTOMATIC = VLAN_ID_AUTOMATIC def get_OUTER_VLAN_ID_AUTOMATIC(self): return self.OUTER_VLAN_ID_AUTOMATIC def set_OUTER_VLAN_ID_AUTOMATIC(self, OUTER_VLAN_ID_AUTOMATIC): self.OUTER_VLAN_ID_AUTOMATIC = OUTER_VLAN_ID_AUTOMATIC def get_USED_LEASES(self): return self.USED_LEASES def set_USED_LEASES(self, USED_LEASES): self.USED_LEASES = USED_LEASES def get_VROUTERS(self): return self.VROUTERS def set_VROUTERS(self, VROUTERS): self.VROUTERS = VROUTERS def get_UPDATED_VMS(self): return self.UPDATED_VMS def set_UPDATED_VMS(self, UPDATED_VMS): self.UPDATED_VMS = UPDATED_VMS def get_OUTDATED_VMS(self): return self.OUTDATED_VMS def set_OUTDATED_VMS(self, OUTDATED_VMS): self.OUTDATED_VMS = OUTDATED_VMS def get_UPDATING_VMS(self): return self.UPDATING_VMS def set_UPDATING_VMS(self, UPDATING_VMS): self.UPDATING_VMS = UPDATING_VMS def get_ERROR_VMS(self): return self.ERROR_VMS def set_ERROR_VMS(self, ERROR_VMS): self.ERROR_VMS = ERROR_VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_AR_POOL(self): return self.AR_POOL def set_AR_POOL(self, AR_POOL): self.AR_POOL = AR_POOL def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LOCK is not None or self.PERMISSIONS is not None or self.CLUSTERS is not None or self.BRIDGE is not None or self.BRIDGE_TYPE is not None or self.STATE is not None or self.PREV_STATE is not None or self.PARENT_NETWORK_ID is not None or self.VN_MAD is not None or self.PHYDEV is not None or self.VLAN_ID is not None or self.OUTER_VLAN_ID is not None or self.VLAN_ID_AUTOMATIC is not None or self.OUTER_VLAN_ID_AUTOMATIC is not None or self.USED_LEASES is not None or self.VROUTERS is not None or self.UPDATED_VMS is not None or self.OUTDATED_VMS is not None or self.UPDATING_VMS is not None or self.ERROR_VMS is not None or self.TEMPLATE is not None or self.AR_POOL is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNET', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNET') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNET': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNET') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNET', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNET'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNET', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.CLUSTERS is not None: namespaceprefix_ = self.CLUSTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTERS_nsprefix_) else '' self.CLUSTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTERS', pretty_print=pretty_print) if self.BRIDGE is not None: namespaceprefix_ = self.BRIDGE_nsprefix_ + ':' if (UseCapturedNS_ and self.BRIDGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBRIDGE>%s</%sBRIDGE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BRIDGE), input_name='BRIDGE')), namespaceprefix_ , eol_)) if self.BRIDGE_TYPE is not None: namespaceprefix_ = self.BRIDGE_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.BRIDGE_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBRIDGE_TYPE>%s</%sBRIDGE_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BRIDGE_TYPE), input_name='BRIDGE_TYPE')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.PARENT_NETWORK_ID is not None: namespaceprefix_ = self.PARENT_NETWORK_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_NETWORK_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_NETWORK_ID>%s</%sPARENT_NETWORK_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT_NETWORK_ID), input_name='PARENT_NETWORK_ID')), namespaceprefix_ , eol_)) if self.VN_MAD is not None: namespaceprefix_ = self.VN_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVN_MAD>%s</%sVN_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VN_MAD), input_name='VN_MAD')), namespaceprefix_ , eol_)) if self.PHYDEV is not None: namespaceprefix_ = self.PHYDEV_nsprefix_ + ':' if (UseCapturedNS_ and self.PHYDEV_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPHYDEV>%s</%sPHYDEV>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PHYDEV), input_name='PHYDEV')), namespaceprefix_ , eol_)) if self.VLAN_ID is not None: namespaceprefix_ = self.VLAN_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VLAN_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVLAN_ID>%s</%sVLAN_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VLAN_ID), input_name='VLAN_ID')), namespaceprefix_ , eol_)) if self.OUTER_VLAN_ID is not None: namespaceprefix_ = self.OUTER_VLAN_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTER_VLAN_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOUTER_VLAN_ID>%s</%sOUTER_VLAN_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.OUTER_VLAN_ID), input_name='OUTER_VLAN_ID')), namespaceprefix_ , eol_)) if self.VLAN_ID_AUTOMATIC is not None: namespaceprefix_ = self.VLAN_ID_AUTOMATIC_nsprefix_ + ':' if (UseCapturedNS_ and self.VLAN_ID_AUTOMATIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVLAN_ID_AUTOMATIC>%s</%sVLAN_ID_AUTOMATIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VLAN_ID_AUTOMATIC), input_name='VLAN_ID_AUTOMATIC')), namespaceprefix_ , eol_)) if self.OUTER_VLAN_ID_AUTOMATIC is not None: namespaceprefix_ = self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOUTER_VLAN_ID_AUTOMATIC>%s</%sOUTER_VLAN_ID_AUTOMATIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.OUTER_VLAN_ID_AUTOMATIC), input_name='OUTER_VLAN_ID_AUTOMATIC')), namespaceprefix_ , eol_)) if self.USED_LEASES is not None: namespaceprefix_ = self.USED_LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_LEASES>%s</%sUSED_LEASES>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_LEASES, input_name='USED_LEASES'), namespaceprefix_ , eol_)) if self.VROUTERS is not None: namespaceprefix_ = self.VROUTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTERS_nsprefix_) else '' self.VROUTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VROUTERS', pretty_print=pretty_print) if self.UPDATED_VMS is not None: namespaceprefix_ = self.UPDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATED_VMS_nsprefix_) else '' self.UPDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATED_VMS', pretty_print=pretty_print) if self.OUTDATED_VMS is not None: namespaceprefix_ = self.OUTDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTDATED_VMS_nsprefix_) else '' self.OUTDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='OUTDATED_VMS', pretty_print=pretty_print) if self.UPDATING_VMS is not None: namespaceprefix_ = self.UPDATING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATING_VMS_nsprefix_) else '' self.UPDATING_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATING_VMS', pretty_print=pretty_print) if self.ERROR_VMS is not None: namespaceprefix_ = self.ERROR_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_VMS_nsprefix_) else '' self.ERROR_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ERROR_VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.AR_POOL is not None: namespaceprefix_ = self.AR_POOL_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_POOL_nsprefix_) else '' self.AR_POOL.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AR_POOL', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCKType119.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType120.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'CLUSTERS': obj_ = CLUSTERSType121.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTERS = obj_ obj_.original_tagname_ = 'CLUSTERS' elif nodeName_ == 'BRIDGE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BRIDGE') value_ = self.gds_validate_string(value_, node, 'BRIDGE') self.BRIDGE = value_ self.BRIDGE_nsprefix_ = child_.prefix elif nodeName_ == 'BRIDGE_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BRIDGE_TYPE') value_ = self.gds_validate_string(value_, node, 'BRIDGE_TYPE') self.BRIDGE_TYPE = value_ self.BRIDGE_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_NETWORK_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT_NETWORK_ID') value_ = self.gds_validate_string(value_, node, 'PARENT_NETWORK_ID') self.PARENT_NETWORK_ID = value_ self.PARENT_NETWORK_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VN_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VN_MAD') value_ = self.gds_validate_string(value_, node, 'VN_MAD') self.VN_MAD = value_ self.VN_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'PHYDEV': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PHYDEV') value_ = self.gds_validate_string(value_, node, 'PHYDEV') self.PHYDEV = value_ self.PHYDEV_nsprefix_ = child_.prefix elif nodeName_ == 'VLAN_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VLAN_ID') value_ = self.gds_validate_string(value_, node, 'VLAN_ID') self.VLAN_ID = value_ self.VLAN_ID_nsprefix_ = child_.prefix elif nodeName_ == 'OUTER_VLAN_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'OUTER_VLAN_ID') value_ = self.gds_validate_string(value_, node, 'OUTER_VLAN_ID') self.OUTER_VLAN_ID = value_ self.OUTER_VLAN_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VLAN_ID_AUTOMATIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VLAN_ID_AUTOMATIC') value_ = self.gds_validate_string(value_, node, 'VLAN_ID_AUTOMATIC') self.VLAN_ID_AUTOMATIC = value_ self.VLAN_ID_AUTOMATIC_nsprefix_ = child_.prefix elif nodeName_ == 'OUTER_VLAN_ID_AUTOMATIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'OUTER_VLAN_ID_AUTOMATIC') value_ = self.gds_validate_string(value_, node, 'OUTER_VLAN_ID_AUTOMATIC') self.OUTER_VLAN_ID_AUTOMATIC = value_ self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ = child_.prefix elif nodeName_ == 'USED_LEASES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_LEASES') ival_ = self.gds_validate_integer(ival_, node, 'USED_LEASES') self.USED_LEASES = ival_ self.USED_LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTERS': obj_ = VROUTERSType122.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VROUTERS = obj_ obj_.original_tagname_ = 'VROUTERS' elif nodeName_ == 'UPDATED_VMS': obj_ = UPDATED_VMSType123.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATED_VMS = obj_ obj_.original_tagname_ = 'UPDATED_VMS' elif nodeName_ == 'OUTDATED_VMS': obj_ = OUTDATED_VMSType124.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.OUTDATED_VMS = obj_ obj_.original_tagname_ = 'OUTDATED_VMS' elif nodeName_ == 'UPDATING_VMS': obj_ = UPDATING_VMSType125.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATING_VMS = obj_ obj_.original_tagname_ = 'UPDATING_VMS' elif nodeName_ == 'ERROR_VMS': obj_ = ERROR_VMSType126.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ERROR_VMS = obj_ obj_.original_tagname_ = 'ERROR_VMS' elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType127.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'AR_POOL': obj_ = AR_POOLType128.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AR_POOL = obj_ obj_.original_tagname_ = 'AR_POOL' # end class VNET class VNTEMPLATE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VNTEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VNTEMPLATE is None: self.VNTEMPLATE = [] else: self.VNTEMPLATE = VNTEMPLATE self.VNTEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNTEMPLATE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VNTEMPLATE_POOL.subclass: return VNTEMPLATE_POOL.subclass(*args_, **kwargs_) else: return VNTEMPLATE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VNTEMPLATE(self): return self.VNTEMPLATE def set_VNTEMPLATE(self, VNTEMPLATE): self.VNTEMPLATE = VNTEMPLATE def add_VNTEMPLATE(self, value): self.VNTEMPLATE.append(value) def insert_VNTEMPLATE_at(self, index, value): self.VNTEMPLATE.insert(index, value) def replace_VNTEMPLATE_at(self, index, value): self.VNTEMPLATE[index] = value def has__content(self): if ( self.VNTEMPLATE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNTEMPLATE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNTEMPLATE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNTEMPLATE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNTEMPLATE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNTEMPLATE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNTEMPLATE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNTEMPLATE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VNTEMPLATE_ in self.VNTEMPLATE: namespaceprefix_ = self.VNTEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.VNTEMPLATE_nsprefix_) else '' VNTEMPLATE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNTEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VNTEMPLATE': obj_ = VNTEMPLATE.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNTEMPLATE.append(obj_) obj_.original_tagname_ = 'VNTEMPLATE' # end class VNTEMPLATE_POOL class VNTEMPLATE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LOCK=None, PERMISSIONS=None, REGTIME=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.REGTIME = REGTIME self.REGTIME_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNTEMPLATE) if subclass is not None: return subclass(*args_, **kwargs_) if VNTEMPLATE.subclass: return VNTEMPLATE.subclass(*args_, **kwargs_) else: return VNTEMPLATE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_REGTIME(self): return self.REGTIME def set_REGTIME(self, REGTIME): self.REGTIME = REGTIME def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LOCK is not None or self.PERMISSIONS is not None or self.REGTIME is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNTEMPLATE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNTEMPLATE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNTEMPLATE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNTEMPLATE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNTEMPLATE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNTEMPLATE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNTEMPLATE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.REGTIME is not None: namespaceprefix_ = self.REGTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.REGTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREGTIME>%s</%sREGTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.REGTIME, input_name='REGTIME'), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LOCK': obj_ = LOCKType130.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType131.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'REGTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REGTIME') ival_ = self.gds_validate_integer(ival_, node, 'REGTIME') self.REGTIME = ival_ self.REGTIME_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType132.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' # end class VNTEMPLATE class VROUTER_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VROUTER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VROUTER is None: self.VROUTER = [] else: self.VROUTER = VROUTER self.VROUTER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VROUTER_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if VROUTER_POOL.subclass: return VROUTER_POOL.subclass(*args_, **kwargs_) else: return VROUTER_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VROUTER(self): return self.VROUTER def set_VROUTER(self, VROUTER): self.VROUTER = VROUTER def add_VROUTER(self, value): self.VROUTER.append(value) def insert_VROUTER_at(self, index, value): self.VROUTER.insert(index, value) def replace_VROUTER_at(self, index, value): self.VROUTER[index] = value def has__content(self): if ( self.VROUTER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTER_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VROUTER_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VROUTER_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VROUTER_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VROUTER_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VROUTER_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTER_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VROUTER_ in self.VROUTER: namespaceprefix_ = self.VROUTER_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTER_nsprefix_) else '' VROUTER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VROUTER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VROUTER': obj_ = VROUTER.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VROUTER.append(obj_) obj_.original_tagname_ = 'VROUTER' # end class VROUTER_POOL class VROUTER(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, LOCK=None, VMS=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.LOCK = LOCK self.LOCK_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VROUTER) if subclass is not None: return subclass(*args_, **kwargs_) if VROUTER.subclass: return VROUTER.subclass(*args_, **kwargs_) else: return VROUTER(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_LOCK(self): return self.LOCK def set_LOCK(self, LOCK): self.LOCK = LOCK def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.LOCK is not None or self.VMS is not None or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTER', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VROUTER') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VROUTER': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VROUTER') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VROUTER', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VROUTER'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTER', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.LOCK is not None: namespaceprefix_ = self.LOCK_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCK_nsprefix_) else '' self.LOCK.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOCK', pretty_print=pretty_print) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' self.VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType133.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'LOCK': obj_ = LOCKType134.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOCK = obj_ obj_.original_tagname_ = 'LOCK' elif nodeName_ == 'VMS': obj_ = VMSType135.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VMS = obj_ obj_.original_tagname_ = 'VMS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class VROUTER class ZONE_POOL(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ZONE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ZONE is None: self.ZONE = [] else: self.ZONE = ZONE self.ZONE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ZONE_POOL) if subclass is not None: return subclass(*args_, **kwargs_) if ZONE_POOL.subclass: return ZONE_POOL.subclass(*args_, **kwargs_) else: return ZONE_POOL(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ZONE(self): return self.ZONE def set_ZONE(self, ZONE): self.ZONE = ZONE def add_ZONE(self, value): self.ZONE.append(value) def insert_ZONE_at(self, index, value): self.ZONE.insert(index, value) def replace_ZONE_at(self, index, value): self.ZONE[index] = value def has__content(self): if ( self.ZONE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONE_POOL', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ZONE_POOL') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ZONE_POOL': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ZONE_POOL') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ZONE_POOL', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ZONE_POOL'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONE_POOL', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ZONE_ in self.ZONE: namespaceprefix_ = self.ZONE_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_nsprefix_) else '' ZONE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ZONE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ZONE': obj_ = ZONEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ZONE.append(obj_) obj_.original_tagname_ = 'ZONE' # end class ZONE_POOL class ZONE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, STATE=None, TEMPLATE=None, SERVER_POOL=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.SERVER_POOL = SERVER_POOL self.SERVER_POOL_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ZONE) if subclass is not None: return subclass(*args_, **kwargs_) if ZONE.subclass: return ZONE.subclass(*args_, **kwargs_) else: return ZONE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_SERVER_POOL(self): return self.SERVER_POOL def set_SERVER_POOL(self, SERVER_POOL): self.SERVER_POOL = SERVER_POOL def has__content(self): if ( self.ID is not None or self.NAME is not None or self.STATE is not None or self.TEMPLATE is not None or self.SERVER_POOL is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ZONE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ZONE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ZONE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ZONE', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ZONE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONE', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.SERVER_POOL is not None: namespaceprefix_ = self.SERVER_POOL_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_POOL_nsprefix_) else '' self.SERVER_POOL.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SERVER_POOL', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType137.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'SERVER_POOL': obj_ = SERVER_POOLType138.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SERVER_POOL = obj_ obj_.original_tagname_ = 'SERVER_POOL' # end class ZONE class VMType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, LAST_POLL=None, STATE=None, LCM_STATE=None, PREV_STATE=None, PREV_LCM_STATE=None, RESCHED=None, STIME=None, ETIME=None, DEPLOY_ID=None, MONITORING=None, SCHED_ACTIONS=None, TEMPLATE=None, USER_TEMPLATE=None, HISTORY_RECORDS=None, SNAPSHOTS=None, BACKUPS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.LAST_POLL = LAST_POLL self.LAST_POLL_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.LCM_STATE = LCM_STATE self.LCM_STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.PREV_LCM_STATE = PREV_LCM_STATE self.PREV_LCM_STATE_nsprefix_ = None self.RESCHED = RESCHED self.RESCHED_nsprefix_ = None self.STIME = STIME self.STIME_nsprefix_ = None self.ETIME = ETIME self.ETIME_nsprefix_ = None self.DEPLOY_ID = DEPLOY_ID self.DEPLOY_ID_nsprefix_ = None self.MONITORING = MONITORING self.MONITORING_nsprefix_ = None self.SCHED_ACTIONS = SCHED_ACTIONS self.SCHED_ACTIONS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.USER_TEMPLATE = USER_TEMPLATE self.USER_TEMPLATE_nsprefix_ = None self.HISTORY_RECORDS = HISTORY_RECORDS self.HISTORY_RECORDS_nsprefix_ = None if SNAPSHOTS is None: self.SNAPSHOTS = [] else: self.SNAPSHOTS = SNAPSHOTS self.SNAPSHOTS_nsprefix_ = None self.BACKUPS = BACKUPS self.BACKUPS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType) if subclass is not None: return subclass(*args_, **kwargs_) if VMType.subclass: return VMType.subclass(*args_, **kwargs_) else: return VMType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_LAST_POLL(self): return self.LAST_POLL def set_LAST_POLL(self, LAST_POLL): self.LAST_POLL = LAST_POLL def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_LCM_STATE(self): return self.LCM_STATE def set_LCM_STATE(self, LCM_STATE): self.LCM_STATE = LCM_STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_PREV_LCM_STATE(self): return self.PREV_LCM_STATE def set_PREV_LCM_STATE(self, PREV_LCM_STATE): self.PREV_LCM_STATE = PREV_LCM_STATE def get_RESCHED(self): return self.RESCHED def set_RESCHED(self, RESCHED): self.RESCHED = RESCHED def get_STIME(self): return self.STIME def set_STIME(self, STIME): self.STIME = STIME def get_ETIME(self): return self.ETIME def set_ETIME(self, ETIME): self.ETIME = ETIME def get_DEPLOY_ID(self): return self.DEPLOY_ID def set_DEPLOY_ID(self, DEPLOY_ID): self.DEPLOY_ID = DEPLOY_ID def get_MONITORING(self): return self.MONITORING def set_MONITORING(self, MONITORING): self.MONITORING = MONITORING def get_SCHED_ACTIONS(self): return self.SCHED_ACTIONS def set_SCHED_ACTIONS(self, SCHED_ACTIONS): self.SCHED_ACTIONS = SCHED_ACTIONS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_USER_TEMPLATE(self): return self.USER_TEMPLATE def set_USER_TEMPLATE(self, USER_TEMPLATE): self.USER_TEMPLATE = USER_TEMPLATE def get_HISTORY_RECORDS(self): return self.HISTORY_RECORDS def set_HISTORY_RECORDS(self, HISTORY_RECORDS): self.HISTORY_RECORDS = HISTORY_RECORDS def get_SNAPSHOTS(self): return self.SNAPSHOTS def set_SNAPSHOTS(self, SNAPSHOTS): self.SNAPSHOTS = SNAPSHOTS def add_SNAPSHOTS(self, value): self.SNAPSHOTS.append(value) def insert_SNAPSHOTS_at(self, index, value): self.SNAPSHOTS.insert(index, value) def replace_SNAPSHOTS_at(self, index, value): self.SNAPSHOTS[index] = value def get_BACKUPS(self): return self.BACKUPS def set_BACKUPS(self, BACKUPS): self.BACKUPS = BACKUPS def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.LAST_POLL is not None or self.STATE is not None or self.LCM_STATE is not None or self.PREV_STATE is not None or self.PREV_LCM_STATE is not None or self.RESCHED is not None or self.STIME is not None or self.ETIME is not None or self.DEPLOY_ID is not None or self.MONITORING is not None or self.SCHED_ACTIONS is not None or self.TEMPLATE is not None or self.USER_TEMPLATE is not None or self.HISTORY_RECORDS is not None or self.SNAPSHOTS or self.BACKUPS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.LAST_POLL is not None: namespaceprefix_ = self.LAST_POLL_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_POLL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_POLL>%s</%sLAST_POLL>%s' % (namespaceprefix_ , self.gds_format_integer(self.LAST_POLL, input_name='LAST_POLL'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.LCM_STATE is not None: namespaceprefix_ = self.LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLCM_STATE>%s</%sLCM_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.LCM_STATE, input_name='LCM_STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.PREV_LCM_STATE is not None: namespaceprefix_ = self.PREV_LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_LCM_STATE>%s</%sPREV_LCM_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_LCM_STATE, input_name='PREV_LCM_STATE'), namespaceprefix_ , eol_)) if self.RESCHED is not None: namespaceprefix_ = self.RESCHED_nsprefix_ + ':' if (UseCapturedNS_ and self.RESCHED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESCHED>%s</%sRESCHED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RESCHED, input_name='RESCHED'), namespaceprefix_ , eol_)) if self.STIME is not None: namespaceprefix_ = self.STIME_nsprefix_ + ':' if (UseCapturedNS_ and self.STIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTIME>%s</%sSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.STIME, input_name='STIME'), namespaceprefix_ , eol_)) if self.ETIME is not None: namespaceprefix_ = self.ETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sETIME>%s</%sETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ETIME, input_name='ETIME'), namespaceprefix_ , eol_)) if self.DEPLOY_ID is not None: namespaceprefix_ = self.DEPLOY_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DEPLOY_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEPLOY_ID>%s</%sDEPLOY_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEPLOY_ID), input_name='DEPLOY_ID')), namespaceprefix_ , eol_)) if self.MONITORING is not None: namespaceprefix_ = self.MONITORING_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONITORING>%s</%sMONITORING>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MONITORING), input_name='MONITORING')), namespaceprefix_ , eol_)) if self.SCHED_ACTIONS is not None: namespaceprefix_ = self.SCHED_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_ACTIONS>%s</%sSCHED_ACTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_ACTIONS), input_name='SCHED_ACTIONS')), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) if self.USER_TEMPLATE is not None: namespaceprefix_ = self.USER_TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER_TEMPLATE>%s</%sUSER_TEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USER_TEMPLATE), input_name='USER_TEMPLATE')), namespaceprefix_ , eol_)) if self.HISTORY_RECORDS is not None: namespaceprefix_ = self.HISTORY_RECORDS_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_RECORDS_nsprefix_) else '' self.HISTORY_RECORDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY_RECORDS', pretty_print=pretty_print) for SNAPSHOTS_ in self.SNAPSHOTS: namespaceprefix_ = self.SNAPSHOTS_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOTS_nsprefix_) else '' SNAPSHOTS_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOTS', pretty_print=pretty_print) if self.BACKUPS is not None: namespaceprefix_ = self.BACKUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUPS_nsprefix_) else '' self.BACKUPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUPS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'LAST_POLL' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LAST_POLL') ival_ = self.gds_validate_integer(ival_, node, 'LAST_POLL') self.LAST_POLL = ival_ self.LAST_POLL_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'LCM_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LCM_STATE') ival_ = self.gds_validate_integer(ival_, node, 'LCM_STATE') self.LCM_STATE = ival_ self.LCM_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_LCM_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_LCM_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_LCM_STATE') self.PREV_LCM_STATE = ival_ self.PREV_LCM_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'RESCHED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RESCHED') ival_ = self.gds_validate_integer(ival_, node, 'RESCHED') self.RESCHED = ival_ self.RESCHED_nsprefix_ = child_.prefix elif nodeName_ == 'STIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STIME') ival_ = self.gds_validate_integer(ival_, node, 'STIME') self.STIME = ival_ self.STIME_nsprefix_ = child_.prefix elif nodeName_ == 'ETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ETIME') ival_ = self.gds_validate_integer(ival_, node, 'ETIME') self.ETIME = ival_ self.ETIME_nsprefix_ = child_.prefix elif nodeName_ == 'DEPLOY_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEPLOY_ID') value_ = self.gds_validate_string(value_, node, 'DEPLOY_ID') self.DEPLOY_ID = value_ self.DEPLOY_ID_nsprefix_ = child_.prefix elif nodeName_ == 'MONITORING': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MONITORING') value_ = self.gds_validate_string(value_, node, 'MONITORING') self.MONITORING = value_ self.MONITORING_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_ACTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_ACTIONS') value_ = self.gds_validate_string(value_, node, 'SCHED_ACTIONS') self.SCHED_ACTIONS = value_ self.SCHED_ACTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'USER_TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER_TEMPLATE') value_ = self.gds_validate_string(value_, node, 'USER_TEMPLATE') self.USER_TEMPLATE = value_ self.USER_TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'HISTORY_RECORDS': obj_ = HISTORY_RECORDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY_RECORDS = obj_ obj_.original_tagname_ = 'HISTORY_RECORDS' elif nodeName_ == 'SNAPSHOTS': obj_ = SNAPSHOTSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOTS.append(obj_) obj_.original_tagname_ = 'SNAPSHOTS' elif nodeName_ == 'BACKUPS': obj_ = BACKUPSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUPS = obj_ obj_.original_tagname_ = 'BACKUPS' # end class VMType class MONITORING(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORING) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORING.subclass: return MONITORING.subclass(*args_, **kwargs_) else: return MONITORING(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='MONITORING', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORING') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORING': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORING') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORING', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORING'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='MONITORING', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class MONITORING class PERMISSIONSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType.subclass: return PERMISSIONSType.subclass(*args_, **kwargs_) else: return PERMISSIONSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType class SNAPSHOTSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALLOW_ORPHANS=None, CURRENT_BASE=None, DISK_ID=None, NEXT_SNAPSHOT=None, SNAPSHOT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALLOW_ORPHANS = ALLOW_ORPHANS self.ALLOW_ORPHANS_nsprefix_ = None self.CURRENT_BASE = CURRENT_BASE self.CURRENT_BASE_nsprefix_ = None self.DISK_ID = DISK_ID self.DISK_ID_nsprefix_ = None self.NEXT_SNAPSHOT = NEXT_SNAPSHOT self.NEXT_SNAPSHOT_nsprefix_ = None if SNAPSHOT is None: self.SNAPSHOT = [] else: self.SNAPSHOT = SNAPSHOT self.SNAPSHOT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTSType) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTSType.subclass: return SNAPSHOTSType.subclass(*args_, **kwargs_) else: return SNAPSHOTSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALLOW_ORPHANS(self): return self.ALLOW_ORPHANS def set_ALLOW_ORPHANS(self, ALLOW_ORPHANS): self.ALLOW_ORPHANS = ALLOW_ORPHANS def get_CURRENT_BASE(self): return self.CURRENT_BASE def set_CURRENT_BASE(self, CURRENT_BASE): self.CURRENT_BASE = CURRENT_BASE def get_DISK_ID(self): return self.DISK_ID def set_DISK_ID(self, DISK_ID): self.DISK_ID = DISK_ID def get_NEXT_SNAPSHOT(self): return self.NEXT_SNAPSHOT def set_NEXT_SNAPSHOT(self, NEXT_SNAPSHOT): self.NEXT_SNAPSHOT = NEXT_SNAPSHOT def get_SNAPSHOT(self): return self.SNAPSHOT def set_SNAPSHOT(self, SNAPSHOT): self.SNAPSHOT = SNAPSHOT def add_SNAPSHOT(self, value): self.SNAPSHOT.append(value) def insert_SNAPSHOT_at(self, index, value): self.SNAPSHOT.insert(index, value) def replace_SNAPSHOT_at(self, index, value): self.SNAPSHOT[index] = value def has__content(self): if ( self.ALLOW_ORPHANS is not None or self.CURRENT_BASE is not None or self.DISK_ID is not None or self.NEXT_SNAPSHOT is not None or self.SNAPSHOT ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALLOW_ORPHANS is not None: namespaceprefix_ = self.ALLOW_ORPHANS_nsprefix_ + ':' if (UseCapturedNS_ and self.ALLOW_ORPHANS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALLOW_ORPHANS>%s</%sALLOW_ORPHANS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALLOW_ORPHANS), input_name='ALLOW_ORPHANS')), namespaceprefix_ , eol_)) if self.CURRENT_BASE is not None: namespaceprefix_ = self.CURRENT_BASE_nsprefix_ + ':' if (UseCapturedNS_ and self.CURRENT_BASE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCURRENT_BASE>%s</%sCURRENT_BASE>%s' % (namespaceprefix_ , self.gds_format_integer(self.CURRENT_BASE, input_name='CURRENT_BASE'), namespaceprefix_ , eol_)) if self.DISK_ID is not None: namespaceprefix_ = self.DISK_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_ID>%s</%sDISK_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_ID, input_name='DISK_ID'), namespaceprefix_ , eol_)) if self.NEXT_SNAPSHOT is not None: namespaceprefix_ = self.NEXT_SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.NEXT_SNAPSHOT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNEXT_SNAPSHOT>%s</%sNEXT_SNAPSHOT>%s' % (namespaceprefix_ , self.gds_format_integer(self.NEXT_SNAPSHOT, input_name='NEXT_SNAPSHOT'), namespaceprefix_ , eol_)) for SNAPSHOT_ in self.SNAPSHOT: namespaceprefix_ = self.SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOT_nsprefix_) else '' SNAPSHOT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOT', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALLOW_ORPHANS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALLOW_ORPHANS') value_ = self.gds_validate_string(value_, node, 'ALLOW_ORPHANS') self.ALLOW_ORPHANS = value_ self.ALLOW_ORPHANS_nsprefix_ = child_.prefix elif nodeName_ == 'CURRENT_BASE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CURRENT_BASE') ival_ = self.gds_validate_integer(ival_, node, 'CURRENT_BASE') self.CURRENT_BASE = ival_ self.CURRENT_BASE_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_ID') ival_ = self.gds_validate_integer(ival_, node, 'DISK_ID') self.DISK_ID = ival_ self.DISK_ID_nsprefix_ = child_.prefix elif nodeName_ == 'NEXT_SNAPSHOT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NEXT_SNAPSHOT') ival_ = self.gds_validate_integer(ival_, node, 'NEXT_SNAPSHOT') self.NEXT_SNAPSHOT = ival_ self.NEXT_SNAPSHOT_nsprefix_ = child_.prefix elif nodeName_ == 'SNAPSHOT': obj_ = SNAPSHOTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOT.append(obj_) obj_.original_tagname_ = 'SNAPSHOT' # end class SNAPSHOTSType class SNAPSHOTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ACTIVE=None, CHILDREN=None, DATE=None, ID=None, NAME=None, PARENT=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ACTIVE = ACTIVE self.ACTIVE_nsprefix_ = None self.CHILDREN = CHILDREN self.CHILDREN_nsprefix_ = None self.DATE = DATE self.DATE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PARENT = PARENT self.PARENT_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTType) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTType.subclass: return SNAPSHOTType.subclass(*args_, **kwargs_) else: return SNAPSHOTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ACTIVE(self): return self.ACTIVE def set_ACTIVE(self, ACTIVE): self.ACTIVE = ACTIVE def get_CHILDREN(self): return self.CHILDREN def set_CHILDREN(self, CHILDREN): self.CHILDREN = CHILDREN def get_DATE(self): return self.DATE def set_DATE(self, DATE): self.DATE = DATE def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PARENT(self): return self.PARENT def set_PARENT(self, PARENT): self.PARENT = PARENT def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.ACTIVE is not None or self.CHILDREN is not None or self.DATE is not None or self.ID is not None or self.NAME is not None or self.PARENT is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ACTIVE is not None: namespaceprefix_ = self.ACTIVE_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTIVE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTIVE>%s</%sACTIVE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTIVE), input_name='ACTIVE')), namespaceprefix_ , eol_)) if self.CHILDREN is not None: namespaceprefix_ = self.CHILDREN_nsprefix_ + ':' if (UseCapturedNS_ and self.CHILDREN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCHILDREN>%s</%sCHILDREN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CHILDREN), input_name='CHILDREN')), namespaceprefix_ , eol_)) if self.DATE is not None: namespaceprefix_ = self.DATE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATE>%s</%sDATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DATE, input_name='DATE'), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PARENT is not None: namespaceprefix_ = self.PARENT_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT>%s</%sPARENT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PARENT, input_name='PARENT'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ACTIVE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTIVE') value_ = self.gds_validate_string(value_, node, 'ACTIVE') self.ACTIVE = value_ self.ACTIVE_nsprefix_ = child_.prefix elif nodeName_ == 'CHILDREN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CHILDREN') value_ = self.gds_validate_string(value_, node, 'CHILDREN') self.CHILDREN = value_ self.CHILDREN_nsprefix_ = child_.prefix elif nodeName_ == 'DATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DATE') ival_ = self.gds_validate_integer(ival_, node, 'DATE') self.DATE = ival_ self.DATE_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PARENT') ival_ = self.gds_validate_integer(ival_, node, 'PARENT') self.PARENT = ival_ self.PARENT_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class SNAPSHOTType class BACKUPSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUP_CONFIG=None, BACKUP_IDS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKUP_CONFIG = BACKUP_CONFIG self.BACKUP_CONFIG_nsprefix_ = None self.BACKUP_IDS = BACKUP_IDS self.BACKUP_IDS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUPSType) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUPSType.subclass: return BACKUPSType.subclass(*args_, **kwargs_) else: return BACKUPSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUP_CONFIG(self): return self.BACKUP_CONFIG def set_BACKUP_CONFIG(self, BACKUP_CONFIG): self.BACKUP_CONFIG = BACKUP_CONFIG def get_BACKUP_IDS(self): return self.BACKUP_IDS def set_BACKUP_IDS(self, BACKUP_IDS): self.BACKUP_IDS = BACKUP_IDS def has__content(self): if ( self.BACKUP_CONFIG is not None or self.BACKUP_IDS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUPSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUPSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUPSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUPSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUPSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKUP_CONFIG is not None: namespaceprefix_ = self.BACKUP_CONFIG_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_CONFIG_nsprefix_) else '' self.BACKUP_CONFIG.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUP_CONFIG', pretty_print=pretty_print) if self.BACKUP_IDS is not None: namespaceprefix_ = self.BACKUP_IDS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_IDS_nsprefix_) else '' self.BACKUP_IDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUP_IDS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUP_CONFIG': obj_ = BACKUP_CONFIGType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUP_CONFIG = obj_ obj_.original_tagname_ = 'BACKUP_CONFIG' elif nodeName_ == 'BACKUP_IDS': obj_ = BACKUP_IDSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUP_IDS = obj_ obj_.original_tagname_ = 'BACKUP_IDS' # end class BACKUPSType class BACKUP_CONFIGType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUP_VOLATILE=None, FS_FREEZE=None, INCREMENTAL_BACKUP_ID=None, INCREMENT_MODE=None, KEEP_LAST=None, LAST_BACKUP_ID=None, LAST_BACKUP_SIZE=None, LAST_DATASTORE_ID=None, LAST_INCREMENT_ID=None, MODE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKUP_VOLATILE = BACKUP_VOLATILE self.BACKUP_VOLATILE_nsprefix_ = None self.FS_FREEZE = FS_FREEZE self.FS_FREEZE_nsprefix_ = None self.INCREMENTAL_BACKUP_ID = INCREMENTAL_BACKUP_ID self.INCREMENTAL_BACKUP_ID_nsprefix_ = None self.INCREMENT_MODE = INCREMENT_MODE self.INCREMENT_MODE_nsprefix_ = None self.KEEP_LAST = KEEP_LAST self.KEEP_LAST_nsprefix_ = None self.LAST_BACKUP_ID = LAST_BACKUP_ID self.LAST_BACKUP_ID_nsprefix_ = None self.LAST_BACKUP_SIZE = LAST_BACKUP_SIZE self.LAST_BACKUP_SIZE_nsprefix_ = None self.LAST_DATASTORE_ID = LAST_DATASTORE_ID self.LAST_DATASTORE_ID_nsprefix_ = None self.LAST_INCREMENT_ID = LAST_INCREMENT_ID self.LAST_INCREMENT_ID_nsprefix_ = None self.MODE = MODE self.MODE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUP_CONFIGType) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUP_CONFIGType.subclass: return BACKUP_CONFIGType.subclass(*args_, **kwargs_) else: return BACKUP_CONFIGType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUP_VOLATILE(self): return self.BACKUP_VOLATILE def set_BACKUP_VOLATILE(self, BACKUP_VOLATILE): self.BACKUP_VOLATILE = BACKUP_VOLATILE def get_FS_FREEZE(self): return self.FS_FREEZE def set_FS_FREEZE(self, FS_FREEZE): self.FS_FREEZE = FS_FREEZE def get_INCREMENTAL_BACKUP_ID(self): return self.INCREMENTAL_BACKUP_ID def set_INCREMENTAL_BACKUP_ID(self, INCREMENTAL_BACKUP_ID): self.INCREMENTAL_BACKUP_ID = INCREMENTAL_BACKUP_ID def get_INCREMENT_MODE(self): return self.INCREMENT_MODE def set_INCREMENT_MODE(self, INCREMENT_MODE): self.INCREMENT_MODE = INCREMENT_MODE def get_KEEP_LAST(self): return self.KEEP_LAST def set_KEEP_LAST(self, KEEP_LAST): self.KEEP_LAST = KEEP_LAST def get_LAST_BACKUP_ID(self): return self.LAST_BACKUP_ID def set_LAST_BACKUP_ID(self, LAST_BACKUP_ID): self.LAST_BACKUP_ID = LAST_BACKUP_ID def get_LAST_BACKUP_SIZE(self): return self.LAST_BACKUP_SIZE def set_LAST_BACKUP_SIZE(self, LAST_BACKUP_SIZE): self.LAST_BACKUP_SIZE = LAST_BACKUP_SIZE def get_LAST_DATASTORE_ID(self): return self.LAST_DATASTORE_ID def set_LAST_DATASTORE_ID(self, LAST_DATASTORE_ID): self.LAST_DATASTORE_ID = LAST_DATASTORE_ID def get_LAST_INCREMENT_ID(self): return self.LAST_INCREMENT_ID def set_LAST_INCREMENT_ID(self, LAST_INCREMENT_ID): self.LAST_INCREMENT_ID = LAST_INCREMENT_ID def get_MODE(self): return self.MODE def set_MODE(self, MODE): self.MODE = MODE def has__content(self): if ( self.BACKUP_VOLATILE is not None or self.FS_FREEZE is not None or self.INCREMENTAL_BACKUP_ID is not None or self.INCREMENT_MODE is not None or self.KEEP_LAST is not None or self.LAST_BACKUP_ID is not None or self.LAST_BACKUP_SIZE is not None or self.LAST_DATASTORE_ID is not None or self.LAST_INCREMENT_ID is not None or self.MODE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_CONFIGType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUP_CONFIGType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUP_CONFIGType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUP_CONFIGType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUP_CONFIGType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUP_CONFIGType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_CONFIGType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKUP_VOLATILE is not None: namespaceprefix_ = self.BACKUP_VOLATILE_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_VOLATILE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKUP_VOLATILE>%s</%sBACKUP_VOLATILE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKUP_VOLATILE), input_name='BACKUP_VOLATILE')), namespaceprefix_ , eol_)) if self.FS_FREEZE is not None: namespaceprefix_ = self.FS_FREEZE_nsprefix_ + ':' if (UseCapturedNS_ and self.FS_FREEZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFS_FREEZE>%s</%sFS_FREEZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FS_FREEZE), input_name='FS_FREEZE')), namespaceprefix_ , eol_)) if self.INCREMENTAL_BACKUP_ID is not None: namespaceprefix_ = self.INCREMENTAL_BACKUP_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.INCREMENTAL_BACKUP_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINCREMENTAL_BACKUP_ID>%s</%sINCREMENTAL_BACKUP_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.INCREMENTAL_BACKUP_ID), input_name='INCREMENTAL_BACKUP_ID')), namespaceprefix_ , eol_)) if self.INCREMENT_MODE is not None: namespaceprefix_ = self.INCREMENT_MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.INCREMENT_MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINCREMENT_MODE>%s</%sINCREMENT_MODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.INCREMENT_MODE), input_name='INCREMENT_MODE')), namespaceprefix_ , eol_)) if self.KEEP_LAST is not None: namespaceprefix_ = self.KEEP_LAST_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEP_LAST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEP_LAST>%s</%sKEEP_LAST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.KEEP_LAST), input_name='KEEP_LAST')), namespaceprefix_ , eol_)) if self.LAST_BACKUP_ID is not None: namespaceprefix_ = self.LAST_BACKUP_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_ID>%s</%sLAST_BACKUP_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_BACKUP_ID), input_name='LAST_BACKUP_ID')), namespaceprefix_ , eol_)) if self.LAST_BACKUP_SIZE is not None: namespaceprefix_ = self.LAST_BACKUP_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_SIZE>%s</%sLAST_BACKUP_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_BACKUP_SIZE), input_name='LAST_BACKUP_SIZE')), namespaceprefix_ , eol_)) if self.LAST_DATASTORE_ID is not None: namespaceprefix_ = self.LAST_DATASTORE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_DATASTORE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_DATASTORE_ID>%s</%sLAST_DATASTORE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_DATASTORE_ID), input_name='LAST_DATASTORE_ID')), namespaceprefix_ , eol_)) if self.LAST_INCREMENT_ID is not None: namespaceprefix_ = self.LAST_INCREMENT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_INCREMENT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_INCREMENT_ID>%s</%sLAST_INCREMENT_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_INCREMENT_ID), input_name='LAST_INCREMENT_ID')), namespaceprefix_ , eol_)) if self.MODE is not None: namespaceprefix_ = self.MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMODE>%s</%sMODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MODE), input_name='MODE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUP_VOLATILE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKUP_VOLATILE') value_ = self.gds_validate_string(value_, node, 'BACKUP_VOLATILE') self.BACKUP_VOLATILE = value_ self.BACKUP_VOLATILE_nsprefix_ = child_.prefix elif nodeName_ == 'FS_FREEZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FS_FREEZE') value_ = self.gds_validate_string(value_, node, 'FS_FREEZE') self.FS_FREEZE = value_ self.FS_FREEZE_nsprefix_ = child_.prefix elif nodeName_ == 'INCREMENTAL_BACKUP_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INCREMENTAL_BACKUP_ID') value_ = self.gds_validate_string(value_, node, 'INCREMENTAL_BACKUP_ID') self.INCREMENTAL_BACKUP_ID = value_ self.INCREMENTAL_BACKUP_ID_nsprefix_ = child_.prefix elif nodeName_ == 'INCREMENT_MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INCREMENT_MODE') value_ = self.gds_validate_string(value_, node, 'INCREMENT_MODE') self.INCREMENT_MODE = value_ self.INCREMENT_MODE_nsprefix_ = child_.prefix elif nodeName_ == 'KEEP_LAST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'KEEP_LAST') value_ = self.gds_validate_string(value_, node, 'KEEP_LAST') self.KEEP_LAST = value_ self.KEEP_LAST_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_BACKUP_ID') value_ = self.gds_validate_string(value_, node, 'LAST_BACKUP_ID') self.LAST_BACKUP_ID = value_ self.LAST_BACKUP_ID_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_BACKUP_SIZE') value_ = self.gds_validate_string(value_, node, 'LAST_BACKUP_SIZE') self.LAST_BACKUP_SIZE = value_ self.LAST_BACKUP_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_DATASTORE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_DATASTORE_ID') value_ = self.gds_validate_string(value_, node, 'LAST_DATASTORE_ID') self.LAST_DATASTORE_ID = value_ self.LAST_DATASTORE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_INCREMENT_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_INCREMENT_ID') value_ = self.gds_validate_string(value_, node, 'LAST_INCREMENT_ID') self.LAST_INCREMENT_ID = value_ self.LAST_INCREMENT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MODE') value_ = self.gds_validate_string(value_, node, 'MODE') self.MODE = value_ self.MODE_nsprefix_ = child_.prefix # end class BACKUP_CONFIGType class BACKUP_IDSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUP_IDSType) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUP_IDSType.subclass: return BACKUP_IDSType.subclass(*args_, **kwargs_) else: return BACKUP_IDSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_IDSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUP_IDSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUP_IDSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUP_IDSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUP_IDSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUP_IDSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_IDSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(ID_), input_name='ID')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID.append(value_) self.ID_nsprefix_ = child_.prefix # end class BACKUP_IDSType class ACLType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, USER=None, RESOURCE=None, RIGHTS=None, ZONE=None, STRING=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.USER = USER self.USER_nsprefix_ = None self.RESOURCE = RESOURCE self.RESOURCE_nsprefix_ = None self.RIGHTS = RIGHTS self.RIGHTS_nsprefix_ = None self.ZONE = ZONE self.ZONE_nsprefix_ = None self.STRING = STRING self.STRING_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ACLType) if subclass is not None: return subclass(*args_, **kwargs_) if ACLType.subclass: return ACLType.subclass(*args_, **kwargs_) else: return ACLType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_USER(self): return self.USER def set_USER(self, USER): self.USER = USER def get_RESOURCE(self): return self.RESOURCE def set_RESOURCE(self, RESOURCE): self.RESOURCE = RESOURCE def get_RIGHTS(self): return self.RIGHTS def set_RIGHTS(self, RIGHTS): self.RIGHTS = RIGHTS def get_ZONE(self): return self.ZONE def set_ZONE(self, ZONE): self.ZONE = ZONE def get_STRING(self): return self.STRING def set_STRING(self, STRING): self.STRING = STRING def has__content(self): if ( self.ID is not None or self.USER is not None or self.RESOURCE is not None or self.RIGHTS is not None or self.ZONE is not None or self.STRING is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ACLType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ACLType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ACLType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ACLType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ACLType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ACLType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ACLType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.USER is not None: namespaceprefix_ = self.USER_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER>%s</%sUSER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USER), input_name='USER')), namespaceprefix_ , eol_)) if self.RESOURCE is not None: namespaceprefix_ = self.RESOURCE_nsprefix_ + ':' if (UseCapturedNS_ and self.RESOURCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESOURCE>%s</%sRESOURCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESOURCE), input_name='RESOURCE')), namespaceprefix_ , eol_)) if self.RIGHTS is not None: namespaceprefix_ = self.RIGHTS_nsprefix_ + ':' if (UseCapturedNS_ and self.RIGHTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRIGHTS>%s</%sRIGHTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RIGHTS), input_name='RIGHTS')), namespaceprefix_ , eol_)) if self.ZONE is not None: namespaceprefix_ = self.ZONE_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE>%s</%sZONE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ZONE), input_name='ZONE')), namespaceprefix_ , eol_)) if self.STRING is not None: namespaceprefix_ = self.STRING_nsprefix_ + ':' if (UseCapturedNS_ and self.STRING_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTRING>%s</%sSTRING>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.STRING), input_name='STRING')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'USER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER') value_ = self.gds_validate_string(value_, node, 'USER') self.USER = value_ self.USER_nsprefix_ = child_.prefix elif nodeName_ == 'RESOURCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESOURCE') value_ = self.gds_validate_string(value_, node, 'RESOURCE') self.RESOURCE = value_ self.RESOURCE_nsprefix_ = child_.prefix elif nodeName_ == 'RIGHTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RIGHTS') value_ = self.gds_validate_string(value_, node, 'RIGHTS') self.RIGHTS = value_ self.RIGHTS_nsprefix_ = child_.prefix elif nodeName_ == 'ZONE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ZONE') value_ = self.gds_validate_string(value_, node, 'ZONE') self.ZONE = value_ self.ZONE_nsprefix_ = child_.prefix elif nodeName_ == 'STRING': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'STRING') value_ = self.gds_validate_string(value_, node, 'STRING') self.STRING = value_ self.STRING_nsprefix_ = child_.prefix # end class ACLType class PARAMETERSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, PARAMETER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if PARAMETER is None: self.PARAMETER = [] else: self.PARAMETER = PARAMETER self.PARAMETER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PARAMETERSType) if subclass is not None: return subclass(*args_, **kwargs_) if PARAMETERSType.subclass: return PARAMETERSType.subclass(*args_, **kwargs_) else: return PARAMETERSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_PARAMETER(self): return self.PARAMETER def set_PARAMETER(self, PARAMETER): self.PARAMETER = PARAMETER def add_PARAMETER(self, value): self.PARAMETER.append(value) def insert_PARAMETER_at(self, index, value): self.PARAMETER.insert(index, value) def replace_PARAMETER_at(self, index, value): self.PARAMETER[index] = value def has__content(self): if ( self.PARAMETER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PARAMETERSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PARAMETERSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PARAMETERSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PARAMETERSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PARAMETERSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PARAMETERSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PARAMETERSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for PARAMETER_ in self.PARAMETER: namespaceprefix_ = self.PARAMETER_nsprefix_ + ':' if (UseCapturedNS_ and self.PARAMETER_nsprefix_) else '' PARAMETER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PARAMETER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'PARAMETER': obj_ = PARAMETERType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PARAMETER.append(obj_) obj_.original_tagname_ = 'PARAMETER' # end class PARAMETERSType class PARAMETERType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, POSITION=None, TYPE=None, VALUE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.POSITION = POSITION self.POSITION_nsprefix_ = None self.TYPE = TYPE self.validate_TYPEType(self.TYPE) self.TYPE_nsprefix_ = None self.VALUE = VALUE self.VALUE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PARAMETERType) if subclass is not None: return subclass(*args_, **kwargs_) if PARAMETERType.subclass: return PARAMETERType.subclass(*args_, **kwargs_) else: return PARAMETERType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_POSITION(self): return self.POSITION def set_POSITION(self, POSITION): self.POSITION = POSITION def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_VALUE(self): return self.VALUE def set_VALUE(self, VALUE): self.VALUE = VALUE def validate_TYPEType(self, value): result = True # Validate type TYPEType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False value = value enumerations = ['IN', 'OUT'] if value not in enumerations: lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on TYPEType' % {"value" : encode_str_2_3(value), "lineno": lineno} ) result = False return result def has__content(self): if ( self.POSITION is not None or self.TYPE is not None or self.VALUE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PARAMETERType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PARAMETERType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PARAMETERType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PARAMETERType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PARAMETERType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PARAMETERType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PARAMETERType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.POSITION is not None: namespaceprefix_ = self.POSITION_nsprefix_ + ':' if (UseCapturedNS_ and self.POSITION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPOSITION>%s</%sPOSITION>%s' % (namespaceprefix_ , self.gds_format_integer(self.POSITION, input_name='POSITION'), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.VALUE is not None: namespaceprefix_ = self.VALUE_nsprefix_ + ':' if (UseCapturedNS_ and self.VALUE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVALUE>%s</%sVALUE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VALUE), input_name='VALUE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'POSITION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'POSITION') ival_ = self.gds_validate_integer(ival_, node, 'POSITION') self.POSITION = ival_ self.POSITION_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix # validate type TYPEType self.validate_TYPEType(self.TYPE) elif nodeName_ == 'VALUE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VALUE') value_ = self.gds_validate_string(value_, node, 'VALUE') self.VALUE = value_ self.VALUE_nsprefix_ = child_.prefix # end class PARAMETERType class EXTRAType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, EXTRAType) if subclass is not None: return subclass(*args_, **kwargs_) if EXTRAType.subclass: return EXTRAType.subclass(*args_, **kwargs_) else: return EXTRAType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='EXTRAType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('EXTRAType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'EXTRAType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='EXTRAType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='EXTRAType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='EXTRAType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='EXTRAType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): content_ = self.gds_build_any(child_, 'EXTRAType') self.anytypeobjs_.append(content_) # end class EXTRAType class TEMPLATEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUP_VMS=None, BACKUP_VOLATILE=None, DATASTORE_ID=None, ERROR=None, EXECUTION=None, FS_FREEZE=None, KEEP_LAST=None, MODE=None, RESET=None, SCHED_ACTION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKUP_VMS = BACKUP_VMS self.BACKUP_VMS_nsprefix_ = None self.BACKUP_VOLATILE = BACKUP_VOLATILE self.BACKUP_VOLATILE_nsprefix_ = None self.DATASTORE_ID = DATASTORE_ID self.DATASTORE_ID_nsprefix_ = None self.ERROR = ERROR self.ERROR_nsprefix_ = None self.EXECUTION = EXECUTION self.EXECUTION_nsprefix_ = None self.FS_FREEZE = FS_FREEZE self.FS_FREEZE_nsprefix_ = None self.KEEP_LAST = KEEP_LAST self.KEEP_LAST_nsprefix_ = None self.MODE = MODE self.MODE_nsprefix_ = None self.RESET = RESET self.RESET_nsprefix_ = None if SCHED_ACTION is None: self.SCHED_ACTION = [] else: self.SCHED_ACTION = SCHED_ACTION self.SCHED_ACTION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType.subclass: return TEMPLATEType.subclass(*args_, **kwargs_) else: return TEMPLATEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUP_VMS(self): return self.BACKUP_VMS def set_BACKUP_VMS(self, BACKUP_VMS): self.BACKUP_VMS = BACKUP_VMS def get_BACKUP_VOLATILE(self): return self.BACKUP_VOLATILE def set_BACKUP_VOLATILE(self, BACKUP_VOLATILE): self.BACKUP_VOLATILE = BACKUP_VOLATILE def get_DATASTORE_ID(self): return self.DATASTORE_ID def set_DATASTORE_ID(self, DATASTORE_ID): self.DATASTORE_ID = DATASTORE_ID def get_ERROR(self): return self.ERROR def set_ERROR(self, ERROR): self.ERROR = ERROR def get_EXECUTION(self): return self.EXECUTION def set_EXECUTION(self, EXECUTION): self.EXECUTION = EXECUTION def get_FS_FREEZE(self): return self.FS_FREEZE def set_FS_FREEZE(self, FS_FREEZE): self.FS_FREEZE = FS_FREEZE def get_KEEP_LAST(self): return self.KEEP_LAST def set_KEEP_LAST(self, KEEP_LAST): self.KEEP_LAST = KEEP_LAST def get_MODE(self): return self.MODE def set_MODE(self, MODE): self.MODE = MODE def get_RESET(self): return self.RESET def set_RESET(self, RESET): self.RESET = RESET def get_SCHED_ACTION(self): return self.SCHED_ACTION def set_SCHED_ACTION(self, SCHED_ACTION): self.SCHED_ACTION = SCHED_ACTION def add_SCHED_ACTION(self, value): self.SCHED_ACTION.append(value) def insert_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION.insert(index, value) def replace_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION[index] = value def has__content(self): if ( self.BACKUP_VMS is not None or self.BACKUP_VOLATILE is not None or self.DATASTORE_ID is not None or self.ERROR is not None or self.EXECUTION is not None or self.FS_FREEZE is not None or self.KEEP_LAST is not None or self.MODE is not None or self.RESET is not None or self.SCHED_ACTION ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKUP_VMS is not None: namespaceprefix_ = self.BACKUP_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKUP_VMS>%s</%sBACKUP_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKUP_VMS), input_name='BACKUP_VMS')), namespaceprefix_ , eol_)) if self.BACKUP_VOLATILE is not None: namespaceprefix_ = self.BACKUP_VOLATILE_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_VOLATILE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKUP_VOLATILE>%s</%sBACKUP_VOLATILE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKUP_VOLATILE), input_name='BACKUP_VOLATILE')), namespaceprefix_ , eol_)) if self.DATASTORE_ID is not None: namespaceprefix_ = self.DATASTORE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_ID>%s</%sDATASTORE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DATASTORE_ID), input_name='DATASTORE_ID')), namespaceprefix_ , eol_)) if self.ERROR is not None: namespaceprefix_ = self.ERROR_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sERROR>%s</%sERROR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ERROR), input_name='ERROR')), namespaceprefix_ , eol_)) if self.EXECUTION is not None: namespaceprefix_ = self.EXECUTION_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTION>%s</%sEXECUTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTION), input_name='EXECUTION')), namespaceprefix_ , eol_)) if self.FS_FREEZE is not None: namespaceprefix_ = self.FS_FREEZE_nsprefix_ + ':' if (UseCapturedNS_ and self.FS_FREEZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFS_FREEZE>%s</%sFS_FREEZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FS_FREEZE), input_name='FS_FREEZE')), namespaceprefix_ , eol_)) if self.KEEP_LAST is not None: namespaceprefix_ = self.KEEP_LAST_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEP_LAST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEP_LAST>%s</%sKEEP_LAST>%s' % (namespaceprefix_ , self.gds_format_integer(self.KEEP_LAST, input_name='KEEP_LAST'), namespaceprefix_ , eol_)) if self.MODE is not None: namespaceprefix_ = self.MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMODE>%s</%sMODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MODE), input_name='MODE')), namespaceprefix_ , eol_)) if self.RESET is not None: namespaceprefix_ = self.RESET_nsprefix_ + ':' if (UseCapturedNS_ and self.RESET_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESET>%s</%sRESET>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESET), input_name='RESET')), namespaceprefix_ , eol_)) for SCHED_ACTION_ in self.SCHED_ACTION: namespaceprefix_ = self.SCHED_ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTION_nsprefix_) else '' SCHED_ACTION_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SCHED_ACTION', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUP_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKUP_VMS') value_ = self.gds_validate_string(value_, node, 'BACKUP_VMS') self.BACKUP_VMS = value_ self.BACKUP_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'BACKUP_VOLATILE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKUP_VOLATILE') value_ = self.gds_validate_string(value_, node, 'BACKUP_VOLATILE') self.BACKUP_VOLATILE = value_ self.BACKUP_VOLATILE_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATASTORE_ID') value_ = self.gds_validate_string(value_, node, 'DATASTORE_ID') self.DATASTORE_ID = value_ self.DATASTORE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'ERROR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ERROR') value_ = self.gds_validate_string(value_, node, 'ERROR') self.ERROR = value_ self.ERROR_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTION') value_ = self.gds_validate_string(value_, node, 'EXECUTION') self.EXECUTION = value_ self.EXECUTION_nsprefix_ = child_.prefix elif nodeName_ == 'FS_FREEZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FS_FREEZE') value_ = self.gds_validate_string(value_, node, 'FS_FREEZE') self.FS_FREEZE = value_ self.FS_FREEZE_nsprefix_ = child_.prefix elif nodeName_ == 'KEEP_LAST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'KEEP_LAST') ival_ = self.gds_validate_integer(ival_, node, 'KEEP_LAST') self.KEEP_LAST = ival_ self.KEEP_LAST_nsprefix_ = child_.prefix elif nodeName_ == 'MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MODE') value_ = self.gds_validate_string(value_, node, 'MODE') self.MODE = value_ self.MODE_nsprefix_ = child_.prefix elif nodeName_ == 'RESET': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESET') value_ = self.gds_validate_string(value_, node, 'RESET') self.RESET = value_ self.RESET_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_ACTION': obj_ = SCHED_ACTION.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SCHED_ACTION.append(obj_) obj_.original_tagname_ = 'SCHED_ACTION' # end class TEMPLATEType class HOSTSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOSTSType) if subclass is not None: return subclass(*args_, **kwargs_) if HOSTSType.subclass: return HOSTSType.subclass(*args_, **kwargs_) else: return HOSTSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOSTSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOSTSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOSTSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOSTSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOSTSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class HOSTSType class DATASTORESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORESType) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORESType.subclass: return DATASTORESType.subclass(*args_, **kwargs_) else: return DATASTORESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class DATASTORESType class VNETSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNETSType) if subclass is not None: return subclass(*args_, **kwargs_) if VNETSType.subclass: return VNETSType.subclass(*args_, **kwargs_) else: return VNETSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNETSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNETSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNETSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNETSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNETSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VNETSType class PERMISSIONSType1(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType1) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType1.subclass: return PERMISSIONSType1.subclass(*args_, **kwargs_) else: return PERMISSIONSType1(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType1', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType1') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType1': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType1') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType1', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType1'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType1', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType1 class CLUSTERSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTERSType) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTERSType.subclass: return CLUSTERSType.subclass(*args_, **kwargs_) else: return CLUSTERSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTERSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTERSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTERSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTERSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTERSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class CLUSTERSType class IMAGESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGESType) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGESType.subclass: return IMAGESType.subclass(*args_, **kwargs_) else: return IMAGESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class IMAGESType class TEMPLATEType2(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_DC_NAME=None, VCENTER_DC_REF=None, VCENTER_DS_NAME=None, VCENTER_DS_REF=None, VCENTER_HOST=None, VCENTER_INSTANCE_ID=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_DC_NAME = VCENTER_DC_NAME self.VCENTER_DC_NAME_nsprefix_ = None self.VCENTER_DC_REF = VCENTER_DC_REF self.VCENTER_DC_REF_nsprefix_ = None self.VCENTER_DS_NAME = VCENTER_DS_NAME self.VCENTER_DS_NAME_nsprefix_ = None self.VCENTER_DS_REF = VCENTER_DS_REF self.VCENTER_DS_REF_nsprefix_ = None self.VCENTER_HOST = VCENTER_HOST self.VCENTER_HOST_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType2) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType2.subclass: return TEMPLATEType2.subclass(*args_, **kwargs_) else: return TEMPLATEType2(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_DC_NAME(self): return self.VCENTER_DC_NAME def set_VCENTER_DC_NAME(self, VCENTER_DC_NAME): self.VCENTER_DC_NAME = VCENTER_DC_NAME def get_VCENTER_DC_REF(self): return self.VCENTER_DC_REF def set_VCENTER_DC_REF(self, VCENTER_DC_REF): self.VCENTER_DC_REF = VCENTER_DC_REF def get_VCENTER_DS_NAME(self): return self.VCENTER_DS_NAME def set_VCENTER_DS_NAME(self, VCENTER_DS_NAME): self.VCENTER_DS_NAME = VCENTER_DS_NAME def get_VCENTER_DS_REF(self): return self.VCENTER_DS_REF def set_VCENTER_DS_REF(self, VCENTER_DS_REF): self.VCENTER_DS_REF = VCENTER_DS_REF def get_VCENTER_HOST(self): return self.VCENTER_HOST def set_VCENTER_HOST(self, VCENTER_HOST): self.VCENTER_HOST = VCENTER_HOST def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_DC_NAME is not None or self.VCENTER_DC_REF is not None or self.VCENTER_DS_NAME is not None or self.VCENTER_DS_REF is not None or self.VCENTER_HOST is not None or self.VCENTER_INSTANCE_ID is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType2', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType2') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType2': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType2') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType2', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType2'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType2', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_DC_NAME is not None: namespaceprefix_ = self.VCENTER_DC_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DC_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DC_NAME>%s</%sVCENTER_DC_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DC_NAME), input_name='VCENTER_DC_NAME')), namespaceprefix_ , eol_)) if self.VCENTER_DC_REF is not None: namespaceprefix_ = self.VCENTER_DC_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DC_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DC_REF>%s</%sVCENTER_DC_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DC_REF), input_name='VCENTER_DC_REF')), namespaceprefix_ , eol_)) if self.VCENTER_DS_NAME is not None: namespaceprefix_ = self.VCENTER_DS_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_NAME>%s</%sVCENTER_DS_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DS_NAME), input_name='VCENTER_DS_NAME')), namespaceprefix_ , eol_)) if self.VCENTER_DS_REF is not None: namespaceprefix_ = self.VCENTER_DS_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_REF>%s</%sVCENTER_DS_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DS_REF), input_name='VCENTER_DS_REF')), namespaceprefix_ , eol_)) if self.VCENTER_HOST is not None: namespaceprefix_ = self.VCENTER_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_HOST>%s</%sVCENTER_HOST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_HOST), input_name='VCENTER_HOST')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_DC_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DC_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_DC_NAME') self.VCENTER_DC_NAME = value_ self.VCENTER_DC_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_DC_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DC_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DC_REF') self.VCENTER_DC_REF = value_ self.VCENTER_DC_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_DS_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_NAME') self.VCENTER_DS_NAME = value_ self.VCENTER_DS_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_DS_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_REF') self.VCENTER_DS_REF = value_ self.VCENTER_DS_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_HOST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_HOST') value_ = self.gds_validate_string(value_, node, 'VCENTER_HOST') self.VCENTER_HOST = value_ self.VCENTER_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType2') self.anytypeobjs_.append(content_) # end class TEMPLATEType2 class PERMISSIONSType3(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType3) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType3.subclass: return PERMISSIONSType3.subclass(*args_, **kwargs_) else: return PERMISSIONSType3(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType3', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType3') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType3': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType3') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType3', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType3'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType3', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType3 class LOCKType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType.subclass: return LOCKType.subclass(*args_, **kwargs_) else: return LOCKType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType class GROUPType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, TEMPLATE=None, USERS=None, ADMINS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.USERS = USERS self.USERS_nsprefix_ = None self.ADMINS = ADMINS self.ADMINS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUPType) if subclass is not None: return subclass(*args_, **kwargs_) if GROUPType.subclass: return GROUPType.subclass(*args_, **kwargs_) else: return GROUPType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_USERS(self): return self.USERS def set_USERS(self, USERS): self.USERS = USERS def get_ADMINS(self): return self.ADMINS def set_ADMINS(self, ADMINS): self.ADMINS = ADMINS def has__content(self): if ( self.ID is not None or self.NAME is not None or self.TEMPLATE is not None or self.USERS is not None or self.ADMINS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUPType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUPType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUPType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUPType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUPType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) if self.USERS is not None: namespaceprefix_ = self.USERS_nsprefix_ + ':' if (UseCapturedNS_ and self.USERS_nsprefix_) else '' self.USERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='USERS', pretty_print=pretty_print) if self.ADMINS is not None: namespaceprefix_ = self.ADMINS_nsprefix_ + ':' if (UseCapturedNS_ and self.ADMINS_nsprefix_) else '' self.ADMINS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ADMINS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'USERS': obj_ = USERSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.USERS = obj_ obj_.original_tagname_ = 'USERS' elif nodeName_ == 'ADMINS': obj_ = ADMINSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ADMINS = obj_ obj_.original_tagname_ = 'ADMINS' # end class GROUPType class USERSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USERSType) if subclass is not None: return subclass(*args_, **kwargs_) if USERSType.subclass: return USERSType.subclass(*args_, **kwargs_) else: return USERSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USERSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USERSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USERSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USERSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USERSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class USERSType class ADMINSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ADMINSType) if subclass is not None: return subclass(*args_, **kwargs_) if ADMINSType.subclass: return ADMINSType.subclass(*args_, **kwargs_) else: return ADMINSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ADMINSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ADMINSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ADMINSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ADMINSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ADMINSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ADMINSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ADMINSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class ADMINSType class QUOTASType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, QUOTASType) if subclass is not None: return subclass(*args_, **kwargs_) if QUOTASType.subclass: return QUOTASType.subclass(*args_, **kwargs_) else: return QUOTASType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.ID is not None or self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='QUOTASType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('QUOTASType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'QUOTASType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='QUOTASType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='QUOTASType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='QUOTASType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='QUOTASType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class QUOTASType class DATASTORE_QUOTAType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType.subclass: return DATASTORE_QUOTAType.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType class DATASTOREType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType.subclass: return DATASTOREType.subclass(*args_, **kwargs_) else: return DATASTOREType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType class NETWORK_QUOTAType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType.subclass: return NETWORK_QUOTAType.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType class NETWORKType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType.subclass: return NETWORKType.subclass(*args_, **kwargs_) else: return NETWORKType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType class VM_QUOTAType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType.subclass: return VM_QUOTAType.subclass(*args_, **kwargs_) else: return VM_QUOTAType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType4.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType class VMType4(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType4) if subclass is not None: return subclass(*args_, **kwargs_) if VMType4.subclass: return VMType4.subclass(*args_, **kwargs_) else: return VMType4(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType4', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType4') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType4': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType4') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType4', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType4'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType4', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType4 class IMAGE_QUOTAType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType.subclass: return IMAGE_QUOTAType.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType class IMAGEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType.subclass: return IMAGEType.subclass(*args_, **kwargs_) else: return IMAGEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType class DEFAULT_GROUP_QUOTASType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DEFAULT_GROUP_QUOTASType) if subclass is not None: return subclass(*args_, **kwargs_) if DEFAULT_GROUP_QUOTASType.subclass: return DEFAULT_GROUP_QUOTASType.subclass(*args_, **kwargs_) else: return DEFAULT_GROUP_QUOTASType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_GROUP_QUOTASType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DEFAULT_GROUP_QUOTASType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DEFAULT_GROUP_QUOTASType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DEFAULT_GROUP_QUOTASType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DEFAULT_GROUP_QUOTASType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DEFAULT_GROUP_QUOTASType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_GROUP_QUOTASType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType5.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType7.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType9.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType11.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class DEFAULT_GROUP_QUOTASType class DATASTORE_QUOTAType5(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType5) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType5.subclass: return DATASTORE_QUOTAType5.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType5(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType5', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType5') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType5': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType5') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType5', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType5'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType5', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType6.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType5 class DATASTOREType6(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType6) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType6.subclass: return DATASTOREType6.subclass(*args_, **kwargs_) else: return DATASTOREType6(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType6', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType6') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType6': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType6') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType6', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType6'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType6', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType6 class NETWORK_QUOTAType7(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType7) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType7.subclass: return NETWORK_QUOTAType7.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType7(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType7', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType7') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType7': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType7') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType7', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType7'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType7', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType8.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType7 class NETWORKType8(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType8) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType8.subclass: return NETWORKType8.subclass(*args_, **kwargs_) else: return NETWORKType8(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType8', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType8') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType8': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType8') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType8', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType8'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType8', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType8 class VM_QUOTAType9(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType9) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType9.subclass: return VM_QUOTAType9.subclass(*args_, **kwargs_) else: return VM_QUOTAType9(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType9', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType9') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType9': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType9') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType9', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType9'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType9', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType10.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType9 class VMType10(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType10) if subclass is not None: return subclass(*args_, **kwargs_) if VMType10.subclass: return VMType10.subclass(*args_, **kwargs_) else: return VMType10(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType10', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType10') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType10': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType10') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType10', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType10'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType10', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType10 class IMAGE_QUOTAType11(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType11) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType11.subclass: return IMAGE_QUOTAType11.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType11(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType11', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType11') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType11': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType11') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType11', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType11'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType11', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType12.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType11 class IMAGEType12(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType12) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType12.subclass: return IMAGEType12.subclass(*args_, **kwargs_) else: return IMAGEType12(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType12', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType12') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType12': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType12') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType12', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType12'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType12', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType12 class USERSType13(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USERSType13) if subclass is not None: return subclass(*args_, **kwargs_) if USERSType13.subclass: return USERSType13.subclass(*args_, **kwargs_) else: return USERSType13(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERSType13', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USERSType13') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USERSType13': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USERSType13') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USERSType13', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USERSType13'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERSType13', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class USERSType13 class ADMINSType14(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ADMINSType14) if subclass is not None: return subclass(*args_, **kwargs_) if ADMINSType14.subclass: return ADMINSType14.subclass(*args_, **kwargs_) else: return ADMINSType14(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ADMINSType14', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ADMINSType14') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ADMINSType14': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ADMINSType14') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ADMINSType14', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ADMINSType14'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ADMINSType14', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class ADMINSType14 class DATASTORE_QUOTAType15(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType15) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType15.subclass: return DATASTORE_QUOTAType15.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType15(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType15', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType15') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType15': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType15') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType15', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType15'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType15', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType16.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType15 class DATASTOREType16(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType16) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType16.subclass: return DATASTOREType16.subclass(*args_, **kwargs_) else: return DATASTOREType16(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType16', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType16') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType16': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType16') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType16', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType16'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType16', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType16 class NETWORK_QUOTAType17(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType17) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType17.subclass: return NETWORK_QUOTAType17.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType17(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType17', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType17') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType17': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType17') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType17', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType17'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType17', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType18.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType17 class NETWORKType18(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType18) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType18.subclass: return NETWORKType18.subclass(*args_, **kwargs_) else: return NETWORKType18(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType18', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType18') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType18': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType18') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType18', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType18'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType18', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType18 class VM_QUOTAType19(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType19) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType19.subclass: return VM_QUOTAType19.subclass(*args_, **kwargs_) else: return VM_QUOTAType19(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType19', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType19') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType19': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType19') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType19', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType19'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType19', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType20.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType19 class VMType20(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType20) if subclass is not None: return subclass(*args_, **kwargs_) if VMType20.subclass: return VMType20.subclass(*args_, **kwargs_) else: return VMType20(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType20', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType20') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType20': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType20') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType20', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType20'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType20', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_format_float(self.CPU, input_name='CPU'), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_format_float(self.CPU_USED, input_name='CPU_USED'), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY, input_name='MEMORY'), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY_USED, input_name='MEMORY_USED'), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_format_float(self.RUNNING_CPU, input_name='RUNNING_CPU'), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_format_float(self.RUNNING_CPU_USED, input_name='RUNNING_CPU_USED'), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_MEMORY, input_name='RUNNING_MEMORY'), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_MEMORY_USED, input_name='RUNNING_MEMORY_USED'), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS, input_name='RUNNING_VMS'), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS_USED, input_name='RUNNING_VMS_USED'), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SYSTEM_DISK_SIZE, input_name='SYSTEM_DISK_SIZE'), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.SYSTEM_DISK_SIZE_USED, input_name='SYSTEM_DISK_SIZE_USED'), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMS, input_name='VMS'), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMS_USED, input_name='VMS_USED'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'CPU') fval_ = self.gds_validate_float(fval_, node, 'CPU') self.CPU = fval_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'CPU_USED') fval_ = self.gds_validate_float(fval_, node, 'CPU_USED') self.CPU_USED = fval_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY') self.MEMORY = ival_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY_USED') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY_USED') self.MEMORY_USED = ival_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'RUNNING_CPU') fval_ = self.gds_validate_float(fval_, node, 'RUNNING_CPU') self.RUNNING_CPU = fval_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'RUNNING_CPU_USED') fval_ = self.gds_validate_float(fval_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = fval_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = ival_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_MEMORY_USED') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = ival_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS') self.RUNNING_VMS = ival_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS_USED') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = ival_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SYSTEM_DISK_SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = ival_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SYSTEM_DISK_SIZE_USED') ival_ = self.gds_validate_integer(ival_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = ival_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMS') ival_ = self.gds_validate_integer(ival_, node, 'VMS') self.VMS = ival_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMS_USED') ival_ = self.gds_validate_integer(ival_, node, 'VMS_USED') self.VMS_USED = ival_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType20 class IMAGE_QUOTAType21(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType21) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType21.subclass: return IMAGE_QUOTAType21.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType21(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType21', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType21') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType21': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType21') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType21', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType21'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType21', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType22.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType21 class IMAGEType22(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType22) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType22.subclass: return IMAGEType22.subclass(*args_, **kwargs_) else: return IMAGEType22(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType22', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType22') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType22': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType22') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType22', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType22'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType22', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType22 class DEFAULT_GROUP_QUOTASType23(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DEFAULT_GROUP_QUOTASType23) if subclass is not None: return subclass(*args_, **kwargs_) if DEFAULT_GROUP_QUOTASType23.subclass: return DEFAULT_GROUP_QUOTASType23.subclass(*args_, **kwargs_) else: return DEFAULT_GROUP_QUOTASType23(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_GROUP_QUOTASType23', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DEFAULT_GROUP_QUOTASType23') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DEFAULT_GROUP_QUOTASType23': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DEFAULT_GROUP_QUOTASType23') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DEFAULT_GROUP_QUOTASType23', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DEFAULT_GROUP_QUOTASType23'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_GROUP_QUOTASType23', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType24.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType26.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType28.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType30.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class DEFAULT_GROUP_QUOTASType23 class DATASTORE_QUOTAType24(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType24) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType24.subclass: return DATASTORE_QUOTAType24.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType24(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType24', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType24') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType24': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType24') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType24', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType24'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType24', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType25.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType24 class DATASTOREType25(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType25) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType25.subclass: return DATASTOREType25.subclass(*args_, **kwargs_) else: return DATASTOREType25(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType25', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType25') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType25': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType25') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType25', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType25'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType25', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType25 class NETWORK_QUOTAType26(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType26) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType26.subclass: return NETWORK_QUOTAType26.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType26(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType26', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType26') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType26': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType26') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType26', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType26'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType26', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType27.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType26 class NETWORKType27(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType27) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType27.subclass: return NETWORKType27.subclass(*args_, **kwargs_) else: return NETWORKType27(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType27', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType27') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType27': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType27') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType27', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType27'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType27', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType27 class VM_QUOTAType28(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType28) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType28.subclass: return VM_QUOTAType28.subclass(*args_, **kwargs_) else: return VM_QUOTAType28(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType28', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType28') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType28': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType28') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType28', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType28'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType28', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType29.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType28 class VMType29(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType29) if subclass is not None: return subclass(*args_, **kwargs_) if VMType29.subclass: return VMType29.subclass(*args_, **kwargs_) else: return VMType29(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType29', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType29') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType29': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType29') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType29', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType29'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType29', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_format_float(self.CPU, input_name='CPU'), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_format_float(self.CPU_USED, input_name='CPU_USED'), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY, input_name='MEMORY'), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY_USED, input_name='MEMORY_USED'), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_format_float(self.RUNNING_CPU, input_name='RUNNING_CPU'), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_format_float(self.RUNNING_CPU_USED, input_name='RUNNING_CPU_USED'), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_MEMORY, input_name='RUNNING_MEMORY'), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_MEMORY_USED, input_name='RUNNING_MEMORY_USED'), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS, input_name='RUNNING_VMS'), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS_USED, input_name='RUNNING_VMS_USED'), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SYSTEM_DISK_SIZE, input_name='SYSTEM_DISK_SIZE'), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.SYSTEM_DISK_SIZE_USED, input_name='SYSTEM_DISK_SIZE_USED'), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMS, input_name='VMS'), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMS_USED, input_name='VMS_USED'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'CPU') fval_ = self.gds_validate_float(fval_, node, 'CPU') self.CPU = fval_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'CPU_USED') fval_ = self.gds_validate_float(fval_, node, 'CPU_USED') self.CPU_USED = fval_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY') self.MEMORY = ival_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY_USED') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY_USED') self.MEMORY_USED = ival_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'RUNNING_CPU') fval_ = self.gds_validate_float(fval_, node, 'RUNNING_CPU') self.RUNNING_CPU = fval_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'RUNNING_CPU_USED') fval_ = self.gds_validate_float(fval_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = fval_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = ival_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_MEMORY_USED') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = ival_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS') self.RUNNING_VMS = ival_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS_USED') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = ival_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SYSTEM_DISK_SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = ival_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SYSTEM_DISK_SIZE_USED') ival_ = self.gds_validate_integer(ival_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = ival_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMS') ival_ = self.gds_validate_integer(ival_, node, 'VMS') self.VMS = ival_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMS_USED') ival_ = self.gds_validate_integer(ival_, node, 'VMS_USED') self.VMS_USED = ival_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType29 class IMAGE_QUOTAType30(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType30) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType30.subclass: return IMAGE_QUOTAType30.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType30(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType30', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType30') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType30': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType30') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType30', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType30'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType30', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType31.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType30 class IMAGEType31(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType31) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType31.subclass: return IMAGEType31.subclass(*args_, **kwargs_) else: return IMAGEType31(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType31', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType31') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType31': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType31') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType31', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType31'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType31', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType31 class TEMPLATEType32(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, ARGUMENTS_STDIN=None, CALL=None, COMMAND=None, REMOTE=None, RESOURCE=None, STATE=None, LCM_STATE=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.ARGUMENTS_STDIN = ARGUMENTS_STDIN self.ARGUMENTS_STDIN_nsprefix_ = None self.CALL = CALL self.CALL_nsprefix_ = None self.COMMAND = COMMAND self.COMMAND_nsprefix_ = None self.REMOTE = REMOTE self.REMOTE_nsprefix_ = None self.RESOURCE = RESOURCE self.RESOURCE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.LCM_STATE = LCM_STATE self.LCM_STATE_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType32) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType32.subclass: return TEMPLATEType32.subclass(*args_, **kwargs_) else: return TEMPLATEType32(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_ARGUMENTS_STDIN(self): return self.ARGUMENTS_STDIN def set_ARGUMENTS_STDIN(self, ARGUMENTS_STDIN): self.ARGUMENTS_STDIN = ARGUMENTS_STDIN def get_CALL(self): return self.CALL def set_CALL(self, CALL): self.CALL = CALL def get_COMMAND(self): return self.COMMAND def set_COMMAND(self, COMMAND): self.COMMAND = COMMAND def get_REMOTE(self): return self.REMOTE def set_REMOTE(self, REMOTE): self.REMOTE = REMOTE def get_RESOURCE(self): return self.RESOURCE def set_RESOURCE(self, RESOURCE): self.RESOURCE = RESOURCE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_LCM_STATE(self): return self.LCM_STATE def set_LCM_STATE(self, LCM_STATE): self.LCM_STATE = LCM_STATE def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.ARGUMENTS is not None or self.ARGUMENTS_STDIN is not None or self.CALL is not None or self.COMMAND is not None or self.REMOTE is not None or self.RESOURCE is not None or self.STATE is not None or self.LCM_STATE is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType32', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType32') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType32': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType32') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType32', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType32'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType32', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.ARGUMENTS_STDIN is not None: namespaceprefix_ = self.ARGUMENTS_STDIN_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_STDIN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS_STDIN>%s</%sARGUMENTS_STDIN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS_STDIN), input_name='ARGUMENTS_STDIN')), namespaceprefix_ , eol_)) if self.CALL is not None: namespaceprefix_ = self.CALL_nsprefix_ + ':' if (UseCapturedNS_ and self.CALL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCALL>%s</%sCALL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CALL), input_name='CALL')), namespaceprefix_ , eol_)) if self.COMMAND is not None: namespaceprefix_ = self.COMMAND_nsprefix_ + ':' if (UseCapturedNS_ and self.COMMAND_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOMMAND>%s</%sCOMMAND>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.COMMAND), input_name='COMMAND')), namespaceprefix_ , eol_)) if self.REMOTE is not None: namespaceprefix_ = self.REMOTE_nsprefix_ + ':' if (UseCapturedNS_ and self.REMOTE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREMOTE>%s</%sREMOTE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REMOTE), input_name='REMOTE')), namespaceprefix_ , eol_)) if self.RESOURCE is not None: namespaceprefix_ = self.RESOURCE_nsprefix_ + ':' if (UseCapturedNS_ and self.RESOURCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESOURCE>%s</%sRESOURCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESOURCE), input_name='RESOURCE')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.STATE), input_name='STATE')), namespaceprefix_ , eol_)) if self.LCM_STATE is not None: namespaceprefix_ = self.LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLCM_STATE>%s</%sLCM_STATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LCM_STATE), input_name='LCM_STATE')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'ARGUMENTS_STDIN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS_STDIN') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS_STDIN') self.ARGUMENTS_STDIN = value_ self.ARGUMENTS_STDIN_nsprefix_ = child_.prefix elif nodeName_ == 'CALL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CALL') value_ = self.gds_validate_string(value_, node, 'CALL') self.CALL = value_ self.CALL_nsprefix_ = child_.prefix elif nodeName_ == 'COMMAND': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'COMMAND') value_ = self.gds_validate_string(value_, node, 'COMMAND') self.COMMAND = value_ self.COMMAND_nsprefix_ = child_.prefix elif nodeName_ == 'REMOTE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REMOTE') value_ = self.gds_validate_string(value_, node, 'REMOTE') self.REMOTE = value_ self.REMOTE_nsprefix_ = child_.prefix elif nodeName_ == 'RESOURCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESOURCE') value_ = self.gds_validate_string(value_, node, 'RESOURCE') self.RESOURCE = value_ self.RESOURCE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'STATE') value_ = self.gds_validate_string(value_, node, 'STATE') self.STATE = value_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'LCM_STATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LCM_STATE') value_ = self.gds_validate_string(value_, node, 'LCM_STATE') self.LCM_STATE = value_ self.LCM_STATE_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType32') self.anytypeobjs_.append(content_) # end class TEMPLATEType32 class HOOKLOGType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOOK_EXECUTION_RECORD=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HOOK_EXECUTION_RECORD is None: self.HOOK_EXECUTION_RECORD = [] else: self.HOOK_EXECUTION_RECORD = HOOK_EXECUTION_RECORD self.HOOK_EXECUTION_RECORD_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOKLOGType) if subclass is not None: return subclass(*args_, **kwargs_) if HOOKLOGType.subclass: return HOOKLOGType.subclass(*args_, **kwargs_) else: return HOOKLOGType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOOK_EXECUTION_RECORD(self): return self.HOOK_EXECUTION_RECORD def set_HOOK_EXECUTION_RECORD(self, HOOK_EXECUTION_RECORD): self.HOOK_EXECUTION_RECORD = HOOK_EXECUTION_RECORD def add_HOOK_EXECUTION_RECORD(self, value): self.HOOK_EXECUTION_RECORD.append(value) def insert_HOOK_EXECUTION_RECORD_at(self, index, value): self.HOOK_EXECUTION_RECORD.insert(index, value) def replace_HOOK_EXECUTION_RECORD_at(self, index, value): self.HOOK_EXECUTION_RECORD[index] = value def has__content(self): if ( self.HOOK_EXECUTION_RECORD ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOKLOGType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOKLOGType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOKLOGType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOKLOGType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOKLOGType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOKLOGType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOKLOGType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HOOK_EXECUTION_RECORD_ in self.HOOK_EXECUTION_RECORD: namespaceprefix_ = self.HOOK_EXECUTION_RECORD_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOK_EXECUTION_RECORD_nsprefix_) else '' HOOK_EXECUTION_RECORD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOOK_EXECUTION_RECORD', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOOK_EXECUTION_RECORD': obj_ = HOOK_EXECUTION_RECORDType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOOK_EXECUTION_RECORD.append(obj_) obj_.original_tagname_ = 'HOOK_EXECUTION_RECORD' # end class HOOKLOGType class HOOK_EXECUTION_RECORDType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOOK_ID=None, EXECUTION_ID=None, TIMESTAMP=None, ARGUMENTS=None, EXECUTION_RESULT=None, REMOTE_HOST=None, RETRY=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.HOOK_ID = HOOK_ID self.HOOK_ID_nsprefix_ = None self.EXECUTION_ID = EXECUTION_ID self.EXECUTION_ID_nsprefix_ = None self.TIMESTAMP = TIMESTAMP self.TIMESTAMP_nsprefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTION_RESULT = EXECUTION_RESULT self.EXECUTION_RESULT_nsprefix_ = None self.REMOTE_HOST = REMOTE_HOST self.REMOTE_HOST_nsprefix_ = None self.RETRY = RETRY self.RETRY_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOK_EXECUTION_RECORDType) if subclass is not None: return subclass(*args_, **kwargs_) if HOOK_EXECUTION_RECORDType.subclass: return HOOK_EXECUTION_RECORDType.subclass(*args_, **kwargs_) else: return HOOK_EXECUTION_RECORDType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOOK_ID(self): return self.HOOK_ID def set_HOOK_ID(self, HOOK_ID): self.HOOK_ID = HOOK_ID def get_EXECUTION_ID(self): return self.EXECUTION_ID def set_EXECUTION_ID(self, EXECUTION_ID): self.EXECUTION_ID = EXECUTION_ID def get_TIMESTAMP(self): return self.TIMESTAMP def set_TIMESTAMP(self, TIMESTAMP): self.TIMESTAMP = TIMESTAMP def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTION_RESULT(self): return self.EXECUTION_RESULT def set_EXECUTION_RESULT(self, EXECUTION_RESULT): self.EXECUTION_RESULT = EXECUTION_RESULT def get_REMOTE_HOST(self): return self.REMOTE_HOST def set_REMOTE_HOST(self, REMOTE_HOST): self.REMOTE_HOST = REMOTE_HOST def get_RETRY(self): return self.RETRY def set_RETRY(self, RETRY): self.RETRY = RETRY def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.HOOK_ID is not None or self.EXECUTION_ID is not None or self.TIMESTAMP is not None or self.ARGUMENTS is not None or self.EXECUTION_RESULT is not None or self.REMOTE_HOST is not None or self.RETRY is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_EXECUTION_RECORDType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOK_EXECUTION_RECORDType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOK_EXECUTION_RECORDType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOK_EXECUTION_RECORDType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOK_EXECUTION_RECORDType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOK_EXECUTION_RECORDType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_EXECUTION_RECORDType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.HOOK_ID is not None: namespaceprefix_ = self.HOOK_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.HOOK_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOOK_ID>%s</%sHOOK_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.HOOK_ID, input_name='HOOK_ID'), namespaceprefix_ , eol_)) if self.EXECUTION_ID is not None: namespaceprefix_ = self.EXECUTION_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTION_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTION_ID>%s</%sEXECUTION_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.EXECUTION_ID, input_name='EXECUTION_ID'), namespaceprefix_ , eol_)) if self.TIMESTAMP is not None: namespaceprefix_ = self.TIMESTAMP_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMESTAMP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMESTAMP>%s</%sTIMESTAMP>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMESTAMP, input_name='TIMESTAMP'), namespaceprefix_ , eol_)) if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTION_RESULT is not None: namespaceprefix_ = self.EXECUTION_RESULT_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTION_RESULT_nsprefix_) else '' self.EXECUTION_RESULT.export(outfile, level, namespaceprefix_, namespacedef_='', name_='EXECUTION_RESULT', pretty_print=pretty_print) if self.REMOTE_HOST is not None: namespaceprefix_ = self.REMOTE_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.REMOTE_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREMOTE_HOST>%s</%sREMOTE_HOST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REMOTE_HOST), input_name='REMOTE_HOST')), namespaceprefix_ , eol_)) if self.RETRY is not None: namespaceprefix_ = self.RETRY_nsprefix_ + ':' if (UseCapturedNS_ and self.RETRY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRETRY>%s</%sRETRY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RETRY), input_name='RETRY')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOOK_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'HOOK_ID') ival_ = self.gds_validate_integer(ival_, node, 'HOOK_ID') self.HOOK_ID = ival_ self.HOOK_ID_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTION_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EXECUTION_ID') ival_ = self.gds_validate_integer(ival_, node, 'EXECUTION_ID') self.EXECUTION_ID = ival_ self.EXECUTION_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TIMESTAMP' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMESTAMP') ival_ = self.gds_validate_integer(ival_, node, 'TIMESTAMP') self.TIMESTAMP = ival_ self.TIMESTAMP_nsprefix_ = child_.prefix elif nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTION_RESULT': obj_ = EXECUTION_RESULTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.EXECUTION_RESULT = obj_ obj_.original_tagname_ = 'EXECUTION_RESULT' elif nodeName_ == 'REMOTE_HOST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REMOTE_HOST') value_ = self.gds_validate_string(value_, node, 'REMOTE_HOST') self.REMOTE_HOST = value_ self.REMOTE_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'RETRY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RETRY') value_ = self.gds_validate_string(value_, node, 'RETRY') self.RETRY = value_ self.RETRY_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'HOOK_EXECUTION_RECORDType') self.anytypeobjs_.append(content_) # end class HOOK_EXECUTION_RECORDType class EXECUTION_RESULTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, COMMAND=None, STDOUT=None, STDERR=None, CODE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.COMMAND = COMMAND self.COMMAND_nsprefix_ = None self.STDOUT = STDOUT self.STDOUT_nsprefix_ = None self.STDERR = STDERR self.STDERR_nsprefix_ = None self.CODE = CODE self.CODE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, EXECUTION_RESULTType) if subclass is not None: return subclass(*args_, **kwargs_) if EXECUTION_RESULTType.subclass: return EXECUTION_RESULTType.subclass(*args_, **kwargs_) else: return EXECUTION_RESULTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_COMMAND(self): return self.COMMAND def set_COMMAND(self, COMMAND): self.COMMAND = COMMAND def get_STDOUT(self): return self.STDOUT def set_STDOUT(self, STDOUT): self.STDOUT = STDOUT def get_STDERR(self): return self.STDERR def set_STDERR(self, STDERR): self.STDERR = STDERR def get_CODE(self): return self.CODE def set_CODE(self, CODE): self.CODE = CODE def has__content(self): if ( self.COMMAND is not None or self.STDOUT is not None or self.STDERR is not None or self.CODE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='EXECUTION_RESULTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('EXECUTION_RESULTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'EXECUTION_RESULTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='EXECUTION_RESULTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='EXECUTION_RESULTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='EXECUTION_RESULTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='EXECUTION_RESULTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.COMMAND is not None: namespaceprefix_ = self.COMMAND_nsprefix_ + ':' if (UseCapturedNS_ and self.COMMAND_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOMMAND>%s</%sCOMMAND>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.COMMAND), input_name='COMMAND')), namespaceprefix_ , eol_)) if self.STDOUT is not None: namespaceprefix_ = self.STDOUT_nsprefix_ + ':' if (UseCapturedNS_ and self.STDOUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTDOUT>%s</%sSTDOUT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.STDOUT), input_name='STDOUT')), namespaceprefix_ , eol_)) if self.STDERR is not None: namespaceprefix_ = self.STDERR_nsprefix_ + ':' if (UseCapturedNS_ and self.STDERR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTDERR>%s</%sSTDERR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.STDERR), input_name='STDERR')), namespaceprefix_ , eol_)) if self.CODE is not None: namespaceprefix_ = self.CODE_nsprefix_ + ':' if (UseCapturedNS_ and self.CODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCODE>%s</%sCODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CODE), input_name='CODE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'COMMAND': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'COMMAND') value_ = self.gds_validate_string(value_, node, 'COMMAND') self.COMMAND = value_ self.COMMAND_nsprefix_ = child_.prefix elif nodeName_ == 'STDOUT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'STDOUT') value_ = self.gds_validate_string(value_, node, 'STDOUT') self.STDOUT = value_ self.STDOUT_nsprefix_ = child_.prefix elif nodeName_ == 'STDERR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'STDERR') value_ = self.gds_validate_string(value_, node, 'STDERR') self.STDERR = value_ self.STDERR_nsprefix_ = child_.prefix elif nodeName_ == 'CODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CODE') value_ = self.gds_validate_string(value_, node, 'CODE') self.CODE = value_ self.CODE_nsprefix_ = child_.prefix # end class EXECUTION_RESULTType class HOST_SHAREType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MEM_USAGE=None, CPU_USAGE=None, TOTAL_MEM=None, TOTAL_CPU=None, MAX_MEM=None, MAX_CPU=None, RUNNING_VMS=None, VMS_THREAD=None, DATASTORES=None, PCI_DEVICES=None, NUMA_NODES=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.MEM_USAGE = MEM_USAGE self.MEM_USAGE_nsprefix_ = None self.CPU_USAGE = CPU_USAGE self.CPU_USAGE_nsprefix_ = None self.TOTAL_MEM = TOTAL_MEM self.TOTAL_MEM_nsprefix_ = None self.TOTAL_CPU = TOTAL_CPU self.TOTAL_CPU_nsprefix_ = None self.MAX_MEM = MAX_MEM self.MAX_MEM_nsprefix_ = None self.MAX_CPU = MAX_CPU self.MAX_CPU_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.VMS_THREAD = VMS_THREAD self.VMS_THREAD_nsprefix_ = None self.DATASTORES = DATASTORES self.DATASTORES_nsprefix_ = None self.PCI_DEVICES = PCI_DEVICES self.PCI_DEVICES_nsprefix_ = None self.NUMA_NODES = NUMA_NODES self.NUMA_NODES_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOST_SHAREType) if subclass is not None: return subclass(*args_, **kwargs_) if HOST_SHAREType.subclass: return HOST_SHAREType.subclass(*args_, **kwargs_) else: return HOST_SHAREType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MEM_USAGE(self): return self.MEM_USAGE def set_MEM_USAGE(self, MEM_USAGE): self.MEM_USAGE = MEM_USAGE def get_CPU_USAGE(self): return self.CPU_USAGE def set_CPU_USAGE(self, CPU_USAGE): self.CPU_USAGE = CPU_USAGE def get_TOTAL_MEM(self): return self.TOTAL_MEM def set_TOTAL_MEM(self, TOTAL_MEM): self.TOTAL_MEM = TOTAL_MEM def get_TOTAL_CPU(self): return self.TOTAL_CPU def set_TOTAL_CPU(self, TOTAL_CPU): self.TOTAL_CPU = TOTAL_CPU def get_MAX_MEM(self): return self.MAX_MEM def set_MAX_MEM(self, MAX_MEM): self.MAX_MEM = MAX_MEM def get_MAX_CPU(self): return self.MAX_CPU def set_MAX_CPU(self, MAX_CPU): self.MAX_CPU = MAX_CPU def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_VMS_THREAD(self): return self.VMS_THREAD def set_VMS_THREAD(self, VMS_THREAD): self.VMS_THREAD = VMS_THREAD def get_DATASTORES(self): return self.DATASTORES def set_DATASTORES(self, DATASTORES): self.DATASTORES = DATASTORES def get_PCI_DEVICES(self): return self.PCI_DEVICES def set_PCI_DEVICES(self, PCI_DEVICES): self.PCI_DEVICES = PCI_DEVICES def get_NUMA_NODES(self): return self.NUMA_NODES def set_NUMA_NODES(self, NUMA_NODES): self.NUMA_NODES = NUMA_NODES def has__content(self): if ( self.MEM_USAGE is not None or self.CPU_USAGE is not None or self.TOTAL_MEM is not None or self.TOTAL_CPU is not None or self.MAX_MEM is not None or self.MAX_CPU is not None or self.RUNNING_VMS is not None or self.VMS_THREAD is not None or self.DATASTORES is not None or self.PCI_DEVICES is not None or self.NUMA_NODES is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST_SHAREType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOST_SHAREType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOST_SHAREType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOST_SHAREType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOST_SHAREType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOST_SHAREType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOST_SHAREType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.MEM_USAGE is not None: namespaceprefix_ = self.MEM_USAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.MEM_USAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEM_USAGE>%s</%sMEM_USAGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEM_USAGE, input_name='MEM_USAGE'), namespaceprefix_ , eol_)) if self.CPU_USAGE is not None: namespaceprefix_ = self.CPU_USAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USAGE>%s</%sCPU_USAGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.CPU_USAGE, input_name='CPU_USAGE'), namespaceprefix_ , eol_)) if self.TOTAL_MEM is not None: namespaceprefix_ = self.TOTAL_MEM_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_MEM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL_MEM>%s</%sTOTAL_MEM>%s' % (namespaceprefix_ , self.gds_format_integer(self.TOTAL_MEM, input_name='TOTAL_MEM'), namespaceprefix_ , eol_)) if self.TOTAL_CPU is not None: namespaceprefix_ = self.TOTAL_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL_CPU>%s</%sTOTAL_CPU>%s' % (namespaceprefix_ , self.gds_format_integer(self.TOTAL_CPU, input_name='TOTAL_CPU'), namespaceprefix_ , eol_)) if self.MAX_MEM is not None: namespaceprefix_ = self.MAX_MEM_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_MEM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_MEM>%s</%sMAX_MEM>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_MEM, input_name='MAX_MEM'), namespaceprefix_ , eol_)) if self.MAX_CPU is not None: namespaceprefix_ = self.MAX_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_CPU>%s</%sMAX_CPU>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_CPU, input_name='MAX_CPU'), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_format_integer(self.RUNNING_VMS, input_name='RUNNING_VMS'), namespaceprefix_ , eol_)) if self.VMS_THREAD is not None: namespaceprefix_ = self.VMS_THREAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_THREAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_THREAD>%s</%sVMS_THREAD>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMS_THREAD, input_name='VMS_THREAD'), namespaceprefix_ , eol_)) if self.DATASTORES is not None: namespaceprefix_ = self.DATASTORES_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORES_nsprefix_) else '' self.DATASTORES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORES', pretty_print=pretty_print) if self.PCI_DEVICES is not None: namespaceprefix_ = self.PCI_DEVICES_nsprefix_ + ':' if (UseCapturedNS_ and self.PCI_DEVICES_nsprefix_) else '' self.PCI_DEVICES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PCI_DEVICES', pretty_print=pretty_print) if self.NUMA_NODES is not None: namespaceprefix_ = self.NUMA_NODES_nsprefix_ + ':' if (UseCapturedNS_ and self.NUMA_NODES_nsprefix_) else '' self.NUMA_NODES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NUMA_NODES', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MEM_USAGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEM_USAGE') ival_ = self.gds_validate_integer(ival_, node, 'MEM_USAGE') self.MEM_USAGE = ival_ self.MEM_USAGE_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USAGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CPU_USAGE') ival_ = self.gds_validate_integer(ival_, node, 'CPU_USAGE') self.CPU_USAGE = ival_ self.CPU_USAGE_nsprefix_ = child_.prefix elif nodeName_ == 'TOTAL_MEM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TOTAL_MEM') ival_ = self.gds_validate_integer(ival_, node, 'TOTAL_MEM') self.TOTAL_MEM = ival_ self.TOTAL_MEM_nsprefix_ = child_.prefix elif nodeName_ == 'TOTAL_CPU' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TOTAL_CPU') ival_ = self.gds_validate_integer(ival_, node, 'TOTAL_CPU') self.TOTAL_CPU = ival_ self.TOTAL_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_MEM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_MEM') ival_ = self.gds_validate_integer(ival_, node, 'MAX_MEM') self.MAX_MEM = ival_ self.MAX_MEM_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_CPU' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_CPU') ival_ = self.gds_validate_integer(ival_, node, 'MAX_CPU') self.MAX_CPU = ival_ self.MAX_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RUNNING_VMS') ival_ = self.gds_validate_integer(ival_, node, 'RUNNING_VMS') self.RUNNING_VMS = ival_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_THREAD' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMS_THREAD') ival_ = self.gds_validate_integer(ival_, node, 'VMS_THREAD') self.VMS_THREAD = ival_ self.VMS_THREAD_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORES': obj_ = DATASTORESType33.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORES = obj_ obj_.original_tagname_ = 'DATASTORES' elif nodeName_ == 'PCI_DEVICES': obj_ = PCI_DEVICESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PCI_DEVICES = obj_ obj_.original_tagname_ = 'PCI_DEVICES' elif nodeName_ == 'NUMA_NODES': obj_ = NUMA_NODESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NUMA_NODES = obj_ obj_.original_tagname_ = 'NUMA_NODES' # end class HOST_SHAREType class DATASTORESType33(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DISK_USAGE=None, FREE_DISK=None, MAX_DISK=None, USED_DISK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DISK_USAGE = DISK_USAGE self.DISK_USAGE_nsprefix_ = None self.FREE_DISK = FREE_DISK self.FREE_DISK_nsprefix_ = None self.MAX_DISK = MAX_DISK self.MAX_DISK_nsprefix_ = None self.USED_DISK = USED_DISK self.USED_DISK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORESType33) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORESType33.subclass: return DATASTORESType33.subclass(*args_, **kwargs_) else: return DATASTORESType33(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DISK_USAGE(self): return self.DISK_USAGE def set_DISK_USAGE(self, DISK_USAGE): self.DISK_USAGE = DISK_USAGE def get_FREE_DISK(self): return self.FREE_DISK def set_FREE_DISK(self, FREE_DISK): self.FREE_DISK = FREE_DISK def get_MAX_DISK(self): return self.MAX_DISK def set_MAX_DISK(self, MAX_DISK): self.MAX_DISK = MAX_DISK def get_USED_DISK(self): return self.USED_DISK def set_USED_DISK(self, USED_DISK): self.USED_DISK = USED_DISK def has__content(self): if ( self.DISK_USAGE is not None or self.FREE_DISK is not None or self.MAX_DISK is not None or self.USED_DISK is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType33', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORESType33') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORESType33': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORESType33') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORESType33', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORESType33'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType33', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DISK_USAGE is not None: namespaceprefix_ = self.DISK_USAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_USAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_USAGE>%s</%sDISK_USAGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_USAGE, input_name='DISK_USAGE'), namespaceprefix_ , eol_)) if self.FREE_DISK is not None: namespaceprefix_ = self.FREE_DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_DISK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE_DISK>%s</%sFREE_DISK>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE_DISK, input_name='FREE_DISK'), namespaceprefix_ , eol_)) if self.MAX_DISK is not None: namespaceprefix_ = self.MAX_DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_DISK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_DISK>%s</%sMAX_DISK>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_DISK, input_name='MAX_DISK'), namespaceprefix_ , eol_)) if self.USED_DISK is not None: namespaceprefix_ = self.USED_DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_DISK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_DISK>%s</%sUSED_DISK>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_DISK, input_name='USED_DISK'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DISK_USAGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_USAGE') ival_ = self.gds_validate_integer(ival_, node, 'DISK_USAGE') self.DISK_USAGE = ival_ self.DISK_USAGE_nsprefix_ = child_.prefix elif nodeName_ == 'FREE_DISK' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE_DISK') ival_ = self.gds_validate_integer(ival_, node, 'FREE_DISK') self.FREE_DISK = ival_ self.FREE_DISK_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_DISK' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_DISK') ival_ = self.gds_validate_integer(ival_, node, 'MAX_DISK') self.MAX_DISK = ival_ self.MAX_DISK_nsprefix_ = child_.prefix elif nodeName_ == 'USED_DISK' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_DISK') ival_ = self.gds_validate_integer(ival_, node, 'USED_DISK') self.USED_DISK = ival_ self.USED_DISK_nsprefix_ = child_.prefix # end class DATASTORESType33 class PCI_DEVICESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, PCI=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if PCI is None: self.PCI = [] else: self.PCI = PCI self.PCI_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PCI_DEVICESType) if subclass is not None: return subclass(*args_, **kwargs_) if PCI_DEVICESType.subclass: return PCI_DEVICESType.subclass(*args_, **kwargs_) else: return PCI_DEVICESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_PCI(self): return self.PCI def set_PCI(self, PCI): self.PCI = PCI def add_PCI(self, value): self.PCI.append(value) def insert_PCI_at(self, index, value): self.PCI.insert(index, value) def replace_PCI_at(self, index, value): self.PCI[index] = value def has__content(self): if ( self.PCI ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PCI_DEVICESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PCI_DEVICESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PCI_DEVICESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PCI_DEVICESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PCI_DEVICESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PCI_DEVICESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PCI_DEVICESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for PCI_ in self.PCI: namespaceprefix_ = self.PCI_nsprefix_ + ':' if (UseCapturedNS_ and self.PCI_nsprefix_) else '' PCI_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PCI', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'PCI': obj_ = PCIType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PCI.append(obj_) obj_.original_tagname_ = 'PCI' # end class PCI_DEVICESType class PCIType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ADDRESS=None, BUS=None, CLASS=None, CLASS_NAME=None, DEVICE=None, DEVICE_NAME=None, DOMAIN=None, FUNCTION=None, NUMA_NODE=None, PROFILES=None, SHORT_ADDRESS=None, SLOT=None, TYPE=None, UUID=None, VENDOR=None, VENDOR_NAME=None, VMID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ADDRESS = ADDRESS self.ADDRESS_nsprefix_ = None self.BUS = BUS self.BUS_nsprefix_ = None self.CLASS = CLASS self.CLASS_nsprefix_ = None self.CLASS_NAME = CLASS_NAME self.CLASS_NAME_nsprefix_ = None self.DEVICE = DEVICE self.DEVICE_nsprefix_ = None self.DEVICE_NAME = DEVICE_NAME self.DEVICE_NAME_nsprefix_ = None self.DOMAIN = DOMAIN self.DOMAIN_nsprefix_ = None self.FUNCTION = FUNCTION self.FUNCTION_nsprefix_ = None self.NUMA_NODE = NUMA_NODE self.NUMA_NODE_nsprefix_ = None self.PROFILES = PROFILES self.PROFILES_nsprefix_ = None self.SHORT_ADDRESS = SHORT_ADDRESS self.SHORT_ADDRESS_nsprefix_ = None self.SLOT = SLOT self.SLOT_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.UUID = UUID self.UUID_nsprefix_ = None self.VENDOR = VENDOR self.VENDOR_nsprefix_ = None self.VENDOR_NAME = VENDOR_NAME self.VENDOR_NAME_nsprefix_ = None self.VMID = VMID self.VMID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PCIType) if subclass is not None: return subclass(*args_, **kwargs_) if PCIType.subclass: return PCIType.subclass(*args_, **kwargs_) else: return PCIType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ADDRESS(self): return self.ADDRESS def set_ADDRESS(self, ADDRESS): self.ADDRESS = ADDRESS def get_BUS(self): return self.BUS def set_BUS(self, BUS): self.BUS = BUS def get_CLASS(self): return self.CLASS def set_CLASS(self, CLASS): self.CLASS = CLASS def get_CLASS_NAME(self): return self.CLASS_NAME def set_CLASS_NAME(self, CLASS_NAME): self.CLASS_NAME = CLASS_NAME def get_DEVICE(self): return self.DEVICE def set_DEVICE(self, DEVICE): self.DEVICE = DEVICE def get_DEVICE_NAME(self): return self.DEVICE_NAME def set_DEVICE_NAME(self, DEVICE_NAME): self.DEVICE_NAME = DEVICE_NAME def get_DOMAIN(self): return self.DOMAIN def set_DOMAIN(self, DOMAIN): self.DOMAIN = DOMAIN def get_FUNCTION(self): return self.FUNCTION def set_FUNCTION(self, FUNCTION): self.FUNCTION = FUNCTION def get_NUMA_NODE(self): return self.NUMA_NODE def set_NUMA_NODE(self, NUMA_NODE): self.NUMA_NODE = NUMA_NODE def get_PROFILES(self): return self.PROFILES def set_PROFILES(self, PROFILES): self.PROFILES = PROFILES def get_SHORT_ADDRESS(self): return self.SHORT_ADDRESS def set_SHORT_ADDRESS(self, SHORT_ADDRESS): self.SHORT_ADDRESS = SHORT_ADDRESS def get_SLOT(self): return self.SLOT def set_SLOT(self, SLOT): self.SLOT = SLOT def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_UUID(self): return self.UUID def set_UUID(self, UUID): self.UUID = UUID def get_VENDOR(self): return self.VENDOR def set_VENDOR(self, VENDOR): self.VENDOR = VENDOR def get_VENDOR_NAME(self): return self.VENDOR_NAME def set_VENDOR_NAME(self, VENDOR_NAME): self.VENDOR_NAME = VENDOR_NAME def get_VMID(self): return self.VMID def set_VMID(self, VMID): self.VMID = VMID def has__content(self): if ( self.ADDRESS is not None or self.BUS is not None or self.CLASS is not None or self.CLASS_NAME is not None or self.DEVICE is not None or self.DEVICE_NAME is not None or self.DOMAIN is not None or self.FUNCTION is not None or self.NUMA_NODE is not None or self.PROFILES is not None or self.SHORT_ADDRESS is not None or self.SLOT is not None or self.TYPE is not None or self.UUID is not None or self.VENDOR is not None or self.VENDOR_NAME is not None or self.VMID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PCIType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PCIType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PCIType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PCIType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PCIType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PCIType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PCIType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ADDRESS is not None: namespaceprefix_ = self.ADDRESS_nsprefix_ + ':' if (UseCapturedNS_ and self.ADDRESS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sADDRESS>%s</%sADDRESS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ADDRESS), input_name='ADDRESS')), namespaceprefix_ , eol_)) if self.BUS is not None: namespaceprefix_ = self.BUS_nsprefix_ + ':' if (UseCapturedNS_ and self.BUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBUS>%s</%sBUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BUS), input_name='BUS')), namespaceprefix_ , eol_)) if self.CLASS is not None: namespaceprefix_ = self.CLASS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLASS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLASS>%s</%sCLASS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLASS), input_name='CLASS')), namespaceprefix_ , eol_)) if self.CLASS_NAME is not None: namespaceprefix_ = self.CLASS_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.CLASS_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLASS_NAME>%s</%sCLASS_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLASS_NAME), input_name='CLASS_NAME')), namespaceprefix_ , eol_)) if self.DEVICE is not None: namespaceprefix_ = self.DEVICE_nsprefix_ + ':' if (UseCapturedNS_ and self.DEVICE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEVICE>%s</%sDEVICE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEVICE), input_name='DEVICE')), namespaceprefix_ , eol_)) if self.DEVICE_NAME is not None: namespaceprefix_ = self.DEVICE_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.DEVICE_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEVICE_NAME>%s</%sDEVICE_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEVICE_NAME), input_name='DEVICE_NAME')), namespaceprefix_ , eol_)) if self.DOMAIN is not None: namespaceprefix_ = self.DOMAIN_nsprefix_ + ':' if (UseCapturedNS_ and self.DOMAIN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDOMAIN>%s</%sDOMAIN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DOMAIN), input_name='DOMAIN')), namespaceprefix_ , eol_)) if self.FUNCTION is not None: namespaceprefix_ = self.FUNCTION_nsprefix_ + ':' if (UseCapturedNS_ and self.FUNCTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFUNCTION>%s</%sFUNCTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FUNCTION), input_name='FUNCTION')), namespaceprefix_ , eol_)) if self.NUMA_NODE is not None: namespaceprefix_ = self.NUMA_NODE_nsprefix_ + ':' if (UseCapturedNS_ and self.NUMA_NODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNUMA_NODE>%s</%sNUMA_NODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NUMA_NODE), input_name='NUMA_NODE')), namespaceprefix_ , eol_)) if self.PROFILES is not None: namespaceprefix_ = self.PROFILES_nsprefix_ + ':' if (UseCapturedNS_ and self.PROFILES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPROFILES>%s</%sPROFILES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PROFILES), input_name='PROFILES')), namespaceprefix_ , eol_)) if self.SHORT_ADDRESS is not None: namespaceprefix_ = self.SHORT_ADDRESS_nsprefix_ + ':' if (UseCapturedNS_ and self.SHORT_ADDRESS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSHORT_ADDRESS>%s</%sSHORT_ADDRESS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SHORT_ADDRESS), input_name='SHORT_ADDRESS')), namespaceprefix_ , eol_)) if self.SLOT is not None: namespaceprefix_ = self.SLOT_nsprefix_ + ':' if (UseCapturedNS_ and self.SLOT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSLOT>%s</%sSLOT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SLOT), input_name='SLOT')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.UUID is not None: namespaceprefix_ = self.UUID_nsprefix_ + ':' if (UseCapturedNS_ and self.UUID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUUID>%s</%sUUID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UUID), input_name='UUID')), namespaceprefix_ , eol_)) if self.VENDOR is not None: namespaceprefix_ = self.VENDOR_nsprefix_ + ':' if (UseCapturedNS_ and self.VENDOR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVENDOR>%s</%sVENDOR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VENDOR), input_name='VENDOR')), namespaceprefix_ , eol_)) if self.VENDOR_NAME is not None: namespaceprefix_ = self.VENDOR_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VENDOR_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVENDOR_NAME>%s</%sVENDOR_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VENDOR_NAME), input_name='VENDOR_NAME')), namespaceprefix_ , eol_)) if self.VMID is not None: namespaceprefix_ = self.VMID_nsprefix_ + ':' if (UseCapturedNS_ and self.VMID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMID>%s</%sVMID>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMID, input_name='VMID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ADDRESS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ADDRESS') value_ = self.gds_validate_string(value_, node, 'ADDRESS') self.ADDRESS = value_ self.ADDRESS_nsprefix_ = child_.prefix elif nodeName_ == 'BUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BUS') value_ = self.gds_validate_string(value_, node, 'BUS') self.BUS = value_ self.BUS_nsprefix_ = child_.prefix elif nodeName_ == 'CLASS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLASS') value_ = self.gds_validate_string(value_, node, 'CLASS') self.CLASS = value_ self.CLASS_nsprefix_ = child_.prefix elif nodeName_ == 'CLASS_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLASS_NAME') value_ = self.gds_validate_string(value_, node, 'CLASS_NAME') self.CLASS_NAME = value_ self.CLASS_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'DEVICE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEVICE') value_ = self.gds_validate_string(value_, node, 'DEVICE') self.DEVICE = value_ self.DEVICE_nsprefix_ = child_.prefix elif nodeName_ == 'DEVICE_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEVICE_NAME') value_ = self.gds_validate_string(value_, node, 'DEVICE_NAME') self.DEVICE_NAME = value_ self.DEVICE_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'DOMAIN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DOMAIN') value_ = self.gds_validate_string(value_, node, 'DOMAIN') self.DOMAIN = value_ self.DOMAIN_nsprefix_ = child_.prefix elif nodeName_ == 'FUNCTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FUNCTION') value_ = self.gds_validate_string(value_, node, 'FUNCTION') self.FUNCTION = value_ self.FUNCTION_nsprefix_ = child_.prefix elif nodeName_ == 'NUMA_NODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NUMA_NODE') value_ = self.gds_validate_string(value_, node, 'NUMA_NODE') self.NUMA_NODE = value_ self.NUMA_NODE_nsprefix_ = child_.prefix elif nodeName_ == 'PROFILES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PROFILES') value_ = self.gds_validate_string(value_, node, 'PROFILES') self.PROFILES = value_ self.PROFILES_nsprefix_ = child_.prefix elif nodeName_ == 'SHORT_ADDRESS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SHORT_ADDRESS') value_ = self.gds_validate_string(value_, node, 'SHORT_ADDRESS') self.SHORT_ADDRESS = value_ self.SHORT_ADDRESS_nsprefix_ = child_.prefix elif nodeName_ == 'SLOT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SLOT') value_ = self.gds_validate_string(value_, node, 'SLOT') self.SLOT = value_ self.SLOT_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'UUID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UUID') value_ = self.gds_validate_string(value_, node, 'UUID') self.UUID = value_ self.UUID_nsprefix_ = child_.prefix elif nodeName_ == 'VENDOR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VENDOR') value_ = self.gds_validate_string(value_, node, 'VENDOR') self.VENDOR = value_ self.VENDOR_nsprefix_ = child_.prefix elif nodeName_ == 'VENDOR_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VENDOR_NAME') value_ = self.gds_validate_string(value_, node, 'VENDOR_NAME') self.VENDOR_NAME = value_ self.VENDOR_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VMID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMID') ival_ = self.gds_validate_integer(ival_, node, 'VMID') self.VMID = ival_ self.VMID_nsprefix_ = child_.prefix # end class PCIType class NUMA_NODESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NODE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NODE is None: self.NODE = [] else: self.NODE = NODE self.NODE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NUMA_NODESType) if subclass is not None: return subclass(*args_, **kwargs_) if NUMA_NODESType.subclass: return NUMA_NODESType.subclass(*args_, **kwargs_) else: return NUMA_NODESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NODE(self): return self.NODE def set_NODE(self, NODE): self.NODE = NODE def add_NODE(self, value): self.NODE.append(value) def insert_NODE_at(self, index, value): self.NODE.insert(index, value) def replace_NODE_at(self, index, value): self.NODE[index] = value def has__content(self): if ( self.NODE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NUMA_NODESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NUMA_NODESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NUMA_NODESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NUMA_NODESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NUMA_NODESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NUMA_NODESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NUMA_NODESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NODE_ in self.NODE: namespaceprefix_ = self.NODE_nsprefix_ + ':' if (UseCapturedNS_ and self.NODE_nsprefix_) else '' NODE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NODE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NODE': obj_ = NODEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NODE.append(obj_) obj_.original_tagname_ = 'NODE' # end class NUMA_NODESType class NODEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CORE=None, HUGEPAGE=None, MEMORY=None, NODE_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if CORE is None: self.CORE = [] else: self.CORE = CORE self.CORE_nsprefix_ = None if HUGEPAGE is None: self.HUGEPAGE = [] else: self.HUGEPAGE = HUGEPAGE self.HUGEPAGE_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.NODE_ID = NODE_ID self.NODE_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NODEType) if subclass is not None: return subclass(*args_, **kwargs_) if NODEType.subclass: return NODEType.subclass(*args_, **kwargs_) else: return NODEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CORE(self): return self.CORE def set_CORE(self, CORE): self.CORE = CORE def add_CORE(self, value): self.CORE.append(value) def insert_CORE_at(self, index, value): self.CORE.insert(index, value) def replace_CORE_at(self, index, value): self.CORE[index] = value def get_HUGEPAGE(self): return self.HUGEPAGE def set_HUGEPAGE(self, HUGEPAGE): self.HUGEPAGE = HUGEPAGE def add_HUGEPAGE(self, value): self.HUGEPAGE.append(value) def insert_HUGEPAGE_at(self, index, value): self.HUGEPAGE.insert(index, value) def replace_HUGEPAGE_at(self, index, value): self.HUGEPAGE[index] = value def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_NODE_ID(self): return self.NODE_ID def set_NODE_ID(self, NODE_ID): self.NODE_ID = NODE_ID def has__content(self): if ( self.CORE or self.HUGEPAGE or self.MEMORY is not None or self.NODE_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NODEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NODEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NODEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NODEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NODEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NODEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NODEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for CORE_ in self.CORE: namespaceprefix_ = self.CORE_nsprefix_ + ':' if (UseCapturedNS_ and self.CORE_nsprefix_) else '' CORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CORE', pretty_print=pretty_print) for HUGEPAGE_ in self.HUGEPAGE: namespaceprefix_ = self.HUGEPAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.HUGEPAGE_nsprefix_) else '' HUGEPAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HUGEPAGE', pretty_print=pretty_print) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' self.MEMORY.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MEMORY', pretty_print=pretty_print) if self.NODE_ID is not None: namespaceprefix_ = self.NODE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.NODE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNODE_ID>%s</%sNODE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.NODE_ID, input_name='NODE_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CORE': obj_ = COREType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CORE.append(obj_) obj_.original_tagname_ = 'CORE' elif nodeName_ == 'HUGEPAGE': obj_ = HUGEPAGEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HUGEPAGE.append(obj_) obj_.original_tagname_ = 'HUGEPAGE' elif nodeName_ == 'MEMORY': obj_ = MEMORYType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MEMORY = obj_ obj_.original_tagname_ = 'MEMORY' elif nodeName_ == 'NODE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NODE_ID') ival_ = self.gds_validate_integer(ival_, node, 'NODE_ID') self.NODE_ID = ival_ self.NODE_ID_nsprefix_ = child_.prefix # end class NODEType class COREType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPUS=None, DEDICATED=None, FREE=None, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPUS = CPUS self.CPUS_nsprefix_ = None self.DEDICATED = DEDICATED self.DEDICATED_nsprefix_ = None self.FREE = FREE self.FREE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, COREType) if subclass is not None: return subclass(*args_, **kwargs_) if COREType.subclass: return COREType.subclass(*args_, **kwargs_) else: return COREType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPUS(self): return self.CPUS def set_CPUS(self, CPUS): self.CPUS = CPUS def get_DEDICATED(self): return self.DEDICATED def set_DEDICATED(self, DEDICATED): self.DEDICATED = DEDICATED def get_FREE(self): return self.FREE def set_FREE(self, FREE): self.FREE = FREE def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def has__content(self): if ( self.CPUS is not None or self.DEDICATED is not None or self.FREE is not None or self.ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='COREType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('COREType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'COREType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='COREType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='COREType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='COREType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='COREType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPUS is not None: namespaceprefix_ = self.CPUS_nsprefix_ + ':' if (UseCapturedNS_ and self.CPUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPUS>%s</%sCPUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPUS), input_name='CPUS')), namespaceprefix_ , eol_)) if self.DEDICATED is not None: namespaceprefix_ = self.DEDICATED_nsprefix_ + ':' if (UseCapturedNS_ and self.DEDICATED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEDICATED>%s</%sDEDICATED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEDICATED), input_name='DEDICATED')), namespaceprefix_ , eol_)) if self.FREE is not None: namespaceprefix_ = self.FREE_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE>%s</%sFREE>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE, input_name='FREE'), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPUS') value_ = self.gds_validate_string(value_, node, 'CPUS') self.CPUS = value_ self.CPUS_nsprefix_ = child_.prefix elif nodeName_ == 'DEDICATED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEDICATED') value_ = self.gds_validate_string(value_, node, 'DEDICATED') self.DEDICATED = value_ self.DEDICATED_nsprefix_ = child_.prefix elif nodeName_ == 'FREE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE') ival_ = self.gds_validate_integer(ival_, node, 'FREE') self.FREE = ival_ self.FREE_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix # end class COREType class HUGEPAGEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, PAGES=None, SIZE=None, USAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.PAGES = PAGES self.PAGES_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.USAGE = USAGE self.USAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HUGEPAGEType) if subclass is not None: return subclass(*args_, **kwargs_) if HUGEPAGEType.subclass: return HUGEPAGEType.subclass(*args_, **kwargs_) else: return HUGEPAGEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_PAGES(self): return self.PAGES def set_PAGES(self, PAGES): self.PAGES = PAGES def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_USAGE(self): return self.USAGE def set_USAGE(self, USAGE): self.USAGE = USAGE def has__content(self): if ( self.PAGES is not None or self.SIZE is not None or self.USAGE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HUGEPAGEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HUGEPAGEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HUGEPAGEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HUGEPAGEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HUGEPAGEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HUGEPAGEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HUGEPAGEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.PAGES is not None: namespaceprefix_ = self.PAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.PAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPAGES>%s</%sPAGES>%s' % (namespaceprefix_ , self.gds_format_integer(self.PAGES, input_name='PAGES'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) if self.USAGE is not None: namespaceprefix_ = self.USAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.USAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSAGE>%s</%sUSAGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.USAGE, input_name='USAGE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'PAGES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PAGES') ival_ = self.gds_validate_integer(ival_, node, 'PAGES') self.PAGES = ival_ self.PAGES_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'USAGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USAGE') ival_ = self.gds_validate_integer(ival_, node, 'USAGE') self.USAGE = ival_ self.USAGE_nsprefix_ = child_.prefix # end class HUGEPAGEType class MEMORYType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DISTANCE=None, TOTAL=None, USAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DISTANCE = DISTANCE self.DISTANCE_nsprefix_ = None self.TOTAL = TOTAL self.TOTAL_nsprefix_ = None self.USAGE = USAGE self.USAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MEMORYType) if subclass is not None: return subclass(*args_, **kwargs_) if MEMORYType.subclass: return MEMORYType.subclass(*args_, **kwargs_) else: return MEMORYType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DISTANCE(self): return self.DISTANCE def set_DISTANCE(self, DISTANCE): self.DISTANCE = DISTANCE def get_TOTAL(self): return self.TOTAL def set_TOTAL(self, TOTAL): self.TOTAL = TOTAL def get_USAGE(self): return self.USAGE def set_USAGE(self, USAGE): self.USAGE = USAGE def has__content(self): if ( self.DISTANCE is not None or self.TOTAL is not None or self.USAGE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MEMORYType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MEMORYType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MEMORYType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MEMORYType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MEMORYType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MEMORYType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MEMORYType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DISTANCE is not None: namespaceprefix_ = self.DISTANCE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISTANCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISTANCE>%s</%sDISTANCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DISTANCE), input_name='DISTANCE')), namespaceprefix_ , eol_)) if self.TOTAL is not None: namespaceprefix_ = self.TOTAL_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL>%s</%sTOTAL>%s' % (namespaceprefix_ , self.gds_format_integer(self.TOTAL, input_name='TOTAL'), namespaceprefix_ , eol_)) if self.USAGE is not None: namespaceprefix_ = self.USAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.USAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSAGE>%s</%sUSAGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.USAGE, input_name='USAGE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DISTANCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DISTANCE') value_ = self.gds_validate_string(value_, node, 'DISTANCE') self.DISTANCE = value_ self.DISTANCE_nsprefix_ = child_.prefix elif nodeName_ == 'TOTAL' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TOTAL') ival_ = self.gds_validate_integer(ival_, node, 'TOTAL') self.TOTAL = ival_ self.TOTAL_nsprefix_ = child_.prefix elif nodeName_ == 'USAGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USAGE') ival_ = self.gds_validate_integer(ival_, node, 'USAGE') self.USAGE = ival_ self.USAGE_nsprefix_ = child_.prefix # end class MEMORYType class VMSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMSType) if subclass is not None: return subclass(*args_, **kwargs_) if VMSType.subclass: return VMSType.subclass(*args_, **kwargs_) else: return VMSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VMSType class TEMPLATEType34(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_CCR_REF=None, VCENTER_DS_REF=None, VCENTER_HOST=None, VCENTER_INSTANCE_ID=None, VCENTER_NAME=None, VCENTER_PASSWORD=None, VCENTER_RESOURCE_POOL_INFO=None, VCENTER_USER=None, VCENTER_VERSION=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_CCR_REF = VCENTER_CCR_REF self.VCENTER_CCR_REF_nsprefix_ = None if VCENTER_DS_REF is None: self.VCENTER_DS_REF = [] else: self.VCENTER_DS_REF = VCENTER_DS_REF self.VCENTER_DS_REF_nsprefix_ = None self.VCENTER_HOST = VCENTER_HOST self.VCENTER_HOST_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_NAME = VCENTER_NAME self.VCENTER_NAME_nsprefix_ = None self.VCENTER_PASSWORD = VCENTER_PASSWORD self.VCENTER_PASSWORD_nsprefix_ = None if VCENTER_RESOURCE_POOL_INFO is None: self.VCENTER_RESOURCE_POOL_INFO = [] else: self.VCENTER_RESOURCE_POOL_INFO = VCENTER_RESOURCE_POOL_INFO self.VCENTER_RESOURCE_POOL_INFO_nsprefix_ = None self.VCENTER_USER = VCENTER_USER self.VCENTER_USER_nsprefix_ = None self.VCENTER_VERSION = VCENTER_VERSION self.VCENTER_VERSION_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType34) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType34.subclass: return TEMPLATEType34.subclass(*args_, **kwargs_) else: return TEMPLATEType34(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_CCR_REF(self): return self.VCENTER_CCR_REF def set_VCENTER_CCR_REF(self, VCENTER_CCR_REF): self.VCENTER_CCR_REF = VCENTER_CCR_REF def get_VCENTER_DS_REF(self): return self.VCENTER_DS_REF def set_VCENTER_DS_REF(self, VCENTER_DS_REF): self.VCENTER_DS_REF = VCENTER_DS_REF def add_VCENTER_DS_REF(self, value): self.VCENTER_DS_REF.append(value) def insert_VCENTER_DS_REF_at(self, index, value): self.VCENTER_DS_REF.insert(index, value) def replace_VCENTER_DS_REF_at(self, index, value): self.VCENTER_DS_REF[index] = value def get_VCENTER_HOST(self): return self.VCENTER_HOST def set_VCENTER_HOST(self, VCENTER_HOST): self.VCENTER_HOST = VCENTER_HOST def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_NAME(self): return self.VCENTER_NAME def set_VCENTER_NAME(self, VCENTER_NAME): self.VCENTER_NAME = VCENTER_NAME def get_VCENTER_PASSWORD(self): return self.VCENTER_PASSWORD def set_VCENTER_PASSWORD(self, VCENTER_PASSWORD): self.VCENTER_PASSWORD = VCENTER_PASSWORD def get_VCENTER_RESOURCE_POOL_INFO(self): return self.VCENTER_RESOURCE_POOL_INFO def set_VCENTER_RESOURCE_POOL_INFO(self, VCENTER_RESOURCE_POOL_INFO): self.VCENTER_RESOURCE_POOL_INFO = VCENTER_RESOURCE_POOL_INFO def add_VCENTER_RESOURCE_POOL_INFO(self, value): self.VCENTER_RESOURCE_POOL_INFO.append(value) def insert_VCENTER_RESOURCE_POOL_INFO_at(self, index, value): self.VCENTER_RESOURCE_POOL_INFO.insert(index, value) def replace_VCENTER_RESOURCE_POOL_INFO_at(self, index, value): self.VCENTER_RESOURCE_POOL_INFO[index] = value def get_VCENTER_USER(self): return self.VCENTER_USER def set_VCENTER_USER(self, VCENTER_USER): self.VCENTER_USER = VCENTER_USER def get_VCENTER_VERSION(self): return self.VCENTER_VERSION def set_VCENTER_VERSION(self, VCENTER_VERSION): self.VCENTER_VERSION = VCENTER_VERSION def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_CCR_REF is not None or self.VCENTER_DS_REF or self.VCENTER_HOST is not None or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_NAME is not None or self.VCENTER_PASSWORD is not None or self.VCENTER_RESOURCE_POOL_INFO or self.VCENTER_USER is not None or self.VCENTER_VERSION is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType34', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType34') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType34': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType34') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType34', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType34'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType34', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_CCR_REF is not None: namespaceprefix_ = self.VCENTER_CCR_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_CCR_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_CCR_REF>%s</%sVCENTER_CCR_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_CCR_REF), input_name='VCENTER_CCR_REF')), namespaceprefix_ , eol_)) for VCENTER_DS_REF_ in self.VCENTER_DS_REF: namespaceprefix_ = self.VCENTER_DS_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_REF>%s</%sVCENTER_DS_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VCENTER_DS_REF_), input_name='VCENTER_DS_REF')), namespaceprefix_ , eol_)) if self.VCENTER_HOST is not None: namespaceprefix_ = self.VCENTER_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_HOST>%s</%sVCENTER_HOST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_HOST), input_name='VCENTER_HOST')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_NAME is not None: namespaceprefix_ = self.VCENTER_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_NAME>%s</%sVCENTER_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_NAME), input_name='VCENTER_NAME')), namespaceprefix_ , eol_)) if self.VCENTER_PASSWORD is not None: namespaceprefix_ = self.VCENTER_PASSWORD_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_PASSWORD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_PASSWORD>%s</%sVCENTER_PASSWORD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_PASSWORD), input_name='VCENTER_PASSWORD')), namespaceprefix_ , eol_)) for VCENTER_RESOURCE_POOL_INFO_ in self.VCENTER_RESOURCE_POOL_INFO: namespaceprefix_ = self.VCENTER_RESOURCE_POOL_INFO_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_RESOURCE_POOL_INFO_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_RESOURCE_POOL_INFO>%s</%sVCENTER_RESOURCE_POOL_INFO>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VCENTER_RESOURCE_POOL_INFO_), input_name='VCENTER_RESOURCE_POOL_INFO')), namespaceprefix_ , eol_)) if self.VCENTER_USER is not None: namespaceprefix_ = self.VCENTER_USER_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_USER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_USER>%s</%sVCENTER_USER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_USER), input_name='VCENTER_USER')), namespaceprefix_ , eol_)) if self.VCENTER_VERSION is not None: namespaceprefix_ = self.VCENTER_VERSION_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VERSION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VERSION>%s</%sVCENTER_VERSION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VERSION), input_name='VCENTER_VERSION')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_CCR_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_CCR_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_CCR_REF') self.VCENTER_CCR_REF = value_ self.VCENTER_CCR_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_DS_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_REF') self.VCENTER_DS_REF.append(value_) self.VCENTER_DS_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_HOST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_HOST') value_ = self.gds_validate_string(value_, node, 'VCENTER_HOST') self.VCENTER_HOST = value_ self.VCENTER_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_NAME') self.VCENTER_NAME = value_ self.VCENTER_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_PASSWORD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_PASSWORD') value_ = self.gds_validate_string(value_, node, 'VCENTER_PASSWORD') self.VCENTER_PASSWORD = value_ self.VCENTER_PASSWORD_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_RESOURCE_POOL_INFO': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_RESOURCE_POOL_INFO') value_ = self.gds_validate_string(value_, node, 'VCENTER_RESOURCE_POOL_INFO') self.VCENTER_RESOURCE_POOL_INFO.append(value_) self.VCENTER_RESOURCE_POOL_INFO_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_USER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_USER') value_ = self.gds_validate_string(value_, node, 'VCENTER_USER') self.VCENTER_USER = value_ self.VCENTER_USER_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VERSION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VERSION') value_ = self.gds_validate_string(value_, node, 'VCENTER_VERSION') self.VCENTER_VERSION = value_ self.VCENTER_VERSION_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType34') self.anytypeobjs_.append(content_) # end class TEMPLATEType34 class VCENTER_RESOURCE_POOL_INFO(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VCENTER_RESOURCE_POOL_INFO) if subclass is not None: return subclass(*args_, **kwargs_) if VCENTER_RESOURCE_POOL_INFO.subclass: return VCENTER_RESOURCE_POOL_INFO.subclass(*args_, **kwargs_) else: return VCENTER_RESOURCE_POOL_INFO(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='VCENTER_RESOURCE_POOL_INFO', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VCENTER_RESOURCE_POOL_INFO') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VCENTER_RESOURCE_POOL_INFO': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VCENTER_RESOURCE_POOL_INFO') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VCENTER_RESOURCE_POOL_INFO', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VCENTER_RESOURCE_POOL_INFO'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='VCENTER_RESOURCE_POOL_INFO', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class VCENTER_RESOURCE_POOL_INFO class MONITORINGType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, TIMESTAMP=None, ID=None, CAPACITY=None, SYSTEM=None, NUMA_NODE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.TIMESTAMP = TIMESTAMP self.TIMESTAMP_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.CAPACITY = CAPACITY self.CAPACITY_nsprefix_ = None self.SYSTEM = SYSTEM self.SYSTEM_nsprefix_ = None if NUMA_NODE is None: self.NUMA_NODE = [] else: self.NUMA_NODE = NUMA_NODE self.NUMA_NODE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORINGType) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORINGType.subclass: return MONITORINGType.subclass(*args_, **kwargs_) else: return MONITORINGType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_TIMESTAMP(self): return self.TIMESTAMP def set_TIMESTAMP(self, TIMESTAMP): self.TIMESTAMP = TIMESTAMP def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_CAPACITY(self): return self.CAPACITY def set_CAPACITY(self, CAPACITY): self.CAPACITY = CAPACITY def get_SYSTEM(self): return self.SYSTEM def set_SYSTEM(self, SYSTEM): self.SYSTEM = SYSTEM def get_NUMA_NODE(self): return self.NUMA_NODE def set_NUMA_NODE(self, NUMA_NODE): self.NUMA_NODE = NUMA_NODE def add_NUMA_NODE(self, value): self.NUMA_NODE.append(value) def insert_NUMA_NODE_at(self, index, value): self.NUMA_NODE.insert(index, value) def replace_NUMA_NODE_at(self, index, value): self.NUMA_NODE[index] = value def has__content(self): if ( self.TIMESTAMP is not None or self.ID is not None or self.CAPACITY is not None or self.SYSTEM is not None or self.NUMA_NODE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORINGType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORINGType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORINGType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORINGType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORINGType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.TIMESTAMP is not None: namespaceprefix_ = self.TIMESTAMP_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMESTAMP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMESTAMP>%s</%sTIMESTAMP>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMESTAMP, input_name='TIMESTAMP'), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.CAPACITY is not None: namespaceprefix_ = self.CAPACITY_nsprefix_ + ':' if (UseCapturedNS_ and self.CAPACITY_nsprefix_) else '' self.CAPACITY.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CAPACITY', pretty_print=pretty_print) if self.SYSTEM is not None: namespaceprefix_ = self.SYSTEM_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_nsprefix_) else '' self.SYSTEM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SYSTEM', pretty_print=pretty_print) for NUMA_NODE_ in self.NUMA_NODE: namespaceprefix_ = self.NUMA_NODE_nsprefix_ + ':' if (UseCapturedNS_ and self.NUMA_NODE_nsprefix_) else '' NUMA_NODE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NUMA_NODE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'TIMESTAMP' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMESTAMP') ival_ = self.gds_validate_integer(ival_, node, 'TIMESTAMP') self.TIMESTAMP = ival_ self.TIMESTAMP_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'CAPACITY': obj_ = CAPACITYType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CAPACITY = obj_ obj_.original_tagname_ = 'CAPACITY' elif nodeName_ == 'SYSTEM': obj_ = SYSTEMType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SYSTEM = obj_ obj_.original_tagname_ = 'SYSTEM' elif nodeName_ == 'NUMA_NODE': obj_ = NUMA_NODEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NUMA_NODE.append(obj_) obj_.original_tagname_ = 'NUMA_NODE' # end class MONITORINGType class CAPACITYType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, FREE_CPU=None, FREE_MEMORY=None, USED_CPU=None, USED_MEMORY=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.FREE_CPU = FREE_CPU self.FREE_CPU_nsprefix_ = None self.FREE_MEMORY = FREE_MEMORY self.FREE_MEMORY_nsprefix_ = None self.USED_CPU = USED_CPU self.USED_CPU_nsprefix_ = None self.USED_MEMORY = USED_MEMORY self.USED_MEMORY_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CAPACITYType) if subclass is not None: return subclass(*args_, **kwargs_) if CAPACITYType.subclass: return CAPACITYType.subclass(*args_, **kwargs_) else: return CAPACITYType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_FREE_CPU(self): return self.FREE_CPU def set_FREE_CPU(self, FREE_CPU): self.FREE_CPU = FREE_CPU def get_FREE_MEMORY(self): return self.FREE_MEMORY def set_FREE_MEMORY(self, FREE_MEMORY): self.FREE_MEMORY = FREE_MEMORY def get_USED_CPU(self): return self.USED_CPU def set_USED_CPU(self, USED_CPU): self.USED_CPU = USED_CPU def get_USED_MEMORY(self): return self.USED_MEMORY def set_USED_MEMORY(self, USED_MEMORY): self.USED_MEMORY = USED_MEMORY def has__content(self): if ( self.FREE_CPU is not None or self.FREE_MEMORY is not None or self.USED_CPU is not None or self.USED_MEMORY is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CAPACITYType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CAPACITYType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CAPACITYType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CAPACITYType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CAPACITYType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CAPACITYType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CAPACITYType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.FREE_CPU is not None: namespaceprefix_ = self.FREE_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE_CPU>%s</%sFREE_CPU>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE_CPU, input_name='FREE_CPU'), namespaceprefix_ , eol_)) if self.FREE_MEMORY is not None: namespaceprefix_ = self.FREE_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE_MEMORY>%s</%sFREE_MEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE_MEMORY, input_name='FREE_MEMORY'), namespaceprefix_ , eol_)) if self.USED_CPU is not None: namespaceprefix_ = self.USED_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_CPU>%s</%sUSED_CPU>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_CPU, input_name='USED_CPU'), namespaceprefix_ , eol_)) if self.USED_MEMORY is not None: namespaceprefix_ = self.USED_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_MEMORY>%s</%sUSED_MEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_MEMORY, input_name='USED_MEMORY'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'FREE_CPU' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE_CPU') ival_ = self.gds_validate_integer(ival_, node, 'FREE_CPU') self.FREE_CPU = ival_ self.FREE_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'FREE_MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE_MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'FREE_MEMORY') self.FREE_MEMORY = ival_ self.FREE_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'USED_CPU' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_CPU') ival_ = self.gds_validate_integer(ival_, node, 'USED_CPU') self.USED_CPU = ival_ self.USED_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'USED_MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'USED_MEMORY') self.USED_MEMORY = ival_ self.USED_MEMORY_nsprefix_ = child_.prefix # end class CAPACITYType class SYSTEMType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETRX=None, NETTX=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.NETRX = NETRX self.NETRX_nsprefix_ = None self.NETTX = NETTX self.NETTX_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SYSTEMType) if subclass is not None: return subclass(*args_, **kwargs_) if SYSTEMType.subclass: return SYSTEMType.subclass(*args_, **kwargs_) else: return SYSTEMType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETRX(self): return self.NETRX def set_NETRX(self, NETRX): self.NETRX = NETRX def get_NETTX(self): return self.NETTX def set_NETTX(self, NETTX): self.NETTX = NETTX def has__content(self): if ( self.NETRX is not None or self.NETTX is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SYSTEMType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SYSTEMType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SYSTEMType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SYSTEMType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SYSTEMType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SYSTEMType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SYSTEMType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.NETRX is not None: namespaceprefix_ = self.NETRX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETRX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETRX>%s</%sNETRX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETRX, input_name='NETRX'), namespaceprefix_ , eol_)) if self.NETTX is not None: namespaceprefix_ = self.NETTX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETTX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETTX>%s</%sNETTX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETTX, input_name='NETTX'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETRX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETRX') ival_ = self.gds_validate_integer(ival_, node, 'NETRX') self.NETRX = ival_ self.NETRX_nsprefix_ = child_.prefix elif nodeName_ == 'NETTX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETTX') ival_ = self.gds_validate_integer(ival_, node, 'NETTX') self.NETTX = ival_ self.NETTX_nsprefix_ = child_.prefix # end class SYSTEMType class NUMA_NODEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HUGEPAGE=None, MEMORY=None, NODE_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HUGEPAGE is None: self.HUGEPAGE = [] else: self.HUGEPAGE = HUGEPAGE self.HUGEPAGE_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.NODE_ID = NODE_ID self.NODE_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NUMA_NODEType) if subclass is not None: return subclass(*args_, **kwargs_) if NUMA_NODEType.subclass: return NUMA_NODEType.subclass(*args_, **kwargs_) else: return NUMA_NODEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HUGEPAGE(self): return self.HUGEPAGE def set_HUGEPAGE(self, HUGEPAGE): self.HUGEPAGE = HUGEPAGE def add_HUGEPAGE(self, value): self.HUGEPAGE.append(value) def insert_HUGEPAGE_at(self, index, value): self.HUGEPAGE.insert(index, value) def replace_HUGEPAGE_at(self, index, value): self.HUGEPAGE[index] = value def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_NODE_ID(self): return self.NODE_ID def set_NODE_ID(self, NODE_ID): self.NODE_ID = NODE_ID def has__content(self): if ( self.HUGEPAGE or self.MEMORY is not None or self.NODE_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NUMA_NODEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NUMA_NODEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NUMA_NODEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NUMA_NODEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NUMA_NODEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NUMA_NODEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NUMA_NODEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HUGEPAGE_ in self.HUGEPAGE: namespaceprefix_ = self.HUGEPAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.HUGEPAGE_nsprefix_) else '' HUGEPAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HUGEPAGE', pretty_print=pretty_print) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' self.MEMORY.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MEMORY', pretty_print=pretty_print) if self.NODE_ID is not None: namespaceprefix_ = self.NODE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.NODE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNODE_ID>%s</%sNODE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.NODE_ID, input_name='NODE_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HUGEPAGE': obj_ = HUGEPAGEType35.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HUGEPAGE.append(obj_) obj_.original_tagname_ = 'HUGEPAGE' elif nodeName_ == 'MEMORY': obj_ = MEMORYType36.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MEMORY = obj_ obj_.original_tagname_ = 'MEMORY' elif nodeName_ == 'NODE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NODE_ID') ival_ = self.gds_validate_integer(ival_, node, 'NODE_ID') self.NODE_ID = ival_ self.NODE_ID_nsprefix_ = child_.prefix # end class NUMA_NODEType class HUGEPAGEType35(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, FREE=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.FREE = FREE self.FREE_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HUGEPAGEType35) if subclass is not None: return subclass(*args_, **kwargs_) if HUGEPAGEType35.subclass: return HUGEPAGEType35.subclass(*args_, **kwargs_) else: return HUGEPAGEType35(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_FREE(self): return self.FREE def set_FREE(self, FREE): self.FREE = FREE def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.FREE is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HUGEPAGEType35', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HUGEPAGEType35') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HUGEPAGEType35': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HUGEPAGEType35') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HUGEPAGEType35', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HUGEPAGEType35'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HUGEPAGEType35', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.FREE is not None: namespaceprefix_ = self.FREE_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE>%s</%sFREE>%s' % (namespaceprefix_ , self.gds_format_integer(self.FREE, input_name='FREE'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'FREE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FREE') ival_ = self.gds_validate_integer(ival_, node, 'FREE') self.FREE = ival_ self.FREE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class HUGEPAGEType35 class MEMORYType36(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, FREE=None, USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.FREE = FREE self.FREE_nsprefix_ = None self.USED = USED self.USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MEMORYType36) if subclass is not None: return subclass(*args_, **kwargs_) if MEMORYType36.subclass: return MEMORYType36.subclass(*args_, **kwargs_) else: return MEMORYType36(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_FREE(self): return self.FREE def set_FREE(self, FREE): self.FREE = FREE def get_USED(self): return self.USED def set_USED(self, USED): self.USED = USED def has__content(self): if ( self.FREE is not None or self.USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MEMORYType36', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MEMORYType36') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MEMORYType36': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MEMORYType36') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MEMORYType36', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MEMORYType36'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MEMORYType36', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.FREE is not None: namespaceprefix_ = self.FREE_nsprefix_ + ':' if (UseCapturedNS_ and self.FREE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFREE>%s</%sFREE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FREE), input_name='FREE')), namespaceprefix_ , eol_)) if self.USED is not None: namespaceprefix_ = self.USED_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED>%s</%sUSED>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED, input_name='USED'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'FREE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FREE') value_ = self.gds_validate_string(value_, node, 'FREE') self.FREE = value_ self.FREE_nsprefix_ = child_.prefix elif nodeName_ == 'USED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED') ival_ = self.gds_validate_integer(ival_, node, 'USED') self.USED = ival_ self.USED_nsprefix_ = child_.prefix # end class MEMORYType36 class LOCKType37(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType37) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType37.subclass: return LOCKType37.subclass(*args_, **kwargs_) else: return LOCKType37(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType37', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType37') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType37': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType37') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType37', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType37'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType37', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType37 class PERMISSIONSType38(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType38) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType38.subclass: return PERMISSIONSType38.subclass(*args_, **kwargs_) else: return PERMISSIONSType38(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType38', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType38') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType38': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType38') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType38', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType38'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType38', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType38 class VMSType39(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMSType39) if subclass is not None: return subclass(*args_, **kwargs_) if VMSType39.subclass: return VMSType39.subclass(*args_, **kwargs_) else: return VMSType39(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType39', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMSType39') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMSType39': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMSType39') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMSType39', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMSType39'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType39', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VMSType39 class CLONESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLONESType) if subclass is not None: return subclass(*args_, **kwargs_) if CLONESType.subclass: return CLONESType.subclass(*args_, **kwargs_) else: return CLONESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLONESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLONESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLONESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLONESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLONESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLONESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLONESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class CLONESType class APP_CLONESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, APP_CLONESType) if subclass is not None: return subclass(*args_, **kwargs_) if APP_CLONESType.subclass: return APP_CLONESType.subclass(*args_, **kwargs_) else: return APP_CLONESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='APP_CLONESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('APP_CLONESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'APP_CLONESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='APP_CLONESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='APP_CLONESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='APP_CLONESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='APP_CLONESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class APP_CLONESType class TEMPLATEType40(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_IMPORTED=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_IMPORTED = VCENTER_IMPORTED self.VCENTER_IMPORTED_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType40) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType40.subclass: return TEMPLATEType40.subclass(*args_, **kwargs_) else: return TEMPLATEType40(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_IMPORTED(self): return self.VCENTER_IMPORTED def set_VCENTER_IMPORTED(self, VCENTER_IMPORTED): self.VCENTER_IMPORTED = VCENTER_IMPORTED def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_IMPORTED is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType40', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType40') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType40': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType40') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType40', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType40'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType40', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_IMPORTED is not None: namespaceprefix_ = self.VCENTER_IMPORTED_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_IMPORTED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_IMPORTED>%s</%sVCENTER_IMPORTED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_IMPORTED), input_name='VCENTER_IMPORTED')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_IMPORTED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_IMPORTED') value_ = self.gds_validate_string(value_, node, 'VCENTER_IMPORTED') self.VCENTER_IMPORTED = value_ self.VCENTER_IMPORTED_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType40') self.anytypeobjs_.append(content_) # end class TEMPLATEType40 class SNAPSHOTSType41(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALLOW_ORPHANS=None, CURRENT_BASE=None, NEXT_SNAPSHOT=None, SNAPSHOT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALLOW_ORPHANS = ALLOW_ORPHANS self.ALLOW_ORPHANS_nsprefix_ = None self.CURRENT_BASE = CURRENT_BASE self.CURRENT_BASE_nsprefix_ = None self.NEXT_SNAPSHOT = NEXT_SNAPSHOT self.NEXT_SNAPSHOT_nsprefix_ = None if SNAPSHOT is None: self.SNAPSHOT = [] else: self.SNAPSHOT = SNAPSHOT self.SNAPSHOT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTSType41) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTSType41.subclass: return SNAPSHOTSType41.subclass(*args_, **kwargs_) else: return SNAPSHOTSType41(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALLOW_ORPHANS(self): return self.ALLOW_ORPHANS def set_ALLOW_ORPHANS(self, ALLOW_ORPHANS): self.ALLOW_ORPHANS = ALLOW_ORPHANS def get_CURRENT_BASE(self): return self.CURRENT_BASE def set_CURRENT_BASE(self, CURRENT_BASE): self.CURRENT_BASE = CURRENT_BASE def get_NEXT_SNAPSHOT(self): return self.NEXT_SNAPSHOT def set_NEXT_SNAPSHOT(self, NEXT_SNAPSHOT): self.NEXT_SNAPSHOT = NEXT_SNAPSHOT def get_SNAPSHOT(self): return self.SNAPSHOT def set_SNAPSHOT(self, SNAPSHOT): self.SNAPSHOT = SNAPSHOT def add_SNAPSHOT(self, value): self.SNAPSHOT.append(value) def insert_SNAPSHOT_at(self, index, value): self.SNAPSHOT.insert(index, value) def replace_SNAPSHOT_at(self, index, value): self.SNAPSHOT[index] = value def has__content(self): if ( self.ALLOW_ORPHANS is not None or self.CURRENT_BASE is not None or self.NEXT_SNAPSHOT is not None or self.SNAPSHOT ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType41', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTSType41') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTSType41': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTSType41') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTSType41', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTSType41'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType41', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALLOW_ORPHANS is not None: namespaceprefix_ = self.ALLOW_ORPHANS_nsprefix_ + ':' if (UseCapturedNS_ and self.ALLOW_ORPHANS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALLOW_ORPHANS>%s</%sALLOW_ORPHANS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALLOW_ORPHANS), input_name='ALLOW_ORPHANS')), namespaceprefix_ , eol_)) if self.CURRENT_BASE is not None: namespaceprefix_ = self.CURRENT_BASE_nsprefix_ + ':' if (UseCapturedNS_ and self.CURRENT_BASE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCURRENT_BASE>%s</%sCURRENT_BASE>%s' % (namespaceprefix_ , self.gds_format_integer(self.CURRENT_BASE, input_name='CURRENT_BASE'), namespaceprefix_ , eol_)) if self.NEXT_SNAPSHOT is not None: namespaceprefix_ = self.NEXT_SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.NEXT_SNAPSHOT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNEXT_SNAPSHOT>%s</%sNEXT_SNAPSHOT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NEXT_SNAPSHOT), input_name='NEXT_SNAPSHOT')), namespaceprefix_ , eol_)) for SNAPSHOT_ in self.SNAPSHOT: namespaceprefix_ = self.SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOT_nsprefix_) else '' SNAPSHOT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOT', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALLOW_ORPHANS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALLOW_ORPHANS') value_ = self.gds_validate_string(value_, node, 'ALLOW_ORPHANS') self.ALLOW_ORPHANS = value_ self.ALLOW_ORPHANS_nsprefix_ = child_.prefix elif nodeName_ == 'CURRENT_BASE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CURRENT_BASE') ival_ = self.gds_validate_integer(ival_, node, 'CURRENT_BASE') self.CURRENT_BASE = ival_ self.CURRENT_BASE_nsprefix_ = child_.prefix elif nodeName_ == 'NEXT_SNAPSHOT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NEXT_SNAPSHOT') value_ = self.gds_validate_string(value_, node, 'NEXT_SNAPSHOT') self.NEXT_SNAPSHOT = value_ self.NEXT_SNAPSHOT_nsprefix_ = child_.prefix elif nodeName_ == 'SNAPSHOT': obj_ = SNAPSHOTType42.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOT.append(obj_) obj_.original_tagname_ = 'SNAPSHOT' # end class SNAPSHOTSType41 class SNAPSHOTType42(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CHILDREN=None, ACTIVE=None, DATE=None, ID=None, NAME=None, PARENT=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CHILDREN = CHILDREN self.CHILDREN_nsprefix_ = None self.ACTIVE = ACTIVE self.ACTIVE_nsprefix_ = None self.DATE = DATE self.DATE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PARENT = PARENT self.PARENT_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTType42) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTType42.subclass: return SNAPSHOTType42.subclass(*args_, **kwargs_) else: return SNAPSHOTType42(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CHILDREN(self): return self.CHILDREN def set_CHILDREN(self, CHILDREN): self.CHILDREN = CHILDREN def get_ACTIVE(self): return self.ACTIVE def set_ACTIVE(self, ACTIVE): self.ACTIVE = ACTIVE def get_DATE(self): return self.DATE def set_DATE(self, DATE): self.DATE = DATE def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PARENT(self): return self.PARENT def set_PARENT(self, PARENT): self.PARENT = PARENT def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.CHILDREN is not None or self.ACTIVE is not None or self.DATE is not None or self.ID is not None or self.NAME is not None or self.PARENT is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType42', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTType42') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTType42': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTType42') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTType42', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTType42'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType42', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CHILDREN is not None: namespaceprefix_ = self.CHILDREN_nsprefix_ + ':' if (UseCapturedNS_ and self.CHILDREN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCHILDREN>%s</%sCHILDREN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CHILDREN), input_name='CHILDREN')), namespaceprefix_ , eol_)) if self.ACTIVE is not None: namespaceprefix_ = self.ACTIVE_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTIVE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTIVE>%s</%sACTIVE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTIVE), input_name='ACTIVE')), namespaceprefix_ , eol_)) if self.DATE is not None: namespaceprefix_ = self.DATE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATE>%s</%sDATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DATE, input_name='DATE'), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PARENT is not None: namespaceprefix_ = self.PARENT_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT>%s</%sPARENT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PARENT, input_name='PARENT'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CHILDREN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CHILDREN') value_ = self.gds_validate_string(value_, node, 'CHILDREN') self.CHILDREN = value_ self.CHILDREN_nsprefix_ = child_.prefix elif nodeName_ == 'ACTIVE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTIVE') value_ = self.gds_validate_string(value_, node, 'ACTIVE') self.ACTIVE = value_ self.ACTIVE_nsprefix_ = child_.prefix elif nodeName_ == 'DATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DATE') ival_ = self.gds_validate_integer(ival_, node, 'DATE') self.DATE = ival_ self.DATE_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PARENT') ival_ = self.gds_validate_integer(ival_, node, 'PARENT') self.PARENT = ival_ self.PARENT_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class SNAPSHOTType42 class BACKUP_INCREMENTSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, INCREMENT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if INCREMENT is None: self.INCREMENT = [] else: self.INCREMENT = INCREMENT self.INCREMENT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUP_INCREMENTSType) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUP_INCREMENTSType.subclass: return BACKUP_INCREMENTSType.subclass(*args_, **kwargs_) else: return BACKUP_INCREMENTSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_INCREMENT(self): return self.INCREMENT def set_INCREMENT(self, INCREMENT): self.INCREMENT = INCREMENT def add_INCREMENT(self, value): self.INCREMENT.append(value) def insert_INCREMENT_at(self, index, value): self.INCREMENT.insert(index, value) def replace_INCREMENT_at(self, index, value): self.INCREMENT[index] = value def has__content(self): if ( self.INCREMENT ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_INCREMENTSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUP_INCREMENTSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUP_INCREMENTSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUP_INCREMENTSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUP_INCREMENTSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUP_INCREMENTSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_INCREMENTSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for INCREMENT_ in self.INCREMENT: namespaceprefix_ = self.INCREMENT_nsprefix_ + ':' if (UseCapturedNS_ and self.INCREMENT_nsprefix_) else '' INCREMENT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='INCREMENT', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'INCREMENT': obj_ = INCREMENTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.INCREMENT.append(obj_) obj_.original_tagname_ = 'INCREMENT' # end class BACKUP_INCREMENTSType class INCREMENTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATE=None, ID=None, PARENT_ID=None, SIZE=None, SOURCE=None, TYPE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DATE = DATE self.DATE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.PARENT_ID = PARENT_ID self.PARENT_ID_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SOURCE = SOURCE self.SOURCE_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, INCREMENTType) if subclass is not None: return subclass(*args_, **kwargs_) if INCREMENTType.subclass: return INCREMENTType.subclass(*args_, **kwargs_) else: return INCREMENTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATE(self): return self.DATE def set_DATE(self, DATE): self.DATE = DATE def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_PARENT_ID(self): return self.PARENT_ID def set_PARENT_ID(self, PARENT_ID): self.PARENT_ID = PARENT_ID def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SOURCE(self): return self.SOURCE def set_SOURCE(self, SOURCE): self.SOURCE = SOURCE def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def has__content(self): if ( self.DATE is not None or self.ID is not None or self.PARENT_ID is not None or self.SIZE is not None or self.SOURCE is not None or self.TYPE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='INCREMENTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('INCREMENTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'INCREMENTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='INCREMENTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='INCREMENTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='INCREMENTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='INCREMENTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DATE is not None: namespaceprefix_ = self.DATE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATE>%s</%sDATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DATE), input_name='DATE')), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.PARENT_ID is not None: namespaceprefix_ = self.PARENT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_ID>%s</%sPARENT_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.PARENT_ID, input_name='PARENT_ID'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SOURCE is not None: namespaceprefix_ = self.SOURCE_nsprefix_ + ':' if (UseCapturedNS_ and self.SOURCE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSOURCE>%s</%sSOURCE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SOURCE), input_name='SOURCE')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DATE') value_ = self.gds_validate_string(value_, node, 'DATE') self.DATE = value_ self.DATE_nsprefix_ = child_.prefix elif nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PARENT_ID') ival_ = self.gds_validate_integer(ival_, node, 'PARENT_ID') self.PARENT_ID = ival_ self.PARENT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SOURCE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SOURCE') value_ = self.gds_validate_string(value_, node, 'SOURCE') self.SOURCE = value_ self.SOURCE_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix # end class INCREMENTType class LOCKType43(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType43) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType43.subclass: return LOCKType43.subclass(*args_, **kwargs_) else: return LOCKType43(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType43', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType43') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType43': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType43') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType43', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType43'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType43', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType43 class PERMISSIONSType44(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType44) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType44.subclass: return PERMISSIONSType44.subclass(*args_, **kwargs_) else: return PERMISSIONSType44(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType44', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType44') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType44': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType44') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType44', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType44'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType44', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType44 class MARKETPLACEAPPSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKETPLACEAPPSType) if subclass is not None: return subclass(*args_, **kwargs_) if MARKETPLACEAPPSType.subclass: return MARKETPLACEAPPSType.subclass(*args_, **kwargs_) else: return MARKETPLACEAPPSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPPSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKETPLACEAPPSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKETPLACEAPPSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKETPLACEAPPSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKETPLACEAPPSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKETPLACEAPPSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKETPLACEAPPSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class MARKETPLACEAPPSType class PERMISSIONSType45(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType45) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType45.subclass: return PERMISSIONSType45.subclass(*args_, **kwargs_) else: return PERMISSIONSType45(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType45', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType45') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType45': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType45') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType45', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType45'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType45', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType45 class MONITORINGType46(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, DISKRDBYTES=None, DISKRDIOPS=None, DISKWRBYTES=None, DISKWRIOPS=None, DISK_SIZE=None, ID=None, MEMORY=None, NETRX=None, NETTX=None, TIMESTAMP=None, VCENTER_ESX_HOST=None, VCENTER_GUEST_STATE=None, VCENTER_RP_NAME=None, VCENTER_VMWARETOOLS_RUNNING_STATUS=None, VCENTER_VMWARETOOLS_VERSION=None, VCENTER_VMWARETOOLS_VERSION_STATUS=None, VCENTER_VM_NAME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.DISKRDBYTES = DISKRDBYTES self.DISKRDBYTES_nsprefix_ = None self.DISKRDIOPS = DISKRDIOPS self.DISKRDIOPS_nsprefix_ = None self.DISKWRBYTES = DISKWRBYTES self.DISKWRBYTES_nsprefix_ = None self.DISKWRIOPS = DISKWRIOPS self.DISKWRIOPS_nsprefix_ = None if DISK_SIZE is None: self.DISK_SIZE = [] else: self.DISK_SIZE = DISK_SIZE self.DISK_SIZE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.NETRX = NETRX self.NETRX_nsprefix_ = None self.NETTX = NETTX self.NETTX_nsprefix_ = None self.TIMESTAMP = TIMESTAMP self.TIMESTAMP_nsprefix_ = None self.VCENTER_ESX_HOST = VCENTER_ESX_HOST self.VCENTER_ESX_HOST_nsprefix_ = None self.VCENTER_GUEST_STATE = VCENTER_GUEST_STATE self.VCENTER_GUEST_STATE_nsprefix_ = None self.VCENTER_RP_NAME = VCENTER_RP_NAME self.VCENTER_RP_NAME_nsprefix_ = None self.VCENTER_VMWARETOOLS_RUNNING_STATUS = VCENTER_VMWARETOOLS_RUNNING_STATUS self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ = None self.VCENTER_VMWARETOOLS_VERSION = VCENTER_VMWARETOOLS_VERSION self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ = None self.VCENTER_VMWARETOOLS_VERSION_STATUS = VCENTER_VMWARETOOLS_VERSION_STATUS self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ = None self.VCENTER_VM_NAME = VCENTER_VM_NAME self.VCENTER_VM_NAME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORINGType46) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORINGType46.subclass: return MONITORINGType46.subclass(*args_, **kwargs_) else: return MONITORINGType46(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_DISKRDBYTES(self): return self.DISKRDBYTES def set_DISKRDBYTES(self, DISKRDBYTES): self.DISKRDBYTES = DISKRDBYTES def get_DISKRDIOPS(self): return self.DISKRDIOPS def set_DISKRDIOPS(self, DISKRDIOPS): self.DISKRDIOPS = DISKRDIOPS def get_DISKWRBYTES(self): return self.DISKWRBYTES def set_DISKWRBYTES(self, DISKWRBYTES): self.DISKWRBYTES = DISKWRBYTES def get_DISKWRIOPS(self): return self.DISKWRIOPS def set_DISKWRIOPS(self, DISKWRIOPS): self.DISKWRIOPS = DISKWRIOPS def get_DISK_SIZE(self): return self.DISK_SIZE def set_DISK_SIZE(self, DISK_SIZE): self.DISK_SIZE = DISK_SIZE def add_DISK_SIZE(self, value): self.DISK_SIZE.append(value) def insert_DISK_SIZE_at(self, index, value): self.DISK_SIZE.insert(index, value) def replace_DISK_SIZE_at(self, index, value): self.DISK_SIZE[index] = value def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_NETRX(self): return self.NETRX def set_NETRX(self, NETRX): self.NETRX = NETRX def get_NETTX(self): return self.NETTX def set_NETTX(self, NETTX): self.NETTX = NETTX def get_TIMESTAMP(self): return self.TIMESTAMP def set_TIMESTAMP(self, TIMESTAMP): self.TIMESTAMP = TIMESTAMP def get_VCENTER_ESX_HOST(self): return self.VCENTER_ESX_HOST def set_VCENTER_ESX_HOST(self, VCENTER_ESX_HOST): self.VCENTER_ESX_HOST = VCENTER_ESX_HOST def get_VCENTER_GUEST_STATE(self): return self.VCENTER_GUEST_STATE def set_VCENTER_GUEST_STATE(self, VCENTER_GUEST_STATE): self.VCENTER_GUEST_STATE = VCENTER_GUEST_STATE def get_VCENTER_RP_NAME(self): return self.VCENTER_RP_NAME def set_VCENTER_RP_NAME(self, VCENTER_RP_NAME): self.VCENTER_RP_NAME = VCENTER_RP_NAME def get_VCENTER_VMWARETOOLS_RUNNING_STATUS(self): return self.VCENTER_VMWARETOOLS_RUNNING_STATUS def set_VCENTER_VMWARETOOLS_RUNNING_STATUS(self, VCENTER_VMWARETOOLS_RUNNING_STATUS): self.VCENTER_VMWARETOOLS_RUNNING_STATUS = VCENTER_VMWARETOOLS_RUNNING_STATUS def get_VCENTER_VMWARETOOLS_VERSION(self): return self.VCENTER_VMWARETOOLS_VERSION def set_VCENTER_VMWARETOOLS_VERSION(self, VCENTER_VMWARETOOLS_VERSION): self.VCENTER_VMWARETOOLS_VERSION = VCENTER_VMWARETOOLS_VERSION def get_VCENTER_VMWARETOOLS_VERSION_STATUS(self): return self.VCENTER_VMWARETOOLS_VERSION_STATUS def set_VCENTER_VMWARETOOLS_VERSION_STATUS(self, VCENTER_VMWARETOOLS_VERSION_STATUS): self.VCENTER_VMWARETOOLS_VERSION_STATUS = VCENTER_VMWARETOOLS_VERSION_STATUS def get_VCENTER_VM_NAME(self): return self.VCENTER_VM_NAME def set_VCENTER_VM_NAME(self, VCENTER_VM_NAME): self.VCENTER_VM_NAME = VCENTER_VM_NAME def has__content(self): if ( self.CPU is not None or self.DISKRDBYTES is not None or self.DISKRDIOPS is not None or self.DISKWRBYTES is not None or self.DISKWRIOPS is not None or self.DISK_SIZE or self.ID is not None or self.MEMORY is not None or self.NETRX is not None or self.NETTX is not None or self.TIMESTAMP is not None or self.VCENTER_ESX_HOST is not None or self.VCENTER_GUEST_STATE is not None or self.VCENTER_RP_NAME is not None or self.VCENTER_VMWARETOOLS_RUNNING_STATUS is not None or self.VCENTER_VMWARETOOLS_VERSION is not None or self.VCENTER_VMWARETOOLS_VERSION_STATUS is not None or self.VCENTER_VM_NAME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType46', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORINGType46') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORINGType46': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORINGType46') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORINGType46', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORINGType46'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType46', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_format_decimal(self.CPU, input_name='CPU'), namespaceprefix_ , eol_)) if self.DISKRDBYTES is not None: namespaceprefix_ = self.DISKRDBYTES_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKRDBYTES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKRDBYTES>%s</%sDISKRDBYTES>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKRDBYTES, input_name='DISKRDBYTES'), namespaceprefix_ , eol_)) if self.DISKRDIOPS is not None: namespaceprefix_ = self.DISKRDIOPS_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKRDIOPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKRDIOPS>%s</%sDISKRDIOPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKRDIOPS, input_name='DISKRDIOPS'), namespaceprefix_ , eol_)) if self.DISKWRBYTES is not None: namespaceprefix_ = self.DISKWRBYTES_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKWRBYTES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKWRBYTES>%s</%sDISKWRBYTES>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKWRBYTES, input_name='DISKWRBYTES'), namespaceprefix_ , eol_)) if self.DISKWRIOPS is not None: namespaceprefix_ = self.DISKWRIOPS_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKWRIOPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKWRIOPS>%s</%sDISKWRIOPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKWRIOPS, input_name='DISKWRIOPS'), namespaceprefix_ , eol_)) for DISK_SIZE_ in self.DISK_SIZE: namespaceprefix_ = self.DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_SIZE_nsprefix_) else '' DISK_SIZE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DISK_SIZE', pretty_print=pretty_print) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY, input_name='MEMORY'), namespaceprefix_ , eol_)) if self.NETRX is not None: namespaceprefix_ = self.NETRX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETRX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETRX>%s</%sNETRX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETRX, input_name='NETRX'), namespaceprefix_ , eol_)) if self.NETTX is not None: namespaceprefix_ = self.NETTX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETTX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETTX>%s</%sNETTX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETTX, input_name='NETTX'), namespaceprefix_ , eol_)) if self.TIMESTAMP is not None: namespaceprefix_ = self.TIMESTAMP_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMESTAMP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMESTAMP>%s</%sTIMESTAMP>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMESTAMP, input_name='TIMESTAMP'), namespaceprefix_ , eol_)) if self.VCENTER_ESX_HOST is not None: namespaceprefix_ = self.VCENTER_ESX_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_ESX_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_ESX_HOST>%s</%sVCENTER_ESX_HOST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_ESX_HOST), input_name='VCENTER_ESX_HOST')), namespaceprefix_ , eol_)) if self.VCENTER_GUEST_STATE is not None: namespaceprefix_ = self.VCENTER_GUEST_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_GUEST_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_GUEST_STATE>%s</%sVCENTER_GUEST_STATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_GUEST_STATE), input_name='VCENTER_GUEST_STATE')), namespaceprefix_ , eol_)) if self.VCENTER_RP_NAME is not None: namespaceprefix_ = self.VCENTER_RP_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_RP_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_RP_NAME>%s</%sVCENTER_RP_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_RP_NAME), input_name='VCENTER_RP_NAME')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_RUNNING_STATUS is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_RUNNING_STATUS>%s</%sVCENTER_VMWARETOOLS_RUNNING_STATUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_RUNNING_STATUS), input_name='VCENTER_VMWARETOOLS_RUNNING_STATUS')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_VERSION is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_VERSION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_VERSION>%s</%sVCENTER_VMWARETOOLS_VERSION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_VERSION), input_name='VCENTER_VMWARETOOLS_VERSION')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_VERSION_STATUS is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_VERSION_STATUS>%s</%sVCENTER_VMWARETOOLS_VERSION_STATUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_VERSION_STATUS), input_name='VCENTER_VMWARETOOLS_VERSION_STATUS')), namespaceprefix_ , eol_)) if self.VCENTER_VM_NAME is not None: namespaceprefix_ = self.VCENTER_VM_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VM_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VM_NAME>%s</%sVCENTER_VM_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VM_NAME), input_name='VCENTER_VM_NAME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_decimal(sval_, node, 'CPU') fval_ = self.gds_validate_decimal(fval_, node, 'CPU') self.CPU = fval_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'DISKRDBYTES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKRDBYTES') ival_ = self.gds_validate_integer(ival_, node, 'DISKRDBYTES') self.DISKRDBYTES = ival_ self.DISKRDBYTES_nsprefix_ = child_.prefix elif nodeName_ == 'DISKRDIOPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKRDIOPS') ival_ = self.gds_validate_integer(ival_, node, 'DISKRDIOPS') self.DISKRDIOPS = ival_ self.DISKRDIOPS_nsprefix_ = child_.prefix elif nodeName_ == 'DISKWRBYTES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKWRBYTES') ival_ = self.gds_validate_integer(ival_, node, 'DISKWRBYTES') self.DISKWRBYTES = ival_ self.DISKWRBYTES_nsprefix_ = child_.prefix elif nodeName_ == 'DISKWRIOPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKWRIOPS') ival_ = self.gds_validate_integer(ival_, node, 'DISKWRIOPS') self.DISKWRIOPS = ival_ self.DISKWRIOPS_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_SIZE': obj_ = DISK_SIZEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DISK_SIZE.append(obj_) obj_.original_tagname_ = 'DISK_SIZE' elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY') self.MEMORY = ival_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'NETRX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETRX') ival_ = self.gds_validate_integer(ival_, node, 'NETRX') self.NETRX = ival_ self.NETRX_nsprefix_ = child_.prefix elif nodeName_ == 'NETTX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETTX') ival_ = self.gds_validate_integer(ival_, node, 'NETTX') self.NETTX = ival_ self.NETTX_nsprefix_ = child_.prefix elif nodeName_ == 'TIMESTAMP' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMESTAMP') ival_ = self.gds_validate_integer(ival_, node, 'TIMESTAMP') self.TIMESTAMP = ival_ self.TIMESTAMP_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_ESX_HOST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_ESX_HOST') value_ = self.gds_validate_string(value_, node, 'VCENTER_ESX_HOST') self.VCENTER_ESX_HOST = value_ self.VCENTER_ESX_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_GUEST_STATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_GUEST_STATE') value_ = self.gds_validate_string(value_, node, 'VCENTER_GUEST_STATE') self.VCENTER_GUEST_STATE = value_ self.VCENTER_GUEST_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_RP_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_RP_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_RP_NAME') self.VCENTER_RP_NAME = value_ self.VCENTER_RP_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_RUNNING_STATUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_RUNNING_STATUS') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_RUNNING_STATUS') self.VCENTER_VMWARETOOLS_RUNNING_STATUS = value_ self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_VERSION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION') self.VCENTER_VMWARETOOLS_VERSION = value_ self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_VERSION_STATUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION_STATUS') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION_STATUS') self.VCENTER_VMWARETOOLS_VERSION_STATUS = value_ self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VM_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VM_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_VM_NAME') self.VCENTER_VM_NAME = value_ self.VCENTER_VM_NAME_nsprefix_ = child_.prefix # end class MONITORINGType46 class DISK_SIZEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DISK_SIZEType) if subclass is not None: return subclass(*args_, **kwargs_) if DISK_SIZEType.subclass: return DISK_SIZEType.subclass(*args_, **kwargs_) else: return DISK_SIZEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.ID is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISK_SIZEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DISK_SIZEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DISK_SIZEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DISK_SIZEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DISK_SIZEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DISK_SIZEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISK_SIZEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class DISK_SIZEType class AUTH_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, AUTHN=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.AUTHN = AUTHN self.AUTHN_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, AUTH_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if AUTH_MADType.subclass: return AUTH_MADType.subclass(*args_, **kwargs_) else: return AUTH_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_AUTHN(self): return self.AUTHN def set_AUTHN(self, AUTHN): self.AUTHN = AUTHN def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.AUTHN is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AUTH_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('AUTH_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'AUTH_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='AUTH_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='AUTH_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='AUTH_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AUTH_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.AUTHN is not None: namespaceprefix_ = self.AUTHN_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTHN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTHN>%s</%sAUTHN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTHN), input_name='AUTHN')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'AUTHN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTHN') value_ = self.gds_validate_string(value_, node, 'AUTHN') self.AUTHN = value_ self.AUTHN_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class AUTH_MADType class AUTH_MAD_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DRIVER_MANAGED_GROUPS=None, DRIVER_MANAGED_GROUP_ADMIN=None, MAX_TOKEN_TIME=None, NAME=None, PASSWORD_CHANGE=None, PASSWORD_REQUIRED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DRIVER_MANAGED_GROUPS = DRIVER_MANAGED_GROUPS self.DRIVER_MANAGED_GROUPS_nsprefix_ = None self.DRIVER_MANAGED_GROUP_ADMIN = DRIVER_MANAGED_GROUP_ADMIN self.DRIVER_MANAGED_GROUP_ADMIN_nsprefix_ = None self.MAX_TOKEN_TIME = MAX_TOKEN_TIME self.MAX_TOKEN_TIME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PASSWORD_CHANGE = PASSWORD_CHANGE self.PASSWORD_CHANGE_nsprefix_ = None self.PASSWORD_REQUIRED = PASSWORD_REQUIRED self.PASSWORD_REQUIRED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, AUTH_MAD_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if AUTH_MAD_CONFType.subclass: return AUTH_MAD_CONFType.subclass(*args_, **kwargs_) else: return AUTH_MAD_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DRIVER_MANAGED_GROUPS(self): return self.DRIVER_MANAGED_GROUPS def set_DRIVER_MANAGED_GROUPS(self, DRIVER_MANAGED_GROUPS): self.DRIVER_MANAGED_GROUPS = DRIVER_MANAGED_GROUPS def get_DRIVER_MANAGED_GROUP_ADMIN(self): return self.DRIVER_MANAGED_GROUP_ADMIN def set_DRIVER_MANAGED_GROUP_ADMIN(self, DRIVER_MANAGED_GROUP_ADMIN): self.DRIVER_MANAGED_GROUP_ADMIN = DRIVER_MANAGED_GROUP_ADMIN def get_MAX_TOKEN_TIME(self): return self.MAX_TOKEN_TIME def set_MAX_TOKEN_TIME(self, MAX_TOKEN_TIME): self.MAX_TOKEN_TIME = MAX_TOKEN_TIME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PASSWORD_CHANGE(self): return self.PASSWORD_CHANGE def set_PASSWORD_CHANGE(self, PASSWORD_CHANGE): self.PASSWORD_CHANGE = PASSWORD_CHANGE def get_PASSWORD_REQUIRED(self): return self.PASSWORD_REQUIRED def set_PASSWORD_REQUIRED(self, PASSWORD_REQUIRED): self.PASSWORD_REQUIRED = PASSWORD_REQUIRED def has__content(self): if ( self.DRIVER_MANAGED_GROUPS is not None or self.DRIVER_MANAGED_GROUP_ADMIN is not None or self.MAX_TOKEN_TIME is not None or self.NAME is not None or self.PASSWORD_CHANGE is not None or self.PASSWORD_REQUIRED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AUTH_MAD_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('AUTH_MAD_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'AUTH_MAD_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='AUTH_MAD_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='AUTH_MAD_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='AUTH_MAD_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AUTH_MAD_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DRIVER_MANAGED_GROUPS is not None: namespaceprefix_ = self.DRIVER_MANAGED_GROUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.DRIVER_MANAGED_GROUPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDRIVER_MANAGED_GROUPS>%s</%sDRIVER_MANAGED_GROUPS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DRIVER_MANAGED_GROUPS), input_name='DRIVER_MANAGED_GROUPS')), namespaceprefix_ , eol_)) if self.DRIVER_MANAGED_GROUP_ADMIN is not None: namespaceprefix_ = self.DRIVER_MANAGED_GROUP_ADMIN_nsprefix_ + ':' if (UseCapturedNS_ and self.DRIVER_MANAGED_GROUP_ADMIN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDRIVER_MANAGED_GROUP_ADMIN>%s</%sDRIVER_MANAGED_GROUP_ADMIN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DRIVER_MANAGED_GROUP_ADMIN), input_name='DRIVER_MANAGED_GROUP_ADMIN')), namespaceprefix_ , eol_)) if self.MAX_TOKEN_TIME is not None: namespaceprefix_ = self.MAX_TOKEN_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.MAX_TOKEN_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAX_TOKEN_TIME>%s</%sMAX_TOKEN_TIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.MAX_TOKEN_TIME, input_name='MAX_TOKEN_TIME'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PASSWORD_CHANGE is not None: namespaceprefix_ = self.PASSWORD_CHANGE_nsprefix_ + ':' if (UseCapturedNS_ and self.PASSWORD_CHANGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPASSWORD_CHANGE>%s</%sPASSWORD_CHANGE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PASSWORD_CHANGE), input_name='PASSWORD_CHANGE')), namespaceprefix_ , eol_)) if self.PASSWORD_REQUIRED is not None: namespaceprefix_ = self.PASSWORD_REQUIRED_nsprefix_ + ':' if (UseCapturedNS_ and self.PASSWORD_REQUIRED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPASSWORD_REQUIRED>%s</%sPASSWORD_REQUIRED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PASSWORD_REQUIRED), input_name='PASSWORD_REQUIRED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DRIVER_MANAGED_GROUPS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DRIVER_MANAGED_GROUPS') value_ = self.gds_validate_string(value_, node, 'DRIVER_MANAGED_GROUPS') self.DRIVER_MANAGED_GROUPS = value_ self.DRIVER_MANAGED_GROUPS_nsprefix_ = child_.prefix elif nodeName_ == 'DRIVER_MANAGED_GROUP_ADMIN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DRIVER_MANAGED_GROUP_ADMIN') value_ = self.gds_validate_string(value_, node, 'DRIVER_MANAGED_GROUP_ADMIN') self.DRIVER_MANAGED_GROUP_ADMIN = value_ self.DRIVER_MANAGED_GROUP_ADMIN_nsprefix_ = child_.prefix elif nodeName_ == 'MAX_TOKEN_TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MAX_TOKEN_TIME') ival_ = self.gds_validate_integer(ival_, node, 'MAX_TOKEN_TIME') self.MAX_TOKEN_TIME = ival_ self.MAX_TOKEN_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PASSWORD_CHANGE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PASSWORD_CHANGE') value_ = self.gds_validate_string(value_, node, 'PASSWORD_CHANGE') self.PASSWORD_CHANGE = value_ self.PASSWORD_CHANGE_nsprefix_ = child_.prefix elif nodeName_ == 'PASSWORD_REQUIRED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PASSWORD_REQUIRED') value_ = self.gds_validate_string(value_, node, 'PASSWORD_REQUIRED') self.PASSWORD_REQUIRED = value_ self.PASSWORD_REQUIRED_nsprefix_ = child_.prefix # end class AUTH_MAD_CONFType class DATASTORE_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_MADType.subclass: return DATASTORE_MADType.subclass(*args_, **kwargs_) else: return DATASTORE_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class DATASTORE_MADType class DBType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKEND=None, COMPARE_BINARY=None, CONNECTIONS=None, DB_NAME=None, PASSWD=None, PORT=None, SERVER=None, USER=None, TIMEOUT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKEND = BACKEND self.validate_BACKENDType(self.BACKEND) self.BACKEND_nsprefix_ = None self.COMPARE_BINARY = COMPARE_BINARY self.validate_COMPARE_BINARYType(self.COMPARE_BINARY) self.COMPARE_BINARY_nsprefix_ = None self.CONNECTIONS = CONNECTIONS self.CONNECTIONS_nsprefix_ = None self.DB_NAME = DB_NAME self.DB_NAME_nsprefix_ = None self.PASSWD = PASSWD self.PASSWD_nsprefix_ = None self.PORT = PORT self.PORT_nsprefix_ = None self.SERVER = SERVER self.SERVER_nsprefix_ = None self.USER = USER self.USER_nsprefix_ = None self.TIMEOUT = TIMEOUT self.TIMEOUT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DBType) if subclass is not None: return subclass(*args_, **kwargs_) if DBType.subclass: return DBType.subclass(*args_, **kwargs_) else: return DBType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKEND(self): return self.BACKEND def set_BACKEND(self, BACKEND): self.BACKEND = BACKEND def get_COMPARE_BINARY(self): return self.COMPARE_BINARY def set_COMPARE_BINARY(self, COMPARE_BINARY): self.COMPARE_BINARY = COMPARE_BINARY def get_CONNECTIONS(self): return self.CONNECTIONS def set_CONNECTIONS(self, CONNECTIONS): self.CONNECTIONS = CONNECTIONS def get_DB_NAME(self): return self.DB_NAME def set_DB_NAME(self, DB_NAME): self.DB_NAME = DB_NAME def get_PASSWD(self): return self.PASSWD def set_PASSWD(self, PASSWD): self.PASSWD = PASSWD def get_PORT(self): return self.PORT def set_PORT(self, PORT): self.PORT = PORT def get_SERVER(self): return self.SERVER def set_SERVER(self, SERVER): self.SERVER = SERVER def get_USER(self): return self.USER def set_USER(self, USER): self.USER = USER def get_TIMEOUT(self): return self.TIMEOUT def set_TIMEOUT(self, TIMEOUT): self.TIMEOUT = TIMEOUT def validate_BACKENDType(self, value): result = True # Validate type BACKENDType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False value = value enumerations = ['postgresql', 'mysql', 'sqlite'] if value not in enumerations: lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on BACKENDType' % {"value" : encode_str_2_3(value), "lineno": lineno} ) result = False return result def validate_COMPARE_BINARYType(self, value): result = True # Validate type COMPARE_BINARYType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_COMPARE_BINARYType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_COMPARE_BINARYType_patterns_, )) result = False return result validate_COMPARE_BINARYType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def has__content(self): if ( self.BACKEND is not None or self.COMPARE_BINARY is not None or self.CONNECTIONS is not None or self.DB_NAME is not None or self.PASSWD is not None or self.PORT is not None or self.SERVER is not None or self.USER is not None or self.TIMEOUT is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DBType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DBType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DBType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DBType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DBType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DBType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DBType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKEND is not None: namespaceprefix_ = self.BACKEND_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKEND_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKEND>%s</%sBACKEND>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKEND), input_name='BACKEND')), namespaceprefix_ , eol_)) if self.COMPARE_BINARY is not None: namespaceprefix_ = self.COMPARE_BINARY_nsprefix_ + ':' if (UseCapturedNS_ and self.COMPARE_BINARY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOMPARE_BINARY>%s</%sCOMPARE_BINARY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.COMPARE_BINARY), input_name='COMPARE_BINARY')), namespaceprefix_ , eol_)) if self.CONNECTIONS is not None: namespaceprefix_ = self.CONNECTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.CONNECTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCONNECTIONS>%s</%sCONNECTIONS>%s' % (namespaceprefix_ , self.gds_format_integer(self.CONNECTIONS, input_name='CONNECTIONS'), namespaceprefix_ , eol_)) if self.DB_NAME is not None: namespaceprefix_ = self.DB_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.DB_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDB_NAME>%s</%sDB_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DB_NAME), input_name='DB_NAME')), namespaceprefix_ , eol_)) if self.PASSWD is not None: namespaceprefix_ = self.PASSWD_nsprefix_ + ':' if (UseCapturedNS_ and self.PASSWD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPASSWD>%s</%sPASSWD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PASSWD), input_name='PASSWD')), namespaceprefix_ , eol_)) if self.PORT is not None: namespaceprefix_ = self.PORT_nsprefix_ + ':' if (UseCapturedNS_ and self.PORT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPORT>%s</%sPORT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PORT, input_name='PORT'), namespaceprefix_ , eol_)) if self.SERVER is not None: namespaceprefix_ = self.SERVER_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSERVER>%s</%sSERVER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SERVER), input_name='SERVER')), namespaceprefix_ , eol_)) if self.USER is not None: namespaceprefix_ = self.USER_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER>%s</%sUSER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USER), input_name='USER')), namespaceprefix_ , eol_)) if self.TIMEOUT is not None: namespaceprefix_ = self.TIMEOUT_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMEOUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMEOUT>%s</%sTIMEOUT>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMEOUT, input_name='TIMEOUT'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKEND': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKEND') value_ = self.gds_validate_string(value_, node, 'BACKEND') self.BACKEND = value_ self.BACKEND_nsprefix_ = child_.prefix # validate type BACKENDType self.validate_BACKENDType(self.BACKEND) elif nodeName_ == 'COMPARE_BINARY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'COMPARE_BINARY') value_ = self.gds_validate_string(value_, node, 'COMPARE_BINARY') self.COMPARE_BINARY = value_ self.COMPARE_BINARY_nsprefix_ = child_.prefix # validate type COMPARE_BINARYType self.validate_COMPARE_BINARYType(self.COMPARE_BINARY) elif nodeName_ == 'CONNECTIONS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CONNECTIONS') ival_ = self.gds_validate_integer(ival_, node, 'CONNECTIONS') self.CONNECTIONS = ival_ self.CONNECTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'DB_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DB_NAME') value_ = self.gds_validate_string(value_, node, 'DB_NAME') self.DB_NAME = value_ self.DB_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PASSWD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PASSWD') value_ = self.gds_validate_string(value_, node, 'PASSWD') self.PASSWD = value_ self.PASSWD_nsprefix_ = child_.prefix elif nodeName_ == 'PORT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PORT') ival_ = self.gds_validate_integer(ival_, node, 'PORT') self.PORT = ival_ self.PORT_nsprefix_ = child_.prefix elif nodeName_ == 'SERVER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SERVER') value_ = self.gds_validate_string(value_, node, 'SERVER') self.SERVER = value_ self.SERVER_nsprefix_ = child_.prefix elif nodeName_ == 'USER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER') value_ = self.gds_validate_string(value_, node, 'USER') self.USER = value_ self.USER_nsprefix_ = child_.prefix elif nodeName_ == 'TIMEOUT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMEOUT') ival_ = self.gds_validate_integer(ival_, node, 'TIMEOUT') self.TIMEOUT = ival_ self.TIMEOUT_nsprefix_ = child_.prefix # end class DBType class DEFAULT_COSTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU_COST=None, DISK_COST=None, MEMORY_COST=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU_COST = CPU_COST self.CPU_COST_nsprefix_ = None self.DISK_COST = DISK_COST self.DISK_COST_nsprefix_ = None self.MEMORY_COST = MEMORY_COST self.MEMORY_COST_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DEFAULT_COSTType) if subclass is not None: return subclass(*args_, **kwargs_) if DEFAULT_COSTType.subclass: return DEFAULT_COSTType.subclass(*args_, **kwargs_) else: return DEFAULT_COSTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU_COST(self): return self.CPU_COST def set_CPU_COST(self, CPU_COST): self.CPU_COST = CPU_COST def get_DISK_COST(self): return self.DISK_COST def set_DISK_COST(self, DISK_COST): self.DISK_COST = DISK_COST def get_MEMORY_COST(self): return self.MEMORY_COST def set_MEMORY_COST(self, MEMORY_COST): self.MEMORY_COST = MEMORY_COST def has__content(self): if ( self.CPU_COST is not None or self.DISK_COST is not None or self.MEMORY_COST is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_COSTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DEFAULT_COSTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DEFAULT_COSTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DEFAULT_COSTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DEFAULT_COSTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DEFAULT_COSTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_COSTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU_COST is not None: namespaceprefix_ = self.CPU_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_COST>%s</%sCPU_COST>%s' % (namespaceprefix_ , self.gds_format_integer(self.CPU_COST, input_name='CPU_COST'), namespaceprefix_ , eol_)) if self.DISK_COST is not None: namespaceprefix_ = self.DISK_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_COST>%s</%sDISK_COST>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_COST, input_name='DISK_COST'), namespaceprefix_ , eol_)) if self.MEMORY_COST is not None: namespaceprefix_ = self.MEMORY_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_COST>%s</%sMEMORY_COST>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY_COST, input_name='MEMORY_COST'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU_COST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CPU_COST') ival_ = self.gds_validate_integer(ival_, node, 'CPU_COST') self.CPU_COST = ival_ self.CPU_COST_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_COST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_COST') ival_ = self.gds_validate_integer(ival_, node, 'DISK_COST') self.DISK_COST = ival_ self.DISK_COST_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_COST' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY_COST') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY_COST') self.MEMORY_COST = ival_ self.MEMORY_COST_nsprefix_ = child_.prefix # end class DEFAULT_COSTType class DS_MAD_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MARKETPLACE_ACTIONS=None, NAME=None, PERSISTENT_ONLY=None, REQUIRED_ATTRS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.MARKETPLACE_ACTIONS = MARKETPLACE_ACTIONS self.MARKETPLACE_ACTIONS_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERSISTENT_ONLY = PERSISTENT_ONLY self.validate_PERSISTENT_ONLYType(self.PERSISTENT_ONLY) self.PERSISTENT_ONLY_nsprefix_ = None self.REQUIRED_ATTRS = REQUIRED_ATTRS self.REQUIRED_ATTRS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DS_MAD_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if DS_MAD_CONFType.subclass: return DS_MAD_CONFType.subclass(*args_, **kwargs_) else: return DS_MAD_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MARKETPLACE_ACTIONS(self): return self.MARKETPLACE_ACTIONS def set_MARKETPLACE_ACTIONS(self, MARKETPLACE_ACTIONS): self.MARKETPLACE_ACTIONS = MARKETPLACE_ACTIONS def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERSISTENT_ONLY(self): return self.PERSISTENT_ONLY def set_PERSISTENT_ONLY(self, PERSISTENT_ONLY): self.PERSISTENT_ONLY = PERSISTENT_ONLY def get_REQUIRED_ATTRS(self): return self.REQUIRED_ATTRS def set_REQUIRED_ATTRS(self, REQUIRED_ATTRS): self.REQUIRED_ATTRS = REQUIRED_ATTRS def validate_PERSISTENT_ONLYType(self, value): result = True # Validate type PERSISTENT_ONLYType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_PERSISTENT_ONLYType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_PERSISTENT_ONLYType_patterns_, )) result = False return result validate_PERSISTENT_ONLYType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def has__content(self): if ( self.MARKETPLACE_ACTIONS is not None or self.NAME is not None or self.PERSISTENT_ONLY is not None or self.REQUIRED_ATTRS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DS_MAD_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DS_MAD_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DS_MAD_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DS_MAD_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DS_MAD_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DS_MAD_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DS_MAD_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.MARKETPLACE_ACTIONS is not None: namespaceprefix_ = self.MARKETPLACE_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.MARKETPLACE_ACTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMARKETPLACE_ACTIONS>%s</%sMARKETPLACE_ACTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MARKETPLACE_ACTIONS), input_name='MARKETPLACE_ACTIONS')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERSISTENT_ONLY is not None: namespaceprefix_ = self.PERSISTENT_ONLY_nsprefix_ + ':' if (UseCapturedNS_ and self.PERSISTENT_ONLY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPERSISTENT_ONLY>%s</%sPERSISTENT_ONLY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PERSISTENT_ONLY), input_name='PERSISTENT_ONLY')), namespaceprefix_ , eol_)) if self.REQUIRED_ATTRS is not None: namespaceprefix_ = self.REQUIRED_ATTRS_nsprefix_ + ':' if (UseCapturedNS_ and self.REQUIRED_ATTRS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQUIRED_ATTRS>%s</%sREQUIRED_ATTRS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REQUIRED_ATTRS), input_name='REQUIRED_ATTRS')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MARKETPLACE_ACTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MARKETPLACE_ACTIONS') value_ = self.gds_validate_string(value_, node, 'MARKETPLACE_ACTIONS') self.MARKETPLACE_ACTIONS = value_ self.MARKETPLACE_ACTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERSISTENT_ONLY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PERSISTENT_ONLY') value_ = self.gds_validate_string(value_, node, 'PERSISTENT_ONLY') self.PERSISTENT_ONLY = value_ self.PERSISTENT_ONLY_nsprefix_ = child_.prefix # validate type PERSISTENT_ONLYType self.validate_PERSISTENT_ONLYType(self.PERSISTENT_ONLY) elif nodeName_ == 'REQUIRED_ATTRS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REQUIRED_ATTRS') value_ = self.gds_validate_string(value_, node, 'REQUIRED_ATTRS') self.REQUIRED_ATTRS = value_ self.REQUIRED_ATTRS_nsprefix_ = child_.prefix # end class DS_MAD_CONFType class FEDERATIONType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, MASTER_ONED=None, MODE=None, SERVER_ID=None, ZONE_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.MASTER_ONED = MASTER_ONED self.MASTER_ONED_nsprefix_ = None self.MODE = MODE self.validate_MODEType(self.MODE) self.MODE_nsprefix_ = None self.SERVER_ID = SERVER_ID self.SERVER_ID_nsprefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, FEDERATIONType) if subclass is not None: return subclass(*args_, **kwargs_) if FEDERATIONType.subclass: return FEDERATIONType.subclass(*args_, **kwargs_) else: return FEDERATIONType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_MASTER_ONED(self): return self.MASTER_ONED def set_MASTER_ONED(self, MASTER_ONED): self.MASTER_ONED = MASTER_ONED def get_MODE(self): return self.MODE def set_MODE(self, MODE): self.MODE = MODE def get_SERVER_ID(self): return self.SERVER_ID def set_SERVER_ID(self, SERVER_ID): self.SERVER_ID = SERVER_ID def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def validate_MODEType(self, value): result = True # Validate type MODEType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False value = value enumerations = ['STANDALONE', 'MASTER', 'SLAVE'] if value not in enumerations: lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s does not match xsd enumeration restriction on MODEType' % {"value" : encode_str_2_3(value), "lineno": lineno} ) result = False return result def has__content(self): if ( self.MASTER_ONED is not None or self.MODE is not None or self.SERVER_ID is not None or self.ZONE_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='FEDERATIONType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('FEDERATIONType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'FEDERATIONType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='FEDERATIONType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='FEDERATIONType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='FEDERATIONType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='FEDERATIONType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.MASTER_ONED is not None: namespaceprefix_ = self.MASTER_ONED_nsprefix_ + ':' if (UseCapturedNS_ and self.MASTER_ONED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMASTER_ONED>%s</%sMASTER_ONED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MASTER_ONED), input_name='MASTER_ONED')), namespaceprefix_ , eol_)) if self.MODE is not None: namespaceprefix_ = self.MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMODE>%s</%sMODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MODE), input_name='MODE')), namespaceprefix_ , eol_)) if self.SERVER_ID is not None: namespaceprefix_ = self.SERVER_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSERVER_ID>%s</%sSERVER_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.SERVER_ID, input_name='SERVER_ID'), namespaceprefix_ , eol_)) if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ZONE_ID, input_name='ZONE_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'MASTER_ONED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MASTER_ONED') value_ = self.gds_validate_string(value_, node, 'MASTER_ONED') self.MASTER_ONED = value_ self.MASTER_ONED_nsprefix_ = child_.prefix elif nodeName_ == 'MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MODE') value_ = self.gds_validate_string(value_, node, 'MODE') self.MODE = value_ self.MODE_nsprefix_ = child_.prefix # validate type MODEType self.validate_MODEType(self.MODE) elif nodeName_ == 'SERVER_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SERVER_ID') ival_ = self.gds_validate_integer(ival_, node, 'SERVER_ID') self.SERVER_ID = ival_ self.SERVER_ID_nsprefix_ = child_.prefix elif nodeName_ == 'ZONE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ZONE_ID') ival_ = self.gds_validate_integer(ival_, node, 'ZONE_ID') self.ZONE_ID = ival_ self.ZONE_ID_nsprefix_ = child_.prefix # end class FEDERATIONType class HM_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HM_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if HM_MADType.subclass: return HM_MADType.subclass(*args_, **kwargs_) else: return HM_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HM_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HM_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HM_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HM_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HM_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HM_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HM_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class HM_MADType class HOOK_LOG_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOG_RETENTION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOG_RETENTION = LOG_RETENTION self.LOG_RETENTION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOOK_LOG_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if HOOK_LOG_CONFType.subclass: return HOOK_LOG_CONFType.subclass(*args_, **kwargs_) else: return HOOK_LOG_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOG_RETENTION(self): return self.LOG_RETENTION def set_LOG_RETENTION(self, LOG_RETENTION): self.LOG_RETENTION = LOG_RETENTION def has__content(self): if ( self.LOG_RETENTION is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_LOG_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOOK_LOG_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOOK_LOG_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOOK_LOG_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOOK_LOG_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOOK_LOG_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOOK_LOG_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOG_RETENTION is not None: namespaceprefix_ = self.LOG_RETENTION_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_RETENTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_RETENTION>%s</%sLOG_RETENTION>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_RETENTION, input_name='LOG_RETENTION'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOG_RETENTION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_RETENTION') ival_ = self.gds_validate_integer(ival_, node, 'LOG_RETENTION') self.LOG_RETENTION = ival_ self.LOG_RETENTION_nsprefix_ = child_.prefix # end class HOOK_LOG_CONFType class IM_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, NAME=None, THREADS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.THREADS = THREADS self.THREADS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IM_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if IM_MADType.subclass: return IM_MADType.subclass(*args_, **kwargs_) else: return IM_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_THREADS(self): return self.THREADS def set_THREADS(self, THREADS): self.THREADS = THREADS def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None or self.NAME is not None or self.THREADS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IM_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IM_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IM_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IM_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IM_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IM_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IM_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.THREADS is not None: namespaceprefix_ = self.THREADS_nsprefix_ + ':' if (UseCapturedNS_ and self.THREADS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTHREADS>%s</%sTHREADS>%s' % (namespaceprefix_ , self.gds_format_integer(self.THREADS, input_name='THREADS'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'THREADS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'THREADS') ival_ = self.gds_validate_integer(ival_, node, 'THREADS') self.THREADS = ival_ self.THREADS_nsprefix_ = child_.prefix # end class IM_MADType class IPAM_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IPAM_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if IPAM_MADType.subclass: return IPAM_MADType.subclass(*args_, **kwargs_) else: return IPAM_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IPAM_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IPAM_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IPAM_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IPAM_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IPAM_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IPAM_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IPAM_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class IPAM_MADType class LOGType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DEBUG_LEVEL=None, SYSTEM=None, USE_VMS_LOCATION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DEBUG_LEVEL = DEBUG_LEVEL self.DEBUG_LEVEL_nsprefix_ = None self.SYSTEM = SYSTEM self.SYSTEM_nsprefix_ = None self.USE_VMS_LOCATION = USE_VMS_LOCATION self.USE_VMS_LOCATION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOGType) if subclass is not None: return subclass(*args_, **kwargs_) if LOGType.subclass: return LOGType.subclass(*args_, **kwargs_) else: return LOGType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DEBUG_LEVEL(self): return self.DEBUG_LEVEL def set_DEBUG_LEVEL(self, DEBUG_LEVEL): self.DEBUG_LEVEL = DEBUG_LEVEL def get_SYSTEM(self): return self.SYSTEM def set_SYSTEM(self, SYSTEM): self.SYSTEM = SYSTEM def get_USE_VMS_LOCATION(self): return self.USE_VMS_LOCATION def set_USE_VMS_LOCATION(self, USE_VMS_LOCATION): self.USE_VMS_LOCATION = USE_VMS_LOCATION def has__content(self): if ( self.DEBUG_LEVEL is not None or self.SYSTEM is not None or self.USE_VMS_LOCATION is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOGType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOGType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOGType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOGType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOGType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DEBUG_LEVEL is not None: namespaceprefix_ = self.DEBUG_LEVEL_nsprefix_ + ':' if (UseCapturedNS_ and self.DEBUG_LEVEL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEBUG_LEVEL>%s</%sDEBUG_LEVEL>%s' % (namespaceprefix_ , self.gds_format_integer(self.DEBUG_LEVEL, input_name='DEBUG_LEVEL'), namespaceprefix_ , eol_)) if self.SYSTEM is not None: namespaceprefix_ = self.SYSTEM_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM>%s</%sSYSTEM>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM), input_name='SYSTEM')), namespaceprefix_ , eol_)) if self.USE_VMS_LOCATION is not None: namespaceprefix_ = self.USE_VMS_LOCATION_nsprefix_ + ':' if (UseCapturedNS_ and self.USE_VMS_LOCATION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSE_VMS_LOCATION>%s</%sUSE_VMS_LOCATION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USE_VMS_LOCATION), input_name='USE_VMS_LOCATION')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DEBUG_LEVEL' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DEBUG_LEVEL') ival_ = self.gds_validate_integer(ival_, node, 'DEBUG_LEVEL') self.DEBUG_LEVEL = ival_ self.DEBUG_LEVEL_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM') value_ = self.gds_validate_string(value_, node, 'SYSTEM') self.SYSTEM = value_ self.SYSTEM_nsprefix_ = child_.prefix elif nodeName_ == 'USE_VMS_LOCATION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USE_VMS_LOCATION') value_ = self.gds_validate_string(value_, node, 'USE_VMS_LOCATION') self.USE_VMS_LOCATION = value_ self.USE_VMS_LOCATION_nsprefix_ = child_.prefix # end class LOGType class MARKET_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKET_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if MARKET_MADType.subclass: return MARKET_MADType.subclass(*args_, **kwargs_) else: return MARKET_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKET_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKET_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKET_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKET_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKET_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKET_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKET_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class MARKET_MADType class MARKET_MAD_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, APP_ACTIONS=None, NAME=None, PUBLIC=None, REQUIRED_ATTRS=None, SUNSTONE_NAME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.APP_ACTIONS = APP_ACTIONS self.APP_ACTIONS_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PUBLIC = PUBLIC self.validate_PUBLICType(self.PUBLIC) self.PUBLIC_nsprefix_ = None self.REQUIRED_ATTRS = REQUIRED_ATTRS self.REQUIRED_ATTRS_nsprefix_ = None self.SUNSTONE_NAME = SUNSTONE_NAME self.SUNSTONE_NAME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MARKET_MAD_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if MARKET_MAD_CONFType.subclass: return MARKET_MAD_CONFType.subclass(*args_, **kwargs_) else: return MARKET_MAD_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_APP_ACTIONS(self): return self.APP_ACTIONS def set_APP_ACTIONS(self, APP_ACTIONS): self.APP_ACTIONS = APP_ACTIONS def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PUBLIC(self): return self.PUBLIC def set_PUBLIC(self, PUBLIC): self.PUBLIC = PUBLIC def get_REQUIRED_ATTRS(self): return self.REQUIRED_ATTRS def set_REQUIRED_ATTRS(self, REQUIRED_ATTRS): self.REQUIRED_ATTRS = REQUIRED_ATTRS def get_SUNSTONE_NAME(self): return self.SUNSTONE_NAME def set_SUNSTONE_NAME(self, SUNSTONE_NAME): self.SUNSTONE_NAME = SUNSTONE_NAME def validate_PUBLICType(self, value): result = True # Validate type PUBLICType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_PUBLICType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_PUBLICType_patterns_, )) result = False return result validate_PUBLICType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def has__content(self): if ( self.APP_ACTIONS is not None or self.NAME is not None or self.PUBLIC is not None or self.REQUIRED_ATTRS is not None or self.SUNSTONE_NAME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKET_MAD_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MARKET_MAD_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MARKET_MAD_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MARKET_MAD_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MARKET_MAD_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MARKET_MAD_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MARKET_MAD_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.APP_ACTIONS is not None: namespaceprefix_ = self.APP_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.APP_ACTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAPP_ACTIONS>%s</%sAPP_ACTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.APP_ACTIONS), input_name='APP_ACTIONS')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PUBLIC is not None: namespaceprefix_ = self.PUBLIC_nsprefix_ + ':' if (UseCapturedNS_ and self.PUBLIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPUBLIC>%s</%sPUBLIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PUBLIC), input_name='PUBLIC')), namespaceprefix_ , eol_)) if self.REQUIRED_ATTRS is not None: namespaceprefix_ = self.REQUIRED_ATTRS_nsprefix_ + ':' if (UseCapturedNS_ and self.REQUIRED_ATTRS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQUIRED_ATTRS>%s</%sREQUIRED_ATTRS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REQUIRED_ATTRS), input_name='REQUIRED_ATTRS')), namespaceprefix_ , eol_)) if self.SUNSTONE_NAME is not None: namespaceprefix_ = self.SUNSTONE_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.SUNSTONE_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSUNSTONE_NAME>%s</%sSUNSTONE_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SUNSTONE_NAME), input_name='SUNSTONE_NAME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'APP_ACTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'APP_ACTIONS') value_ = self.gds_validate_string(value_, node, 'APP_ACTIONS') self.APP_ACTIONS = value_ self.APP_ACTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PUBLIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PUBLIC') value_ = self.gds_validate_string(value_, node, 'PUBLIC') self.PUBLIC = value_ self.PUBLIC_nsprefix_ = child_.prefix # validate type PUBLICType self.validate_PUBLICType(self.PUBLIC) elif nodeName_ == 'REQUIRED_ATTRS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REQUIRED_ATTRS') value_ = self.gds_validate_string(value_, node, 'REQUIRED_ATTRS') self.REQUIRED_ATTRS = value_ self.REQUIRED_ATTRS_nsprefix_ = child_.prefix elif nodeName_ == 'SUNSTONE_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SUNSTONE_NAME') value_ = self.gds_validate_string(value_, node, 'SUNSTONE_NAME') self.SUNSTONE_NAME = value_ self.SUNSTONE_NAME_nsprefix_ = child_.prefix # end class MARKET_MAD_CONFType class RAFTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BROADCAST_TIMEOUT_MS=None, ELECTION_TIMEOUT_MS=None, LIMIT_PURGE=None, LOG_PURGE_TIMEOUT=None, LOG_RETENTION=None, XMLRPC_TIMEOUT_MS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BROADCAST_TIMEOUT_MS = BROADCAST_TIMEOUT_MS self.BROADCAST_TIMEOUT_MS_nsprefix_ = None self.ELECTION_TIMEOUT_MS = ELECTION_TIMEOUT_MS self.ELECTION_TIMEOUT_MS_nsprefix_ = None self.LIMIT_PURGE = LIMIT_PURGE self.LIMIT_PURGE_nsprefix_ = None self.LOG_PURGE_TIMEOUT = LOG_PURGE_TIMEOUT self.LOG_PURGE_TIMEOUT_nsprefix_ = None self.LOG_RETENTION = LOG_RETENTION self.LOG_RETENTION_nsprefix_ = None self.XMLRPC_TIMEOUT_MS = XMLRPC_TIMEOUT_MS self.XMLRPC_TIMEOUT_MS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, RAFTType) if subclass is not None: return subclass(*args_, **kwargs_) if RAFTType.subclass: return RAFTType.subclass(*args_, **kwargs_) else: return RAFTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BROADCAST_TIMEOUT_MS(self): return self.BROADCAST_TIMEOUT_MS def set_BROADCAST_TIMEOUT_MS(self, BROADCAST_TIMEOUT_MS): self.BROADCAST_TIMEOUT_MS = BROADCAST_TIMEOUT_MS def get_ELECTION_TIMEOUT_MS(self): return self.ELECTION_TIMEOUT_MS def set_ELECTION_TIMEOUT_MS(self, ELECTION_TIMEOUT_MS): self.ELECTION_TIMEOUT_MS = ELECTION_TIMEOUT_MS def get_LIMIT_PURGE(self): return self.LIMIT_PURGE def set_LIMIT_PURGE(self, LIMIT_PURGE): self.LIMIT_PURGE = LIMIT_PURGE def get_LOG_PURGE_TIMEOUT(self): return self.LOG_PURGE_TIMEOUT def set_LOG_PURGE_TIMEOUT(self, LOG_PURGE_TIMEOUT): self.LOG_PURGE_TIMEOUT = LOG_PURGE_TIMEOUT def get_LOG_RETENTION(self): return self.LOG_RETENTION def set_LOG_RETENTION(self, LOG_RETENTION): self.LOG_RETENTION = LOG_RETENTION def get_XMLRPC_TIMEOUT_MS(self): return self.XMLRPC_TIMEOUT_MS def set_XMLRPC_TIMEOUT_MS(self, XMLRPC_TIMEOUT_MS): self.XMLRPC_TIMEOUT_MS = XMLRPC_TIMEOUT_MS def has__content(self): if ( self.BROADCAST_TIMEOUT_MS is not None or self.ELECTION_TIMEOUT_MS is not None or self.LIMIT_PURGE is not None or self.LOG_PURGE_TIMEOUT is not None or self.LOG_RETENTION is not None or self.XMLRPC_TIMEOUT_MS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RAFTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('RAFTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'RAFTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='RAFTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='RAFTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='RAFTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RAFTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BROADCAST_TIMEOUT_MS is not None: namespaceprefix_ = self.BROADCAST_TIMEOUT_MS_nsprefix_ + ':' if (UseCapturedNS_ and self.BROADCAST_TIMEOUT_MS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBROADCAST_TIMEOUT_MS>%s</%sBROADCAST_TIMEOUT_MS>%s' % (namespaceprefix_ , self.gds_format_integer(self.BROADCAST_TIMEOUT_MS, input_name='BROADCAST_TIMEOUT_MS'), namespaceprefix_ , eol_)) if self.ELECTION_TIMEOUT_MS is not None: namespaceprefix_ = self.ELECTION_TIMEOUT_MS_nsprefix_ + ':' if (UseCapturedNS_ and self.ELECTION_TIMEOUT_MS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sELECTION_TIMEOUT_MS>%s</%sELECTION_TIMEOUT_MS>%s' % (namespaceprefix_ , self.gds_format_integer(self.ELECTION_TIMEOUT_MS, input_name='ELECTION_TIMEOUT_MS'), namespaceprefix_ , eol_)) if self.LIMIT_PURGE is not None: namespaceprefix_ = self.LIMIT_PURGE_nsprefix_ + ':' if (UseCapturedNS_ and self.LIMIT_PURGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLIMIT_PURGE>%s</%sLIMIT_PURGE>%s' % (namespaceprefix_ , self.gds_format_integer(self.LIMIT_PURGE, input_name='LIMIT_PURGE'), namespaceprefix_ , eol_)) if self.LOG_PURGE_TIMEOUT is not None: namespaceprefix_ = self.LOG_PURGE_TIMEOUT_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_PURGE_TIMEOUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_PURGE_TIMEOUT>%s</%sLOG_PURGE_TIMEOUT>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_PURGE_TIMEOUT, input_name='LOG_PURGE_TIMEOUT'), namespaceprefix_ , eol_)) if self.LOG_RETENTION is not None: namespaceprefix_ = self.LOG_RETENTION_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_RETENTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_RETENTION>%s</%sLOG_RETENTION>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_RETENTION, input_name='LOG_RETENTION'), namespaceprefix_ , eol_)) if self.XMLRPC_TIMEOUT_MS is not None: namespaceprefix_ = self.XMLRPC_TIMEOUT_MS_nsprefix_ + ':' if (UseCapturedNS_ and self.XMLRPC_TIMEOUT_MS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sXMLRPC_TIMEOUT_MS>%s</%sXMLRPC_TIMEOUT_MS>%s' % (namespaceprefix_ , self.gds_format_integer(self.XMLRPC_TIMEOUT_MS, input_name='XMLRPC_TIMEOUT_MS'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BROADCAST_TIMEOUT_MS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'BROADCAST_TIMEOUT_MS') ival_ = self.gds_validate_integer(ival_, node, 'BROADCAST_TIMEOUT_MS') self.BROADCAST_TIMEOUT_MS = ival_ self.BROADCAST_TIMEOUT_MS_nsprefix_ = child_.prefix elif nodeName_ == 'ELECTION_TIMEOUT_MS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ELECTION_TIMEOUT_MS') ival_ = self.gds_validate_integer(ival_, node, 'ELECTION_TIMEOUT_MS') self.ELECTION_TIMEOUT_MS = ival_ self.ELECTION_TIMEOUT_MS_nsprefix_ = child_.prefix elif nodeName_ == 'LIMIT_PURGE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LIMIT_PURGE') ival_ = self.gds_validate_integer(ival_, node, 'LIMIT_PURGE') self.LIMIT_PURGE = ival_ self.LIMIT_PURGE_nsprefix_ = child_.prefix elif nodeName_ == 'LOG_PURGE_TIMEOUT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_PURGE_TIMEOUT') ival_ = self.gds_validate_integer(ival_, node, 'LOG_PURGE_TIMEOUT') self.LOG_PURGE_TIMEOUT = ival_ self.LOG_PURGE_TIMEOUT_nsprefix_ = child_.prefix elif nodeName_ == 'LOG_RETENTION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_RETENTION') ival_ = self.gds_validate_integer(ival_, node, 'LOG_RETENTION') self.LOG_RETENTION = ival_ self.LOG_RETENTION_nsprefix_ = child_.prefix elif nodeName_ == 'XMLRPC_TIMEOUT_MS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'XMLRPC_TIMEOUT_MS') ival_ = self.gds_validate_integer(ival_, node, 'XMLRPC_TIMEOUT_MS') self.XMLRPC_TIMEOUT_MS = ival_ self.XMLRPC_TIMEOUT_MS_nsprefix_ = child_.prefix # end class RAFTType class TM_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, EXECUTABLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TM_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if TM_MADType.subclass: return TM_MADType.subclass(*args_, **kwargs_) else: return TM_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def has__content(self): if ( self.ARGUMENTS is not None or self.EXECUTABLE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TM_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TM_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TM_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TM_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TM_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TM_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TM_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix # end class TM_MADType class TM_MAD_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALLOW_ORPHANS=None, CLONE_TARGET=None, CLONE_TARGET_SHARED=None, CLONE_TARGET_SSH=None, DISK_TYPE=None, DISK_TYPE_SHARED=None, DISK_TYPE_SSH=None, DRIVER=None, DS_MIGRATE=None, LN_TARGET=None, LN_TARGET_SHARED=None, LN_TARGET_SSH=None, NAME=None, SHARED=None, TM_MAD_SYSTEM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALLOW_ORPHANS = ALLOW_ORPHANS self.ALLOW_ORPHANS_nsprefix_ = None self.CLONE_TARGET = CLONE_TARGET self.CLONE_TARGET_nsprefix_ = None self.CLONE_TARGET_SHARED = CLONE_TARGET_SHARED self.CLONE_TARGET_SHARED_nsprefix_ = None self.CLONE_TARGET_SSH = CLONE_TARGET_SSH self.CLONE_TARGET_SSH_nsprefix_ = None self.DISK_TYPE = DISK_TYPE self.DISK_TYPE_nsprefix_ = None self.DISK_TYPE_SHARED = DISK_TYPE_SHARED self.DISK_TYPE_SHARED_nsprefix_ = None self.DISK_TYPE_SSH = DISK_TYPE_SSH self.DISK_TYPE_SSH_nsprefix_ = None self.DRIVER = DRIVER self.DRIVER_nsprefix_ = None self.DS_MIGRATE = DS_MIGRATE self.DS_MIGRATE_nsprefix_ = None self.LN_TARGET = LN_TARGET self.LN_TARGET_nsprefix_ = None self.LN_TARGET_SHARED = LN_TARGET_SHARED self.LN_TARGET_SHARED_nsprefix_ = None self.LN_TARGET_SSH = LN_TARGET_SSH self.LN_TARGET_SSH_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.SHARED = SHARED self.SHARED_nsprefix_ = None self.TM_MAD_SYSTEM = TM_MAD_SYSTEM self.TM_MAD_SYSTEM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TM_MAD_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if TM_MAD_CONFType.subclass: return TM_MAD_CONFType.subclass(*args_, **kwargs_) else: return TM_MAD_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALLOW_ORPHANS(self): return self.ALLOW_ORPHANS def set_ALLOW_ORPHANS(self, ALLOW_ORPHANS): self.ALLOW_ORPHANS = ALLOW_ORPHANS def get_CLONE_TARGET(self): return self.CLONE_TARGET def set_CLONE_TARGET(self, CLONE_TARGET): self.CLONE_TARGET = CLONE_TARGET def get_CLONE_TARGET_SHARED(self): return self.CLONE_TARGET_SHARED def set_CLONE_TARGET_SHARED(self, CLONE_TARGET_SHARED): self.CLONE_TARGET_SHARED = CLONE_TARGET_SHARED def get_CLONE_TARGET_SSH(self): return self.CLONE_TARGET_SSH def set_CLONE_TARGET_SSH(self, CLONE_TARGET_SSH): self.CLONE_TARGET_SSH = CLONE_TARGET_SSH def get_DISK_TYPE(self): return self.DISK_TYPE def set_DISK_TYPE(self, DISK_TYPE): self.DISK_TYPE = DISK_TYPE def get_DISK_TYPE_SHARED(self): return self.DISK_TYPE_SHARED def set_DISK_TYPE_SHARED(self, DISK_TYPE_SHARED): self.DISK_TYPE_SHARED = DISK_TYPE_SHARED def get_DISK_TYPE_SSH(self): return self.DISK_TYPE_SSH def set_DISK_TYPE_SSH(self, DISK_TYPE_SSH): self.DISK_TYPE_SSH = DISK_TYPE_SSH def get_DRIVER(self): return self.DRIVER def set_DRIVER(self, DRIVER): self.DRIVER = DRIVER def get_DS_MIGRATE(self): return self.DS_MIGRATE def set_DS_MIGRATE(self, DS_MIGRATE): self.DS_MIGRATE = DS_MIGRATE def get_LN_TARGET(self): return self.LN_TARGET def set_LN_TARGET(self, LN_TARGET): self.LN_TARGET = LN_TARGET def get_LN_TARGET_SHARED(self): return self.LN_TARGET_SHARED def set_LN_TARGET_SHARED(self, LN_TARGET_SHARED): self.LN_TARGET_SHARED = LN_TARGET_SHARED def get_LN_TARGET_SSH(self): return self.LN_TARGET_SSH def set_LN_TARGET_SSH(self, LN_TARGET_SSH): self.LN_TARGET_SSH = LN_TARGET_SSH def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_SHARED(self): return self.SHARED def set_SHARED(self, SHARED): self.SHARED = SHARED def get_TM_MAD_SYSTEM(self): return self.TM_MAD_SYSTEM def set_TM_MAD_SYSTEM(self, TM_MAD_SYSTEM): self.TM_MAD_SYSTEM = TM_MAD_SYSTEM def has__content(self): if ( self.ALLOW_ORPHANS is not None or self.CLONE_TARGET is not None or self.CLONE_TARGET_SHARED is not None or self.CLONE_TARGET_SSH is not None or self.DISK_TYPE is not None or self.DISK_TYPE_SHARED is not None or self.DISK_TYPE_SSH is not None or self.DRIVER is not None or self.DS_MIGRATE is not None or self.LN_TARGET is not None or self.LN_TARGET_SHARED is not None or self.LN_TARGET_SSH is not None or self.NAME is not None or self.SHARED is not None or self.TM_MAD_SYSTEM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TM_MAD_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TM_MAD_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TM_MAD_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TM_MAD_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TM_MAD_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TM_MAD_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TM_MAD_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALLOW_ORPHANS is not None: namespaceprefix_ = self.ALLOW_ORPHANS_nsprefix_ + ':' if (UseCapturedNS_ and self.ALLOW_ORPHANS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALLOW_ORPHANS>%s</%sALLOW_ORPHANS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALLOW_ORPHANS), input_name='ALLOW_ORPHANS')), namespaceprefix_ , eol_)) if self.CLONE_TARGET is not None: namespaceprefix_ = self.CLONE_TARGET_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONE_TARGET_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONE_TARGET>%s</%sCLONE_TARGET>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLONE_TARGET), input_name='CLONE_TARGET')), namespaceprefix_ , eol_)) if self.CLONE_TARGET_SHARED is not None: namespaceprefix_ = self.CLONE_TARGET_SHARED_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONE_TARGET_SHARED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONE_TARGET_SHARED>%s</%sCLONE_TARGET_SHARED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLONE_TARGET_SHARED), input_name='CLONE_TARGET_SHARED')), namespaceprefix_ , eol_)) if self.CLONE_TARGET_SSH is not None: namespaceprefix_ = self.CLONE_TARGET_SSH_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONE_TARGET_SSH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONE_TARGET_SSH>%s</%sCLONE_TARGET_SSH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLONE_TARGET_SSH), input_name='CLONE_TARGET_SSH')), namespaceprefix_ , eol_)) if self.DISK_TYPE is not None: namespaceprefix_ = self.DISK_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_TYPE>%s</%sDISK_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DISK_TYPE), input_name='DISK_TYPE')), namespaceprefix_ , eol_)) if self.DISK_TYPE_SHARED is not None: namespaceprefix_ = self.DISK_TYPE_SHARED_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_TYPE_SHARED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_TYPE_SHARED>%s</%sDISK_TYPE_SHARED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DISK_TYPE_SHARED), input_name='DISK_TYPE_SHARED')), namespaceprefix_ , eol_)) if self.DISK_TYPE_SSH is not None: namespaceprefix_ = self.DISK_TYPE_SSH_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_TYPE_SSH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_TYPE_SSH>%s</%sDISK_TYPE_SSH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DISK_TYPE_SSH), input_name='DISK_TYPE_SSH')), namespaceprefix_ , eol_)) if self.DRIVER is not None: namespaceprefix_ = self.DRIVER_nsprefix_ + ':' if (UseCapturedNS_ and self.DRIVER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDRIVER>%s</%sDRIVER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DRIVER), input_name='DRIVER')), namespaceprefix_ , eol_)) if self.DS_MIGRATE is not None: namespaceprefix_ = self.DS_MIGRATE_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_MIGRATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_MIGRATE>%s</%sDS_MIGRATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DS_MIGRATE), input_name='DS_MIGRATE')), namespaceprefix_ , eol_)) if self.LN_TARGET is not None: namespaceprefix_ = self.LN_TARGET_nsprefix_ + ':' if (UseCapturedNS_ and self.LN_TARGET_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLN_TARGET>%s</%sLN_TARGET>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LN_TARGET), input_name='LN_TARGET')), namespaceprefix_ , eol_)) if self.LN_TARGET_SHARED is not None: namespaceprefix_ = self.LN_TARGET_SHARED_nsprefix_ + ':' if (UseCapturedNS_ and self.LN_TARGET_SHARED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLN_TARGET_SHARED>%s</%sLN_TARGET_SHARED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LN_TARGET_SHARED), input_name='LN_TARGET_SHARED')), namespaceprefix_ , eol_)) if self.LN_TARGET_SSH is not None: namespaceprefix_ = self.LN_TARGET_SSH_nsprefix_ + ':' if (UseCapturedNS_ and self.LN_TARGET_SSH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLN_TARGET_SSH>%s</%sLN_TARGET_SSH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LN_TARGET_SSH), input_name='LN_TARGET_SSH')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.SHARED is not None: namespaceprefix_ = self.SHARED_nsprefix_ + ':' if (UseCapturedNS_ and self.SHARED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSHARED>%s</%sSHARED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SHARED), input_name='SHARED')), namespaceprefix_ , eol_)) if self.TM_MAD_SYSTEM is not None: namespaceprefix_ = self.TM_MAD_SYSTEM_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_SYSTEM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD_SYSTEM>%s</%sTM_MAD_SYSTEM>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD_SYSTEM), input_name='TM_MAD_SYSTEM')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALLOW_ORPHANS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALLOW_ORPHANS') value_ = self.gds_validate_string(value_, node, 'ALLOW_ORPHANS') self.ALLOW_ORPHANS = value_ self.ALLOW_ORPHANS_nsprefix_ = child_.prefix elif nodeName_ == 'CLONE_TARGET': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLONE_TARGET') value_ = self.gds_validate_string(value_, node, 'CLONE_TARGET') self.CLONE_TARGET = value_ self.CLONE_TARGET_nsprefix_ = child_.prefix elif nodeName_ == 'CLONE_TARGET_SHARED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLONE_TARGET_SHARED') value_ = self.gds_validate_string(value_, node, 'CLONE_TARGET_SHARED') self.CLONE_TARGET_SHARED = value_ self.CLONE_TARGET_SHARED_nsprefix_ = child_.prefix elif nodeName_ == 'CLONE_TARGET_SSH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLONE_TARGET_SSH') value_ = self.gds_validate_string(value_, node, 'CLONE_TARGET_SSH') self.CLONE_TARGET_SSH = value_ self.CLONE_TARGET_SSH_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DISK_TYPE') value_ = self.gds_validate_string(value_, node, 'DISK_TYPE') self.DISK_TYPE = value_ self.DISK_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_TYPE_SHARED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DISK_TYPE_SHARED') value_ = self.gds_validate_string(value_, node, 'DISK_TYPE_SHARED') self.DISK_TYPE_SHARED = value_ self.DISK_TYPE_SHARED_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_TYPE_SSH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DISK_TYPE_SSH') value_ = self.gds_validate_string(value_, node, 'DISK_TYPE_SSH') self.DISK_TYPE_SSH = value_ self.DISK_TYPE_SSH_nsprefix_ = child_.prefix elif nodeName_ == 'DRIVER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DRIVER') value_ = self.gds_validate_string(value_, node, 'DRIVER') self.DRIVER = value_ self.DRIVER_nsprefix_ = child_.prefix elif nodeName_ == 'DS_MIGRATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DS_MIGRATE') value_ = self.gds_validate_string(value_, node, 'DS_MIGRATE') self.DS_MIGRATE = value_ self.DS_MIGRATE_nsprefix_ = child_.prefix elif nodeName_ == 'LN_TARGET': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LN_TARGET') value_ = self.gds_validate_string(value_, node, 'LN_TARGET') self.LN_TARGET = value_ self.LN_TARGET_nsprefix_ = child_.prefix elif nodeName_ == 'LN_TARGET_SHARED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LN_TARGET_SHARED') value_ = self.gds_validate_string(value_, node, 'LN_TARGET_SHARED') self.LN_TARGET_SHARED = value_ self.LN_TARGET_SHARED_nsprefix_ = child_.prefix elif nodeName_ == 'LN_TARGET_SSH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LN_TARGET_SSH') value_ = self.gds_validate_string(value_, node, 'LN_TARGET_SSH') self.LN_TARGET_SSH = value_ self.LN_TARGET_SSH_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'SHARED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SHARED') value_ = self.gds_validate_string(value_, node, 'SHARED') self.SHARED = value_ self.SHARED_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD_SYSTEM': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD_SYSTEM') value_ = self.gds_validate_string(value_, node, 'TM_MAD_SYSTEM') self.TM_MAD_SYSTEM = value_ self.TM_MAD_SYSTEM_nsprefix_ = child_.prefix # end class TM_MAD_CONFType class VLAN_IDSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, RESERVED=None, START=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.RESERVED = RESERVED self.RESERVED_nsprefix_ = None self.START = START self.START_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VLAN_IDSType) if subclass is not None: return subclass(*args_, **kwargs_) if VLAN_IDSType.subclass: return VLAN_IDSType.subclass(*args_, **kwargs_) else: return VLAN_IDSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_RESERVED(self): return self.RESERVED def set_RESERVED(self, RESERVED): self.RESERVED = RESERVED def get_START(self): return self.START def set_START(self, START): self.START = START def has__content(self): if ( self.RESERVED is not None or self.START is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VLAN_IDSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VLAN_IDSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VLAN_IDSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VLAN_IDSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VLAN_IDSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VLAN_IDSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VLAN_IDSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.RESERVED is not None: namespaceprefix_ = self.RESERVED_nsprefix_ + ':' if (UseCapturedNS_ and self.RESERVED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESERVED>%s</%sRESERVED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESERVED), input_name='RESERVED')), namespaceprefix_ , eol_)) if self.START is not None: namespaceprefix_ = self.START_nsprefix_ + ':' if (UseCapturedNS_ and self.START_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTART>%s</%sSTART>%s' % (namespaceprefix_ , self.gds_format_integer(self.START, input_name='START'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'RESERVED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESERVED') value_ = self.gds_validate_string(value_, node, 'RESERVED') self.RESERVED = value_ self.RESERVED_nsprefix_ = child_.prefix elif nodeName_ == 'START' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'START') ival_ = self.gds_validate_integer(ival_, node, 'START') self.START = ival_ self.START_nsprefix_ = child_.prefix # end class VLAN_IDSType class VM_MADType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ARGUMENTS=None, DEFAULT=None, EXECUTABLE=None, IMPORTED_VMS_ACTIONS=None, NAME=None, SUNSTONE_NAME=None, TYPE=None, KEEP_SNAPSHOTS=None, COLD_NIC_ATTACH=None, DS_LIVE_MIGRATION=None, LIVE_RESIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ARGUMENTS = ARGUMENTS self.ARGUMENTS_nsprefix_ = None self.DEFAULT = DEFAULT self.DEFAULT_nsprefix_ = None self.EXECUTABLE = EXECUTABLE self.EXECUTABLE_nsprefix_ = None self.IMPORTED_VMS_ACTIONS = IMPORTED_VMS_ACTIONS self.IMPORTED_VMS_ACTIONS_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.SUNSTONE_NAME = SUNSTONE_NAME self.SUNSTONE_NAME_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.KEEP_SNAPSHOTS = KEEP_SNAPSHOTS self.validate_KEEP_SNAPSHOTSType(self.KEEP_SNAPSHOTS) self.KEEP_SNAPSHOTS_nsprefix_ = None self.COLD_NIC_ATTACH = COLD_NIC_ATTACH self.validate_COLD_NIC_ATTACHType(self.COLD_NIC_ATTACH) self.COLD_NIC_ATTACH_nsprefix_ = None self.DS_LIVE_MIGRATION = DS_LIVE_MIGRATION self.validate_DS_LIVE_MIGRATIONType(self.DS_LIVE_MIGRATION) self.DS_LIVE_MIGRATION_nsprefix_ = None self.LIVE_RESIZE = LIVE_RESIZE self.validate_LIVE_RESIZEType(self.LIVE_RESIZE) self.LIVE_RESIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_MADType) if subclass is not None: return subclass(*args_, **kwargs_) if VM_MADType.subclass: return VM_MADType.subclass(*args_, **kwargs_) else: return VM_MADType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ARGUMENTS(self): return self.ARGUMENTS def set_ARGUMENTS(self, ARGUMENTS): self.ARGUMENTS = ARGUMENTS def get_DEFAULT(self): return self.DEFAULT def set_DEFAULT(self, DEFAULT): self.DEFAULT = DEFAULT def get_EXECUTABLE(self): return self.EXECUTABLE def set_EXECUTABLE(self, EXECUTABLE): self.EXECUTABLE = EXECUTABLE def get_IMPORTED_VMS_ACTIONS(self): return self.IMPORTED_VMS_ACTIONS def set_IMPORTED_VMS_ACTIONS(self, IMPORTED_VMS_ACTIONS): self.IMPORTED_VMS_ACTIONS = IMPORTED_VMS_ACTIONS def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_SUNSTONE_NAME(self): return self.SUNSTONE_NAME def set_SUNSTONE_NAME(self, SUNSTONE_NAME): self.SUNSTONE_NAME = SUNSTONE_NAME def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_KEEP_SNAPSHOTS(self): return self.KEEP_SNAPSHOTS def set_KEEP_SNAPSHOTS(self, KEEP_SNAPSHOTS): self.KEEP_SNAPSHOTS = KEEP_SNAPSHOTS def get_COLD_NIC_ATTACH(self): return self.COLD_NIC_ATTACH def set_COLD_NIC_ATTACH(self, COLD_NIC_ATTACH): self.COLD_NIC_ATTACH = COLD_NIC_ATTACH def get_DS_LIVE_MIGRATION(self): return self.DS_LIVE_MIGRATION def set_DS_LIVE_MIGRATION(self, DS_LIVE_MIGRATION): self.DS_LIVE_MIGRATION = DS_LIVE_MIGRATION def get_LIVE_RESIZE(self): return self.LIVE_RESIZE def set_LIVE_RESIZE(self, LIVE_RESIZE): self.LIVE_RESIZE = LIVE_RESIZE def validate_KEEP_SNAPSHOTSType(self, value): result = True # Validate type KEEP_SNAPSHOTSType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_KEEP_SNAPSHOTSType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_KEEP_SNAPSHOTSType_patterns_, )) result = False return result validate_KEEP_SNAPSHOTSType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def validate_COLD_NIC_ATTACHType(self, value): result = True # Validate type COLD_NIC_ATTACHType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_COLD_NIC_ATTACHType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_COLD_NIC_ATTACHType_patterns_, )) result = False return result validate_COLD_NIC_ATTACHType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def validate_DS_LIVE_MIGRATIONType(self, value): result = True # Validate type DS_LIVE_MIGRATIONType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_DS_LIVE_MIGRATIONType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_DS_LIVE_MIGRATIONType_patterns_, )) result = False return result validate_DS_LIVE_MIGRATIONType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def validate_LIVE_RESIZEType(self, value): result = True # Validate type LIVE_RESIZEType, a restriction on xs:string. if value is not None and Validate_simpletypes_ and self.gds_collector_ is not None: if not isinstance(value, str): lineno = self.gds_get_node_lineno_() self.gds_collector_.add_message('Value "%(value)s"%(lineno)s is not of the correct base simple type (str)' % {"value": value, "lineno": lineno, }) return False if not self.gds_validate_simple_patterns( self.validate_LIVE_RESIZEType_patterns_, value): self.gds_collector_.add_message('Value "%s" does not match xsd pattern restrictions: %s' % (encode_str_2_3(value), self.validate_LIVE_RESIZEType_patterns_, )) result = False return result validate_LIVE_RESIZEType_patterns_ = [['^([yY][eE][sS])$', '^([nN][oO])$']] def has__content(self): if ( self.ARGUMENTS is not None or self.DEFAULT is not None or self.EXECUTABLE is not None or self.IMPORTED_VMS_ACTIONS is not None or self.NAME is not None or self.SUNSTONE_NAME is not None or self.TYPE is not None or self.KEEP_SNAPSHOTS is not None or self.COLD_NIC_ATTACH is not None or self.DS_LIVE_MIGRATION is not None or self.LIVE_RESIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_MADType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_MADType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_MADType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_MADType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_MADType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_MADType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_MADType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ARGUMENTS is not None: namespaceprefix_ = self.ARGUMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.ARGUMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sARGUMENTS>%s</%sARGUMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ARGUMENTS), input_name='ARGUMENTS')), namespaceprefix_ , eol_)) if self.DEFAULT is not None: namespaceprefix_ = self.DEFAULT_nsprefix_ + ':' if (UseCapturedNS_ and self.DEFAULT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEFAULT>%s</%sDEFAULT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEFAULT), input_name='DEFAULT')), namespaceprefix_ , eol_)) if self.EXECUTABLE is not None: namespaceprefix_ = self.EXECUTABLE_nsprefix_ + ':' if (UseCapturedNS_ and self.EXECUTABLE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXECUTABLE>%s</%sEXECUTABLE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EXECUTABLE), input_name='EXECUTABLE')), namespaceprefix_ , eol_)) if self.IMPORTED_VMS_ACTIONS is not None: namespaceprefix_ = self.IMPORTED_VMS_ACTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.IMPORTED_VMS_ACTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMPORTED_VMS_ACTIONS>%s</%sIMPORTED_VMS_ACTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMPORTED_VMS_ACTIONS), input_name='IMPORTED_VMS_ACTIONS')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.SUNSTONE_NAME is not None: namespaceprefix_ = self.SUNSTONE_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.SUNSTONE_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSUNSTONE_NAME>%s</%sSUNSTONE_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SUNSTONE_NAME), input_name='SUNSTONE_NAME')), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.KEEP_SNAPSHOTS is not None: namespaceprefix_ = self.KEEP_SNAPSHOTS_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEP_SNAPSHOTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEP_SNAPSHOTS>%s</%sKEEP_SNAPSHOTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.KEEP_SNAPSHOTS), input_name='KEEP_SNAPSHOTS')), namespaceprefix_ , eol_)) if self.COLD_NIC_ATTACH is not None: namespaceprefix_ = self.COLD_NIC_ATTACH_nsprefix_ + ':' if (UseCapturedNS_ and self.COLD_NIC_ATTACH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOLD_NIC_ATTACH>%s</%sCOLD_NIC_ATTACH>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.COLD_NIC_ATTACH), input_name='COLD_NIC_ATTACH')), namespaceprefix_ , eol_)) if self.DS_LIVE_MIGRATION is not None: namespaceprefix_ = self.DS_LIVE_MIGRATION_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_LIVE_MIGRATION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_LIVE_MIGRATION>%s</%sDS_LIVE_MIGRATION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DS_LIVE_MIGRATION), input_name='DS_LIVE_MIGRATION')), namespaceprefix_ , eol_)) if self.LIVE_RESIZE is not None: namespaceprefix_ = self.LIVE_RESIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.LIVE_RESIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLIVE_RESIZE>%s</%sLIVE_RESIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LIVE_RESIZE), input_name='LIVE_RESIZE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ARGUMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ARGUMENTS') value_ = self.gds_validate_string(value_, node, 'ARGUMENTS') self.ARGUMENTS = value_ self.ARGUMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'DEFAULT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEFAULT') value_ = self.gds_validate_string(value_, node, 'DEFAULT') self.DEFAULT = value_ self.DEFAULT_nsprefix_ = child_.prefix elif nodeName_ == 'EXECUTABLE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EXECUTABLE') value_ = self.gds_validate_string(value_, node, 'EXECUTABLE') self.EXECUTABLE = value_ self.EXECUTABLE_nsprefix_ = child_.prefix elif nodeName_ == 'IMPORTED_VMS_ACTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMPORTED_VMS_ACTIONS') value_ = self.gds_validate_string(value_, node, 'IMPORTED_VMS_ACTIONS') self.IMPORTED_VMS_ACTIONS = value_ self.IMPORTED_VMS_ACTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'SUNSTONE_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SUNSTONE_NAME') value_ = self.gds_validate_string(value_, node, 'SUNSTONE_NAME') self.SUNSTONE_NAME = value_ self.SUNSTONE_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'KEEP_SNAPSHOTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'KEEP_SNAPSHOTS') value_ = self.gds_validate_string(value_, node, 'KEEP_SNAPSHOTS') self.KEEP_SNAPSHOTS = value_ self.KEEP_SNAPSHOTS_nsprefix_ = child_.prefix # validate type KEEP_SNAPSHOTSType self.validate_KEEP_SNAPSHOTSType(self.KEEP_SNAPSHOTS) elif nodeName_ == 'COLD_NIC_ATTACH': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'COLD_NIC_ATTACH') value_ = self.gds_validate_string(value_, node, 'COLD_NIC_ATTACH') self.COLD_NIC_ATTACH = value_ self.COLD_NIC_ATTACH_nsprefix_ = child_.prefix # validate type COLD_NIC_ATTACHType self.validate_COLD_NIC_ATTACHType(self.COLD_NIC_ATTACH) elif nodeName_ == 'DS_LIVE_MIGRATION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DS_LIVE_MIGRATION') value_ = self.gds_validate_string(value_, node, 'DS_LIVE_MIGRATION') self.DS_LIVE_MIGRATION = value_ self.DS_LIVE_MIGRATION_nsprefix_ = child_.prefix # validate type DS_LIVE_MIGRATIONType self.validate_DS_LIVE_MIGRATIONType(self.DS_LIVE_MIGRATION) elif nodeName_ == 'LIVE_RESIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LIVE_RESIZE') value_ = self.gds_validate_string(value_, node, 'LIVE_RESIZE') self.LIVE_RESIZE = value_ self.LIVE_RESIZE_nsprefix_ = child_.prefix # validate type LIVE_RESIZEType self.validate_LIVE_RESIZEType(self.LIVE_RESIZE) # end class VM_MADType class VNC_PORTSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, RESERVED=None, START=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.RESERVED = RESERVED self.RESERVED_nsprefix_ = None self.START = START self.START_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNC_PORTSType) if subclass is not None: return subclass(*args_, **kwargs_) if VNC_PORTSType.subclass: return VNC_PORTSType.subclass(*args_, **kwargs_) else: return VNC_PORTSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_RESERVED(self): return self.RESERVED def set_RESERVED(self, RESERVED): self.RESERVED = RESERVED def get_START(self): return self.START def set_START(self, START): self.START = START def has__content(self): if ( self.RESERVED is not None or self.START is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNC_PORTSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNC_PORTSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNC_PORTSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNC_PORTSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNC_PORTSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNC_PORTSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNC_PORTSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.RESERVED is not None: namespaceprefix_ = self.RESERVED_nsprefix_ + ':' if (UseCapturedNS_ and self.RESERVED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESERVED>%s</%sRESERVED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESERVED), input_name='RESERVED')), namespaceprefix_ , eol_)) if self.START is not None: namespaceprefix_ = self.START_nsprefix_ + ':' if (UseCapturedNS_ and self.START_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTART>%s</%sSTART>%s' % (namespaceprefix_ , self.gds_format_integer(self.START, input_name='START'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'RESERVED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESERVED') value_ = self.gds_validate_string(value_, node, 'RESERVED') self.RESERVED = value_ self.RESERVED_nsprefix_ = child_.prefix elif nodeName_ == 'START' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'START') ival_ = self.gds_validate_integer(ival_, node, 'START') self.START = ival_ self.START_nsprefix_ = child_.prefix # end class VNC_PORTSType class VN_MAD_CONFType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BRIDGE_TYPE=None, NAME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BRIDGE_TYPE = BRIDGE_TYPE self.BRIDGE_TYPE_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VN_MAD_CONFType) if subclass is not None: return subclass(*args_, **kwargs_) if VN_MAD_CONFType.subclass: return VN_MAD_CONFType.subclass(*args_, **kwargs_) else: return VN_MAD_CONFType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BRIDGE_TYPE(self): return self.BRIDGE_TYPE def set_BRIDGE_TYPE(self, BRIDGE_TYPE): self.BRIDGE_TYPE = BRIDGE_TYPE def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def has__content(self): if ( self.BRIDGE_TYPE is not None or self.NAME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VN_MAD_CONFType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VN_MAD_CONFType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VN_MAD_CONFType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VN_MAD_CONFType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VN_MAD_CONFType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VN_MAD_CONFType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VN_MAD_CONFType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BRIDGE_TYPE is not None: namespaceprefix_ = self.BRIDGE_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.BRIDGE_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBRIDGE_TYPE>%s</%sBRIDGE_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BRIDGE_TYPE), input_name='BRIDGE_TYPE')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BRIDGE_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BRIDGE_TYPE') value_ = self.gds_validate_string(value_, node, 'BRIDGE_TYPE') self.BRIDGE_TYPE = value_ self.BRIDGE_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix # end class VN_MAD_CONFType class VXLAN_IDSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, START=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.START = START self.START_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VXLAN_IDSType) if subclass is not None: return subclass(*args_, **kwargs_) if VXLAN_IDSType.subclass: return VXLAN_IDSType.subclass(*args_, **kwargs_) else: return VXLAN_IDSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_START(self): return self.START def set_START(self, START): self.START = START def has__content(self): if ( self.START is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VXLAN_IDSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VXLAN_IDSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VXLAN_IDSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VXLAN_IDSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VXLAN_IDSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VXLAN_IDSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VXLAN_IDSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.START is not None: namespaceprefix_ = self.START_nsprefix_ + ':' if (UseCapturedNS_ and self.START_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTART>%s</%sSTART>%s' % (namespaceprefix_ , self.gds_format_integer(self.START, input_name='START'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'START' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'START') ival_ = self.gds_validate_integer(ival_, node, 'START') self.START = ival_ self.START_nsprefix_ = child_.prefix # end class VXLAN_IDSType class PERMISSIONSType47(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType47) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType47.subclass: return PERMISSIONSType47.subclass(*args_, **kwargs_) else: return PERMISSIONSType47(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType47', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType47') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType47': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType47') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType47', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType47'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType47', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType47 class UPDATED_VMSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATED_VMSType) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATED_VMSType.subclass: return UPDATED_VMSType.subclass(*args_, **kwargs_) else: return UPDATED_VMSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATED_VMSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATED_VMSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATED_VMSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATED_VMSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATED_VMSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATED_VMSType class OUTDATED_VMSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, OUTDATED_VMSType) if subclass is not None: return subclass(*args_, **kwargs_) if OUTDATED_VMSType.subclass: return OUTDATED_VMSType.subclass(*args_, **kwargs_) else: return OUTDATED_VMSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('OUTDATED_VMSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'OUTDATED_VMSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='OUTDATED_VMSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='OUTDATED_VMSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='OUTDATED_VMSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class OUTDATED_VMSType class UPDATING_VMSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATING_VMSType) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATING_VMSType.subclass: return UPDATING_VMSType.subclass(*args_, **kwargs_) else: return UPDATING_VMSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATING_VMSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATING_VMSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATING_VMSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATING_VMSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATING_VMSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATING_VMSType class ERROR_VMSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ERROR_VMSType) if subclass is not None: return subclass(*args_, **kwargs_) if ERROR_VMSType.subclass: return ERROR_VMSType.subclass(*args_, **kwargs_) else: return ERROR_VMSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ERROR_VMSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ERROR_VMSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ERROR_VMSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ERROR_VMSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ERROR_VMSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class ERROR_VMSType class TEMPLATEType48(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DESCRIPTION=None, RULE=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DESCRIPTION = DESCRIPTION self.DESCRIPTION_nsprefix_ = None if RULE is None: self.RULE = [] else: self.RULE = RULE self.RULE_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType48) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType48.subclass: return TEMPLATEType48.subclass(*args_, **kwargs_) else: return TEMPLATEType48(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DESCRIPTION(self): return self.DESCRIPTION def set_DESCRIPTION(self, DESCRIPTION): self.DESCRIPTION = DESCRIPTION def get_RULE(self): return self.RULE def set_RULE(self, RULE): self.RULE = RULE def add_RULE(self, value): self.RULE.append(value) def insert_RULE_at(self, index, value): self.RULE.insert(index, value) def replace_RULE_at(self, index, value): self.RULE[index] = value def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.DESCRIPTION is not None or self.RULE or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType48', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType48') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType48': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType48') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType48', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType48'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType48', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DESCRIPTION is not None: namespaceprefix_ = self.DESCRIPTION_nsprefix_ + ':' if (UseCapturedNS_ and self.DESCRIPTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDESCRIPTION>%s</%sDESCRIPTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DESCRIPTION), input_name='DESCRIPTION')), namespaceprefix_ , eol_)) for RULE_ in self.RULE: namespaceprefix_ = self.RULE_nsprefix_ + ':' if (UseCapturedNS_ and self.RULE_nsprefix_) else '' RULE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='RULE', pretty_print=pretty_print) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DESCRIPTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DESCRIPTION') value_ = self.gds_validate_string(value_, node, 'DESCRIPTION') self.DESCRIPTION = value_ self.DESCRIPTION_nsprefix_ = child_.prefix elif nodeName_ == 'RULE': obj_ = RULEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.RULE.append(obj_) obj_.original_tagname_ = 'RULE' else: content_ = self.gds_build_any(child_, 'TEMPLATEType48') self.anytypeobjs_.append(content_) # end class TEMPLATEType48 class RULEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, PROTOCOL=None, RULE_TYPE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.PROTOCOL = PROTOCOL self.PROTOCOL_nsprefix_ = None self.RULE_TYPE = RULE_TYPE self.RULE_TYPE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, RULEType) if subclass is not None: return subclass(*args_, **kwargs_) if RULEType.subclass: return RULEType.subclass(*args_, **kwargs_) else: return RULEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_PROTOCOL(self): return self.PROTOCOL def set_PROTOCOL(self, PROTOCOL): self.PROTOCOL = PROTOCOL def get_RULE_TYPE(self): return self.RULE_TYPE def set_RULE_TYPE(self, RULE_TYPE): self.RULE_TYPE = RULE_TYPE def has__content(self): if ( self.PROTOCOL is not None or self.RULE_TYPE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RULEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('RULEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'RULEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='RULEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='RULEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='RULEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='RULEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.PROTOCOL is not None: namespaceprefix_ = self.PROTOCOL_nsprefix_ + ':' if (UseCapturedNS_ and self.PROTOCOL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPROTOCOL>%s</%sPROTOCOL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PROTOCOL), input_name='PROTOCOL')), namespaceprefix_ , eol_)) if self.RULE_TYPE is not None: namespaceprefix_ = self.RULE_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.RULE_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRULE_TYPE>%s</%sRULE_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RULE_TYPE), input_name='RULE_TYPE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'PROTOCOL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PROTOCOL') value_ = self.gds_validate_string(value_, node, 'PROTOCOL') self.PROTOCOL = value_ self.PROTOCOL_nsprefix_ = child_.prefix elif nodeName_ == 'RULE_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RULE_TYPE') value_ = self.gds_validate_string(value_, node, 'RULE_TYPE') self.RULE_TYPE = value_ self.RULE_TYPE_nsprefix_ = child_.prefix # end class RULEType class SHOWBACKType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VMID=None, VMNAME=None, UID=None, GID=None, UNAME=None, GNAME=None, YEAR=None, MONTH=None, CPU_COST=None, MEMORY_COST=None, DISK_COST=None, TOTAL_COST=None, HOURS=None, RHOURS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VMID = VMID self.VMID_nsprefix_ = None self.VMNAME = VMNAME self.VMNAME_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.YEAR = YEAR self.YEAR_nsprefix_ = None self.MONTH = MONTH self.MONTH_nsprefix_ = None self.CPU_COST = CPU_COST self.CPU_COST_nsprefix_ = None self.MEMORY_COST = MEMORY_COST self.MEMORY_COST_nsprefix_ = None self.DISK_COST = DISK_COST self.DISK_COST_nsprefix_ = None self.TOTAL_COST = TOTAL_COST self.TOTAL_COST_nsprefix_ = None self.HOURS = HOURS self.HOURS_nsprefix_ = None self.RHOURS = RHOURS self.RHOURS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SHOWBACKType) if subclass is not None: return subclass(*args_, **kwargs_) if SHOWBACKType.subclass: return SHOWBACKType.subclass(*args_, **kwargs_) else: return SHOWBACKType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VMID(self): return self.VMID def set_VMID(self, VMID): self.VMID = VMID def get_VMNAME(self): return self.VMNAME def set_VMNAME(self, VMNAME): self.VMNAME = VMNAME def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_YEAR(self): return self.YEAR def set_YEAR(self, YEAR): self.YEAR = YEAR def get_MONTH(self): return self.MONTH def set_MONTH(self, MONTH): self.MONTH = MONTH def get_CPU_COST(self): return self.CPU_COST def set_CPU_COST(self, CPU_COST): self.CPU_COST = CPU_COST def get_MEMORY_COST(self): return self.MEMORY_COST def set_MEMORY_COST(self, MEMORY_COST): self.MEMORY_COST = MEMORY_COST def get_DISK_COST(self): return self.DISK_COST def set_DISK_COST(self, DISK_COST): self.DISK_COST = DISK_COST def get_TOTAL_COST(self): return self.TOTAL_COST def set_TOTAL_COST(self, TOTAL_COST): self.TOTAL_COST = TOTAL_COST def get_HOURS(self): return self.HOURS def set_HOURS(self, HOURS): self.HOURS = HOURS def get_RHOURS(self): return self.RHOURS def set_RHOURS(self, RHOURS): self.RHOURS = RHOURS def has__content(self): if ( self.VMID is not None or self.VMNAME is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.YEAR is not None or self.MONTH is not None or self.CPU_COST is not None or self.MEMORY_COST is not None or self.DISK_COST is not None or self.TOTAL_COST is not None or self.HOURS is not None or self.RHOURS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SHOWBACKType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SHOWBACKType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SHOWBACKType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SHOWBACKType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SHOWBACKType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SHOWBACKType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SHOWBACKType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VMID is not None: namespaceprefix_ = self.VMID_nsprefix_ + ':' if (UseCapturedNS_ and self.VMID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMID>%s</%sVMID>%s' % (namespaceprefix_ , self.gds_format_integer(self.VMID, input_name='VMID'), namespaceprefix_ , eol_)) if self.VMNAME is not None: namespaceprefix_ = self.VMNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VMNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMNAME>%s</%sVMNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMNAME), input_name='VMNAME')), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.YEAR is not None: namespaceprefix_ = self.YEAR_nsprefix_ + ':' if (UseCapturedNS_ and self.YEAR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sYEAR>%s</%sYEAR>%s' % (namespaceprefix_ , self.gds_format_integer(self.YEAR, input_name='YEAR'), namespaceprefix_ , eol_)) if self.MONTH is not None: namespaceprefix_ = self.MONTH_nsprefix_ + ':' if (UseCapturedNS_ and self.MONTH_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMONTH>%s</%sMONTH>%s' % (namespaceprefix_ , self.gds_format_integer(self.MONTH, input_name='MONTH'), namespaceprefix_ , eol_)) if self.CPU_COST is not None: namespaceprefix_ = self.CPU_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_COST>%s</%sCPU_COST>%s' % (namespaceprefix_ , self.gds_format_float(self.CPU_COST, input_name='CPU_COST'), namespaceprefix_ , eol_)) if self.MEMORY_COST is not None: namespaceprefix_ = self.MEMORY_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_COST>%s</%sMEMORY_COST>%s' % (namespaceprefix_ , self.gds_format_float(self.MEMORY_COST, input_name='MEMORY_COST'), namespaceprefix_ , eol_)) if self.DISK_COST is not None: namespaceprefix_ = self.DISK_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_COST>%s</%sDISK_COST>%s' % (namespaceprefix_ , self.gds_format_float(self.DISK_COST, input_name='DISK_COST'), namespaceprefix_ , eol_)) if self.TOTAL_COST is not None: namespaceprefix_ = self.TOTAL_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.TOTAL_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOTAL_COST>%s</%sTOTAL_COST>%s' % (namespaceprefix_ , self.gds_format_float(self.TOTAL_COST, input_name='TOTAL_COST'), namespaceprefix_ , eol_)) if self.HOURS is not None: namespaceprefix_ = self.HOURS_nsprefix_ + ':' if (UseCapturedNS_ and self.HOURS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOURS>%s</%sHOURS>%s' % (namespaceprefix_ , self.gds_format_float(self.HOURS, input_name='HOURS'), namespaceprefix_ , eol_)) if self.RHOURS is not None: namespaceprefix_ = self.RHOURS_nsprefix_ + ':' if (UseCapturedNS_ and self.RHOURS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRHOURS>%s</%sRHOURS>%s' % (namespaceprefix_ , self.gds_format_float(self.RHOURS, input_name='RHOURS'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VMID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VMID') ival_ = self.gds_validate_integer(ival_, node, 'VMID') self.VMID = ival_ self.VMID_nsprefix_ = child_.prefix elif nodeName_ == 'VMNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMNAME') value_ = self.gds_validate_string(value_, node, 'VMNAME') self.VMNAME = value_ self.VMNAME_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'YEAR' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'YEAR') ival_ = self.gds_validate_integer(ival_, node, 'YEAR') self.YEAR = ival_ self.YEAR_nsprefix_ = child_.prefix elif nodeName_ == 'MONTH' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MONTH') ival_ = self.gds_validate_integer(ival_, node, 'MONTH') self.MONTH = ival_ self.MONTH_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_COST' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'CPU_COST') fval_ = self.gds_validate_float(fval_, node, 'CPU_COST') self.CPU_COST = fval_ self.CPU_COST_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_COST' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'MEMORY_COST') fval_ = self.gds_validate_float(fval_, node, 'MEMORY_COST') self.MEMORY_COST = fval_ self.MEMORY_COST_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_COST' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'DISK_COST') fval_ = self.gds_validate_float(fval_, node, 'DISK_COST') self.DISK_COST = fval_ self.DISK_COST_nsprefix_ = child_.prefix elif nodeName_ == 'TOTAL_COST' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'TOTAL_COST') fval_ = self.gds_validate_float(fval_, node, 'TOTAL_COST') self.TOTAL_COST = fval_ self.TOTAL_COST_nsprefix_ = child_.prefix elif nodeName_ == 'HOURS' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'HOURS') fval_ = self.gds_validate_float(fval_, node, 'HOURS') self.HOURS = fval_ self.HOURS_nsprefix_ = child_.prefix elif nodeName_ == 'RHOURS' and child_.text: sval_ = child_.text fval_ = self.gds_parse_float(sval_, node, 'RHOURS') fval_ = self.gds_validate_float(fval_, node, 'RHOURS') self.RHOURS = fval_ self.RHOURS_nsprefix_ = child_.prefix # end class SHOWBACKType class USERType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, GID=None, GROUPS=None, GNAME=None, NAME=None, PASSWORD=None, AUTH_DRIVER=None, ENABLED=None, LOGIN_TOKEN=None, TEMPLATE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.GROUPS = GROUPS self.GROUPS_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PASSWORD = PASSWORD self.PASSWORD_nsprefix_ = None self.AUTH_DRIVER = AUTH_DRIVER self.AUTH_DRIVER_nsprefix_ = None self.ENABLED = ENABLED self.ENABLED_nsprefix_ = None if LOGIN_TOKEN is None: self.LOGIN_TOKEN = [] else: self.LOGIN_TOKEN = LOGIN_TOKEN self.LOGIN_TOKEN_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USERType) if subclass is not None: return subclass(*args_, **kwargs_) if USERType.subclass: return USERType.subclass(*args_, **kwargs_) else: return USERType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_GROUPS(self): return self.GROUPS def set_GROUPS(self, GROUPS): self.GROUPS = GROUPS def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PASSWORD(self): return self.PASSWORD def set_PASSWORD(self, PASSWORD): self.PASSWORD = PASSWORD def get_AUTH_DRIVER(self): return self.AUTH_DRIVER def set_AUTH_DRIVER(self, AUTH_DRIVER): self.AUTH_DRIVER = AUTH_DRIVER def get_ENABLED(self): return self.ENABLED def set_ENABLED(self, ENABLED): self.ENABLED = ENABLED def get_LOGIN_TOKEN(self): return self.LOGIN_TOKEN def set_LOGIN_TOKEN(self, LOGIN_TOKEN): self.LOGIN_TOKEN = LOGIN_TOKEN def add_LOGIN_TOKEN(self, value): self.LOGIN_TOKEN.append(value) def insert_LOGIN_TOKEN_at(self, index, value): self.LOGIN_TOKEN.insert(index, value) def replace_LOGIN_TOKEN_at(self, index, value): self.LOGIN_TOKEN[index] = value def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def has__content(self): if ( self.ID is not None or self.GID is not None or self.GROUPS is not None or self.GNAME is not None or self.NAME is not None or self.PASSWORD is not None or self.AUTH_DRIVER is not None or self.ENABLED is not None or self.LOGIN_TOKEN or self.TEMPLATE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USERType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USERType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USERType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USERType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USERType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USERType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.GROUPS is not None: namespaceprefix_ = self.GROUPS_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUPS_nsprefix_) else '' self.GROUPS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='GROUPS', pretty_print=pretty_print) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PASSWORD is not None: namespaceprefix_ = self.PASSWORD_nsprefix_ + ':' if (UseCapturedNS_ and self.PASSWORD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPASSWORD>%s</%sPASSWORD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PASSWORD), input_name='PASSWORD')), namespaceprefix_ , eol_)) if self.AUTH_DRIVER is not None: namespaceprefix_ = self.AUTH_DRIVER_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTH_DRIVER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTH_DRIVER>%s</%sAUTH_DRIVER>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTH_DRIVER), input_name='AUTH_DRIVER')), namespaceprefix_ , eol_)) if self.ENABLED is not None: namespaceprefix_ = self.ENABLED_nsprefix_ + ':' if (UseCapturedNS_ and self.ENABLED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENABLED>%s</%sENABLED>%s' % (namespaceprefix_ , self.gds_format_integer(self.ENABLED, input_name='ENABLED'), namespaceprefix_ , eol_)) for LOGIN_TOKEN_ in self.LOGIN_TOKEN: namespaceprefix_ = self.LOGIN_TOKEN_nsprefix_ + ':' if (UseCapturedNS_ and self.LOGIN_TOKEN_nsprefix_) else '' LOGIN_TOKEN_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LOGIN_TOKEN', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'GROUPS': obj_ = GROUPSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.GROUPS = obj_ obj_.original_tagname_ = 'GROUPS' elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PASSWORD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PASSWORD') value_ = self.gds_validate_string(value_, node, 'PASSWORD') self.PASSWORD = value_ self.PASSWORD_nsprefix_ = child_.prefix elif nodeName_ == 'AUTH_DRIVER': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTH_DRIVER') value_ = self.gds_validate_string(value_, node, 'AUTH_DRIVER') self.AUTH_DRIVER = value_ self.AUTH_DRIVER_nsprefix_ = child_.prefix elif nodeName_ == 'ENABLED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ENABLED') ival_ = self.gds_validate_integer(ival_, node, 'ENABLED') self.ENABLED = ival_ self.ENABLED_nsprefix_ = child_.prefix elif nodeName_ == 'LOGIN_TOKEN': obj_ = LOGIN_TOKENType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LOGIN_TOKEN.append(obj_) obj_.original_tagname_ = 'LOGIN_TOKEN' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix # end class USERType class GROUPSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUPSType) if subclass is not None: return subclass(*args_, **kwargs_) if GROUPSType.subclass: return GROUPSType.subclass(*args_, **kwargs_) else: return GROUPSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUPSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUPSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUPSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUPSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUPSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class GROUPSType class LOGIN_TOKENType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, TOKEN=None, EXPIRATION_TIME=None, EGID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.TOKEN = TOKEN self.TOKEN_nsprefix_ = None self.EXPIRATION_TIME = EXPIRATION_TIME self.EXPIRATION_TIME_nsprefix_ = None self.EGID = EGID self.EGID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOGIN_TOKENType) if subclass is not None: return subclass(*args_, **kwargs_) if LOGIN_TOKENType.subclass: return LOGIN_TOKENType.subclass(*args_, **kwargs_) else: return LOGIN_TOKENType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_TOKEN(self): return self.TOKEN def set_TOKEN(self, TOKEN): self.TOKEN = TOKEN def get_EXPIRATION_TIME(self): return self.EXPIRATION_TIME def set_EXPIRATION_TIME(self, EXPIRATION_TIME): self.EXPIRATION_TIME = EXPIRATION_TIME def get_EGID(self): return self.EGID def set_EGID(self, EGID): self.EGID = EGID def has__content(self): if ( self.TOKEN is not None or self.EXPIRATION_TIME is not None or self.EGID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGIN_TOKENType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOGIN_TOKENType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOGIN_TOKENType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOGIN_TOKENType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOGIN_TOKENType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOGIN_TOKENType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGIN_TOKENType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.TOKEN is not None: namespaceprefix_ = self.TOKEN_nsprefix_ + ':' if (UseCapturedNS_ and self.TOKEN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOKEN>%s</%sTOKEN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TOKEN), input_name='TOKEN')), namespaceprefix_ , eol_)) if self.EXPIRATION_TIME is not None: namespaceprefix_ = self.EXPIRATION_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.EXPIRATION_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXPIRATION_TIME>%s</%sEXPIRATION_TIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.EXPIRATION_TIME, input_name='EXPIRATION_TIME'), namespaceprefix_ , eol_)) if self.EGID is not None: namespaceprefix_ = self.EGID_nsprefix_ + ':' if (UseCapturedNS_ and self.EGID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEGID>%s</%sEGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.EGID, input_name='EGID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'TOKEN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TOKEN') value_ = self.gds_validate_string(value_, node, 'TOKEN') self.TOKEN = value_ self.TOKEN_nsprefix_ = child_.prefix elif nodeName_ == 'EXPIRATION_TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EXPIRATION_TIME') ival_ = self.gds_validate_integer(ival_, node, 'EXPIRATION_TIME') self.EXPIRATION_TIME = ival_ self.EXPIRATION_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'EGID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EGID') ival_ = self.gds_validate_integer(ival_, node, 'EGID') self.EGID = ival_ self.EGID_nsprefix_ = child_.prefix # end class LOGIN_TOKENType class QUOTASType49(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, QUOTASType49) if subclass is not None: return subclass(*args_, **kwargs_) if QUOTASType49.subclass: return QUOTASType49.subclass(*args_, **kwargs_) else: return QUOTASType49(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.ID is not None or self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='QUOTASType49', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('QUOTASType49') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'QUOTASType49': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='QUOTASType49') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='QUOTASType49', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='QUOTASType49'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='QUOTASType49', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType50.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType52.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType54.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType56.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class QUOTASType49 class DATASTORE_QUOTAType50(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType50) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType50.subclass: return DATASTORE_QUOTAType50.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType50(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType50', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType50') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType50': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType50') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType50', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType50'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType50', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType51.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType50 class DATASTOREType51(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType51) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType51.subclass: return DATASTOREType51.subclass(*args_, **kwargs_) else: return DATASTOREType51(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType51', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType51') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType51': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType51') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType51', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType51'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType51', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType51 class NETWORK_QUOTAType52(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType52) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType52.subclass: return NETWORK_QUOTAType52.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType52(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType52', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType52') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType52': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType52') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType52', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType52'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType52', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType53.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType52 class NETWORKType53(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType53) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType53.subclass: return NETWORKType53.subclass(*args_, **kwargs_) else: return NETWORKType53(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType53', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType53') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType53': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType53') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType53', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType53'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType53', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType53 class VM_QUOTAType54(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType54) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType54.subclass: return VM_QUOTAType54.subclass(*args_, **kwargs_) else: return VM_QUOTAType54(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType54', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType54') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType54': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType54') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType54', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType54'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType54', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType55.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType54 class VMType55(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType55) if subclass is not None: return subclass(*args_, **kwargs_) if VMType55.subclass: return VMType55.subclass(*args_, **kwargs_) else: return VMType55(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType55', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType55') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType55': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType55') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType55', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType55'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType55', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType55 class IMAGE_QUOTAType56(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType56) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType56.subclass: return IMAGE_QUOTAType56.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType56(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType56', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType56') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType56': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType56') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType56', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType56'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType56', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType57.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType56 class IMAGEType57(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType57) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType57.subclass: return IMAGEType57.subclass(*args_, **kwargs_) else: return IMAGEType57(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType57', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType57') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType57': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType57') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType57', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType57'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType57', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType57 class DEFAULT_USER_QUOTASType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DEFAULT_USER_QUOTASType) if subclass is not None: return subclass(*args_, **kwargs_) if DEFAULT_USER_QUOTASType.subclass: return DEFAULT_USER_QUOTASType.subclass(*args_, **kwargs_) else: return DEFAULT_USER_QUOTASType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_USER_QUOTASType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DEFAULT_USER_QUOTASType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DEFAULT_USER_QUOTASType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DEFAULT_USER_QUOTASType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DEFAULT_USER_QUOTASType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DEFAULT_USER_QUOTASType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_USER_QUOTASType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType58.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType60.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType62.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType64.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class DEFAULT_USER_QUOTASType class DATASTORE_QUOTAType58(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType58) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType58.subclass: return DATASTORE_QUOTAType58.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType58(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType58', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType58') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType58': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType58') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType58', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType58'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType58', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType59.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType58 class DATASTOREType59(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType59) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType59.subclass: return DATASTOREType59.subclass(*args_, **kwargs_) else: return DATASTOREType59(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType59', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType59') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType59': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType59') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType59', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType59'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType59', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType59 class NETWORK_QUOTAType60(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType60) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType60.subclass: return NETWORK_QUOTAType60.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType60(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType60', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType60') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType60': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType60') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType60', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType60'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType60', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType61.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType60 class NETWORKType61(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType61) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType61.subclass: return NETWORKType61.subclass(*args_, **kwargs_) else: return NETWORKType61(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType61', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType61') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType61': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType61') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType61', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType61'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType61', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType61 class VM_QUOTAType62(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType62) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType62.subclass: return VM_QUOTAType62.subclass(*args_, **kwargs_) else: return VM_QUOTAType62(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType62', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType62') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType62': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType62') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType62', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType62'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType62', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType63.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType62 class VMType63(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType63) if subclass is not None: return subclass(*args_, **kwargs_) if VMType63.subclass: return VMType63.subclass(*args_, **kwargs_) else: return VMType63(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType63', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType63') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType63': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType63') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType63', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType63'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType63', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType63 class IMAGE_QUOTAType64(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType64) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType64.subclass: return IMAGE_QUOTAType64.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType64(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType64', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType64') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType64': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType64') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType64', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType64'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType64', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType65.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType64 class IMAGEType65(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType65) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType65.subclass: return IMAGEType65.subclass(*args_, **kwargs_) else: return IMAGEType65(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType65', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType65') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType65': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType65') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType65', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType65'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType65', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType65 class GROUPSType66(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUPSType66) if subclass is not None: return subclass(*args_, **kwargs_) if GROUPSType66.subclass: return GROUPSType66.subclass(*args_, **kwargs_) else: return GROUPSType66(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType66', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUPSType66') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUPSType66': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUPSType66') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUPSType66', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUPSType66'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType66', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class GROUPSType66 class LOGIN_TOKENType67(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, TOKEN=None, EXPIRATION_TIME=None, EGID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.TOKEN = TOKEN self.TOKEN_nsprefix_ = None self.EXPIRATION_TIME = EXPIRATION_TIME self.EXPIRATION_TIME_nsprefix_ = None self.EGID = EGID self.EGID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOGIN_TOKENType67) if subclass is not None: return subclass(*args_, **kwargs_) if LOGIN_TOKENType67.subclass: return LOGIN_TOKENType67.subclass(*args_, **kwargs_) else: return LOGIN_TOKENType67(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_TOKEN(self): return self.TOKEN def set_TOKEN(self, TOKEN): self.TOKEN = TOKEN def get_EXPIRATION_TIME(self): return self.EXPIRATION_TIME def set_EXPIRATION_TIME(self, EXPIRATION_TIME): self.EXPIRATION_TIME = EXPIRATION_TIME def get_EGID(self): return self.EGID def set_EGID(self, EGID): self.EGID = EGID def has__content(self): if ( self.TOKEN is not None or self.EXPIRATION_TIME is not None or self.EGID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGIN_TOKENType67', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOGIN_TOKENType67') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOGIN_TOKENType67': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOGIN_TOKENType67') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOGIN_TOKENType67', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOGIN_TOKENType67'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOGIN_TOKENType67', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.TOKEN is not None: namespaceprefix_ = self.TOKEN_nsprefix_ + ':' if (UseCapturedNS_ and self.TOKEN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOKEN>%s</%sTOKEN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TOKEN), input_name='TOKEN')), namespaceprefix_ , eol_)) if self.EXPIRATION_TIME is not None: namespaceprefix_ = self.EXPIRATION_TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.EXPIRATION_TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEXPIRATION_TIME>%s</%sEXPIRATION_TIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.EXPIRATION_TIME, input_name='EXPIRATION_TIME'), namespaceprefix_ , eol_)) if self.EGID is not None: namespaceprefix_ = self.EGID_nsprefix_ + ':' if (UseCapturedNS_ and self.EGID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEGID>%s</%sEGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.EGID, input_name='EGID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'TOKEN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TOKEN') value_ = self.gds_validate_string(value_, node, 'TOKEN') self.TOKEN = value_ self.TOKEN_nsprefix_ = child_.prefix elif nodeName_ == 'EXPIRATION_TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EXPIRATION_TIME') ival_ = self.gds_validate_integer(ival_, node, 'EXPIRATION_TIME') self.EXPIRATION_TIME = ival_ self.EXPIRATION_TIME_nsprefix_ = child_.prefix elif nodeName_ == 'EGID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EGID') ival_ = self.gds_validate_integer(ival_, node, 'EGID') self.EGID = ival_ self.EGID_nsprefix_ = child_.prefix # end class LOGIN_TOKENType67 class DATASTORE_QUOTAType68(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType68) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType68.subclass: return DATASTORE_QUOTAType68.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType68(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType68', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType68') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType68': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType68') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType68', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType68'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType68', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType69.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType68 class DATASTOREType69(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType69) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType69.subclass: return DATASTOREType69.subclass(*args_, **kwargs_) else: return DATASTOREType69(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType69', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType69') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType69': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType69') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType69', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType69'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType69', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType69 class NETWORK_QUOTAType70(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType70) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType70.subclass: return NETWORK_QUOTAType70.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType70(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType70', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType70') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType70': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType70') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType70', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType70'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType70', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType71.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType70 class NETWORKType71(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType71) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType71.subclass: return NETWORKType71.subclass(*args_, **kwargs_) else: return NETWORKType71(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType71', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType71') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType71': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType71') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType71', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType71'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType71', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType71 class VM_QUOTAType72(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType72) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType72.subclass: return VM_QUOTAType72.subclass(*args_, **kwargs_) else: return VM_QUOTAType72(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType72', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType72') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType72': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType72') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType72', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType72'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType72', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType73.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType72 class VMType73(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType73) if subclass is not None: return subclass(*args_, **kwargs_) if VMType73.subclass: return VMType73.subclass(*args_, **kwargs_) else: return VMType73(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType73', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType73') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType73': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType73') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType73', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType73'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType73', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType73 class IMAGE_QUOTAType74(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType74) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType74.subclass: return IMAGE_QUOTAType74.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType74(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType74', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType74') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType74': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType74') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType74', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType74'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType74', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType75.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType74 class IMAGEType75(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType75) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType75.subclass: return IMAGEType75.subclass(*args_, **kwargs_) else: return IMAGEType75(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType75', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType75') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType75': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType75') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType75', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType75'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType75', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType75 class DEFAULT_USER_QUOTASType76(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE_QUOTA=None, NETWORK_QUOTA=None, VM_QUOTA=None, IMAGE_QUOTA=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DATASTORE_QUOTA = DATASTORE_QUOTA self.DATASTORE_QUOTA_nsprefix_ = None self.NETWORK_QUOTA = NETWORK_QUOTA self.NETWORK_QUOTA_nsprefix_ = None self.VM_QUOTA = VM_QUOTA self.VM_QUOTA_nsprefix_ = None self.IMAGE_QUOTA = IMAGE_QUOTA self.IMAGE_QUOTA_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DEFAULT_USER_QUOTASType76) if subclass is not None: return subclass(*args_, **kwargs_) if DEFAULT_USER_QUOTASType76.subclass: return DEFAULT_USER_QUOTASType76.subclass(*args_, **kwargs_) else: return DEFAULT_USER_QUOTASType76(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE_QUOTA(self): return self.DATASTORE_QUOTA def set_DATASTORE_QUOTA(self, DATASTORE_QUOTA): self.DATASTORE_QUOTA = DATASTORE_QUOTA def get_NETWORK_QUOTA(self): return self.NETWORK_QUOTA def set_NETWORK_QUOTA(self, NETWORK_QUOTA): self.NETWORK_QUOTA = NETWORK_QUOTA def get_VM_QUOTA(self): return self.VM_QUOTA def set_VM_QUOTA(self, VM_QUOTA): self.VM_QUOTA = VM_QUOTA def get_IMAGE_QUOTA(self): return self.IMAGE_QUOTA def set_IMAGE_QUOTA(self, IMAGE_QUOTA): self.IMAGE_QUOTA = IMAGE_QUOTA def has__content(self): if ( self.DATASTORE_QUOTA is not None or self.NETWORK_QUOTA is not None or self.VM_QUOTA is not None or self.IMAGE_QUOTA is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_USER_QUOTASType76', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DEFAULT_USER_QUOTASType76') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DEFAULT_USER_QUOTASType76': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DEFAULT_USER_QUOTASType76') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DEFAULT_USER_QUOTASType76', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DEFAULT_USER_QUOTASType76'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DEFAULT_USER_QUOTASType76', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DATASTORE_QUOTA is not None: namespaceprefix_ = self.DATASTORE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_QUOTA_nsprefix_) else '' self.DATASTORE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE_QUOTA', pretty_print=pretty_print) if self.NETWORK_QUOTA is not None: namespaceprefix_ = self.NETWORK_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_QUOTA_nsprefix_) else '' self.NETWORK_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK_QUOTA', pretty_print=pretty_print) if self.VM_QUOTA is not None: namespaceprefix_ = self.VM_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_QUOTA_nsprefix_) else '' self.VM_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM_QUOTA', pretty_print=pretty_print) if self.IMAGE_QUOTA is not None: namespaceprefix_ = self.IMAGE_QUOTA_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_QUOTA_nsprefix_) else '' self.IMAGE_QUOTA.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE_QUOTA', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE_QUOTA': obj_ = DATASTORE_QUOTAType77.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE_QUOTA = obj_ obj_.original_tagname_ = 'DATASTORE_QUOTA' elif nodeName_ == 'NETWORK_QUOTA': obj_ = NETWORK_QUOTAType79.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK_QUOTA = obj_ obj_.original_tagname_ = 'NETWORK_QUOTA' elif nodeName_ == 'VM_QUOTA': obj_ = VM_QUOTAType81.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM_QUOTA = obj_ obj_.original_tagname_ = 'VM_QUOTA' elif nodeName_ == 'IMAGE_QUOTA': obj_ = IMAGE_QUOTAType83.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE_QUOTA = obj_ obj_.original_tagname_ = 'IMAGE_QUOTA' # end class DEFAULT_USER_QUOTASType76 class DATASTORE_QUOTAType77(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORE_QUOTAType77) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORE_QUOTAType77.subclass: return DATASTORE_QUOTAType77.subclass(*args_, **kwargs_) else: return DATASTORE_QUOTAType77(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType77', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORE_QUOTAType77') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORE_QUOTAType77': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORE_QUOTAType77') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORE_QUOTAType77', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORE_QUOTAType77'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORE_QUOTAType77', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType78.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORE_QUOTAType77 class DATASTOREType78(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, IMAGES=None, IMAGES_USED=None, SIZE=None, SIZE_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.IMAGES = IMAGES self.IMAGES_nsprefix_ = None self.IMAGES_USED = IMAGES_USED self.IMAGES_USED_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.SIZE_USED = SIZE_USED self.SIZE_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType78) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType78.subclass: return DATASTOREType78.subclass(*args_, **kwargs_) else: return DATASTOREType78(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_IMAGES(self): return self.IMAGES def set_IMAGES(self, IMAGES): self.IMAGES = IMAGES def get_IMAGES_USED(self): return self.IMAGES_USED def set_IMAGES_USED(self, IMAGES_USED): self.IMAGES_USED = IMAGES_USED def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_SIZE_USED(self): return self.SIZE_USED def set_SIZE_USED(self, SIZE_USED): self.SIZE_USED = SIZE_USED def has__content(self): if ( self.ID is not None or self.IMAGES is not None or self.IMAGES_USED is not None or self.SIZE is not None or self.SIZE_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType78', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType78') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType78': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType78') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType78', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType78'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType78', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.IMAGES is not None: namespaceprefix_ = self.IMAGES_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES>%s</%sIMAGES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES), input_name='IMAGES')), namespaceprefix_ , eol_)) if self.IMAGES_USED is not None: namespaceprefix_ = self.IMAGES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMAGES_USED>%s</%sIMAGES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMAGES_USED), input_name='IMAGES_USED')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE), input_name='SIZE')), namespaceprefix_ , eol_)) if self.SIZE_USED is not None: namespaceprefix_ = self.SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE_USED>%s</%sSIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SIZE_USED), input_name='SIZE_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES') value_ = self.gds_validate_string(value_, node, 'IMAGES') self.IMAGES = value_ self.IMAGES_nsprefix_ = child_.prefix elif nodeName_ == 'IMAGES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMAGES_USED') value_ = self.gds_validate_string(value_, node, 'IMAGES_USED') self.IMAGES_USED = value_ self.IMAGES_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE') value_ = self.gds_validate_string(value_, node, 'SIZE') self.SIZE = value_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SIZE_USED') self.SIZE_USED = value_ self.SIZE_USED_nsprefix_ = child_.prefix # end class DATASTOREType78 class NETWORK_QUOTAType79(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, NETWORK=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if NETWORK is None: self.NETWORK = [] else: self.NETWORK = NETWORK self.NETWORK_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORK_QUOTAType79) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORK_QUOTAType79.subclass: return NETWORK_QUOTAType79.subclass(*args_, **kwargs_) else: return NETWORK_QUOTAType79(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_NETWORK(self): return self.NETWORK def set_NETWORK(self, NETWORK): self.NETWORK = NETWORK def add_NETWORK(self, value): self.NETWORK.append(value) def insert_NETWORK_at(self, index, value): self.NETWORK.insert(index, value) def replace_NETWORK_at(self, index, value): self.NETWORK[index] = value def has__content(self): if ( self.NETWORK ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType79', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORK_QUOTAType79') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORK_QUOTAType79': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORK_QUOTAType79') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORK_QUOTAType79', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORK_QUOTAType79'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORK_QUOTAType79', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for NETWORK_ in self.NETWORK: namespaceprefix_ = self.NETWORK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_nsprefix_) else '' NETWORK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NETWORK', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'NETWORK': obj_ = NETWORKType80.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NETWORK.append(obj_) obj_.original_tagname_ = 'NETWORK' # end class NETWORK_QUOTAType79 class NETWORKType80(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, LEASES=None, LEASES_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None self.LEASES_USED = LEASES_USED self.LEASES_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NETWORKType80) if subclass is not None: return subclass(*args_, **kwargs_) if NETWORKType80.subclass: return NETWORKType80.subclass(*args_, **kwargs_) else: return NETWORKType80(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def get_LEASES_USED(self): return self.LEASES_USED def set_LEASES_USED(self, LEASES_USED): self.LEASES_USED = LEASES_USED def has__content(self): if ( self.ID is not None or self.LEASES is not None or self.LEASES_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType80', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NETWORKType80') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NETWORKType80': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NETWORKType80') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NETWORKType80', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NETWORKType80'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NETWORKType80', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES>%s</%sLEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES), input_name='LEASES')), namespaceprefix_ , eol_)) if self.LEASES_USED is not None: namespaceprefix_ = self.LEASES_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLEASES_USED>%s</%sLEASES_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LEASES_USED), input_name='LEASES_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES') value_ = self.gds_validate_string(value_, node, 'LEASES') self.LEASES = value_ self.LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LEASES_USED') value_ = self.gds_validate_string(value_, node, 'LEASES_USED') self.LEASES_USED = value_ self.LEASES_USED_nsprefix_ = child_.prefix # end class NETWORKType80 class VM_QUOTAType81(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VM=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VM = VM self.VM_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VM_QUOTAType81) if subclass is not None: return subclass(*args_, **kwargs_) if VM_QUOTAType81.subclass: return VM_QUOTAType81.subclass(*args_, **kwargs_) else: return VM_QUOTAType81(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def has__content(self): if ( self.VM is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType81', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VM_QUOTAType81') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VM_QUOTAType81': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VM_QUOTAType81') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VM_QUOTAType81', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VM_QUOTAType81'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VM_QUOTAType81', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' self.VM.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VM', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VM': obj_ = VMType82.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VM = obj_ obj_.original_tagname_ = 'VM' # end class VM_QUOTAType81 class VMType82(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, CPU_USED=None, MEMORY=None, MEMORY_USED=None, RUNNING_CPU=None, RUNNING_CPU_USED=None, RUNNING_MEMORY=None, RUNNING_MEMORY_USED=None, RUNNING_VMS=None, RUNNING_VMS_USED=None, SYSTEM_DISK_SIZE=None, SYSTEM_DISK_SIZE_USED=None, VMS=None, VMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_USED = CPU_USED self.CPU_USED_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_USED = MEMORY_USED self.MEMORY_USED_nsprefix_ = None self.RUNNING_CPU = RUNNING_CPU self.RUNNING_CPU_nsprefix_ = None self.RUNNING_CPU_USED = RUNNING_CPU_USED self.RUNNING_CPU_USED_nsprefix_ = None self.RUNNING_MEMORY = RUNNING_MEMORY self.RUNNING_MEMORY_nsprefix_ = None self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED self.RUNNING_MEMORY_USED_nsprefix_ = None self.RUNNING_VMS = RUNNING_VMS self.RUNNING_VMS_nsprefix_ = None self.RUNNING_VMS_USED = RUNNING_VMS_USED self.RUNNING_VMS_USED_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED self.SYSTEM_DISK_SIZE_USED_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None self.VMS_USED = VMS_USED self.VMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType82) if subclass is not None: return subclass(*args_, **kwargs_) if VMType82.subclass: return VMType82.subclass(*args_, **kwargs_) else: return VMType82(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_USED(self): return self.CPU_USED def set_CPU_USED(self, CPU_USED): self.CPU_USED = CPU_USED def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_USED(self): return self.MEMORY_USED def set_MEMORY_USED(self, MEMORY_USED): self.MEMORY_USED = MEMORY_USED def get_RUNNING_CPU(self): return self.RUNNING_CPU def set_RUNNING_CPU(self, RUNNING_CPU): self.RUNNING_CPU = RUNNING_CPU def get_RUNNING_CPU_USED(self): return self.RUNNING_CPU_USED def set_RUNNING_CPU_USED(self, RUNNING_CPU_USED): self.RUNNING_CPU_USED = RUNNING_CPU_USED def get_RUNNING_MEMORY(self): return self.RUNNING_MEMORY def set_RUNNING_MEMORY(self, RUNNING_MEMORY): self.RUNNING_MEMORY = RUNNING_MEMORY def get_RUNNING_MEMORY_USED(self): return self.RUNNING_MEMORY_USED def set_RUNNING_MEMORY_USED(self, RUNNING_MEMORY_USED): self.RUNNING_MEMORY_USED = RUNNING_MEMORY_USED def get_RUNNING_VMS(self): return self.RUNNING_VMS def set_RUNNING_VMS(self, RUNNING_VMS): self.RUNNING_VMS = RUNNING_VMS def get_RUNNING_VMS_USED(self): return self.RUNNING_VMS_USED def set_RUNNING_VMS_USED(self, RUNNING_VMS_USED): self.RUNNING_VMS_USED = RUNNING_VMS_USED def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_SYSTEM_DISK_SIZE_USED(self): return self.SYSTEM_DISK_SIZE_USED def set_SYSTEM_DISK_SIZE_USED(self, SYSTEM_DISK_SIZE_USED): self.SYSTEM_DISK_SIZE_USED = SYSTEM_DISK_SIZE_USED def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def get_VMS_USED(self): return self.VMS_USED def set_VMS_USED(self, VMS_USED): self.VMS_USED = VMS_USED def has__content(self): if ( self.CPU is not None or self.CPU_USED is not None or self.MEMORY is not None or self.MEMORY_USED is not None or self.RUNNING_CPU is not None or self.RUNNING_CPU_USED is not None or self.RUNNING_MEMORY is not None or self.RUNNING_MEMORY_USED is not None or self.RUNNING_VMS is not None or self.RUNNING_VMS_USED is not None or self.SYSTEM_DISK_SIZE is not None or self.SYSTEM_DISK_SIZE_USED is not None or self.VMS is not None or self.VMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType82', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType82') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType82': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType82') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType82', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType82'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType82', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_USED is not None: namespaceprefix_ = self.CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_USED>%s</%sCPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_USED), input_name='CPU_USED')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_USED is not None: namespaceprefix_ = self.MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_USED>%s</%sMEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_USED), input_name='MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_CPU is not None: namespaceprefix_ = self.RUNNING_CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU>%s</%sRUNNING_CPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU), input_name='RUNNING_CPU')), namespaceprefix_ , eol_)) if self.RUNNING_CPU_USED is not None: namespaceprefix_ = self.RUNNING_CPU_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_CPU_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_CPU_USED>%s</%sRUNNING_CPU_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_CPU_USED), input_name='RUNNING_CPU_USED')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY is not None: namespaceprefix_ = self.RUNNING_MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY>%s</%sRUNNING_MEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY), input_name='RUNNING_MEMORY')), namespaceprefix_ , eol_)) if self.RUNNING_MEMORY_USED is not None: namespaceprefix_ = self.RUNNING_MEMORY_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_MEMORY_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_MEMORY_USED>%s</%sRUNNING_MEMORY_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_MEMORY_USED), input_name='RUNNING_MEMORY_USED')), namespaceprefix_ , eol_)) if self.RUNNING_VMS is not None: namespaceprefix_ = self.RUNNING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS>%s</%sRUNNING_VMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS), input_name='RUNNING_VMS')), namespaceprefix_ , eol_)) if self.RUNNING_VMS_USED is not None: namespaceprefix_ = self.RUNNING_VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RUNNING_VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRUNNING_VMS_USED>%s</%sRUNNING_VMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RUNNING_VMS_USED), input_name='RUNNING_VMS_USED')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE_USED is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE_USED>%s</%sSYSTEM_DISK_SIZE_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE_USED), input_name='SYSTEM_DISK_SIZE_USED')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) if self.VMS_USED is not None: namespaceprefix_ = self.VMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS_USED>%s</%sVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS_USED), input_name='VMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_USED') value_ = self.gds_validate_string(value_, node, 'CPU_USED') self.CPU_USED = value_ self.CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'MEMORY_USED') self.MEMORY_USED = value_ self.MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU') self.RUNNING_CPU = value_ self.RUNNING_CPU_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_CPU_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_CPU_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_CPU_USED') self.RUNNING_CPU_USED = value_ self.RUNNING_CPU_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY') self.RUNNING_MEMORY = value_ self.RUNNING_MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_MEMORY_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_MEMORY_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_MEMORY_USED') self.RUNNING_MEMORY_USED = value_ self.RUNNING_MEMORY_USED_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS') self.RUNNING_VMS = value_ self.RUNNING_VMS_nsprefix_ = child_.prefix elif nodeName_ == 'RUNNING_VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RUNNING_VMS_USED') value_ = self.gds_validate_string(value_, node, 'RUNNING_VMS_USED') self.RUNNING_VMS_USED = value_ self.RUNNING_VMS_USED_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE_USED') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE_USED') self.SYSTEM_DISK_SIZE_USED = value_ self.SYSTEM_DISK_SIZE_USED_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix elif nodeName_ == 'VMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS_USED') value_ = self.gds_validate_string(value_, node, 'VMS_USED') self.VMS_USED = value_ self.VMS_USED_nsprefix_ = child_.prefix # end class VMType82 class IMAGE_QUOTAType83(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IMAGE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if IMAGE is None: self.IMAGE = [] else: self.IMAGE = IMAGE self.IMAGE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGE_QUOTAType83) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGE_QUOTAType83.subclass: return IMAGE_QUOTAType83.subclass(*args_, **kwargs_) else: return IMAGE_QUOTAType83(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IMAGE(self): return self.IMAGE def set_IMAGE(self, IMAGE): self.IMAGE = IMAGE def add_IMAGE(self, value): self.IMAGE.append(value) def insert_IMAGE_at(self, index, value): self.IMAGE.insert(index, value) def replace_IMAGE_at(self, index, value): self.IMAGE[index] = value def has__content(self): if ( self.IMAGE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType83', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGE_QUOTAType83') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGE_QUOTAType83': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGE_QUOTAType83') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGE_QUOTAType83', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGE_QUOTAType83'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGE_QUOTAType83', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for IMAGE_ in self.IMAGE: namespaceprefix_ = self.IMAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.IMAGE_nsprefix_) else '' IMAGE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='IMAGE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IMAGE': obj_ = IMAGEType84.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.IMAGE.append(obj_) obj_.original_tagname_ = 'IMAGE' # end class IMAGE_QUOTAType83 class IMAGEType84(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, RVMS=None, RVMS_USED=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.RVMS = RVMS self.RVMS_nsprefix_ = None self.RVMS_USED = RVMS_USED self.RVMS_USED_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, IMAGEType84) if subclass is not None: return subclass(*args_, **kwargs_) if IMAGEType84.subclass: return IMAGEType84.subclass(*args_, **kwargs_) else: return IMAGEType84(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_RVMS(self): return self.RVMS def set_RVMS(self, RVMS): self.RVMS = RVMS def get_RVMS_USED(self): return self.RVMS_USED def set_RVMS_USED(self, RVMS_USED): self.RVMS_USED = RVMS_USED def has__content(self): if ( self.ID is not None or self.RVMS is not None or self.RVMS_USED is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType84', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('IMAGEType84') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'IMAGEType84': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='IMAGEType84') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='IMAGEType84', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='IMAGEType84'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='IMAGEType84', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ID), input_name='ID')), namespaceprefix_ , eol_)) if self.RVMS is not None: namespaceprefix_ = self.RVMS_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS>%s</%sRVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS), input_name='RVMS')), namespaceprefix_ , eol_)) if self.RVMS_USED is not None: namespaceprefix_ = self.RVMS_USED_nsprefix_ + ':' if (UseCapturedNS_ and self.RVMS_USED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRVMS_USED>%s</%sRVMS_USED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RVMS_USED), input_name='RVMS_USED')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ID') value_ = self.gds_validate_string(value_, node, 'ID') self.ID = value_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS') value_ = self.gds_validate_string(value_, node, 'RVMS') self.RVMS = value_ self.RVMS_nsprefix_ = child_.prefix elif nodeName_ == 'RVMS_USED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RVMS_USED') value_ = self.gds_validate_string(value_, node, 'RVMS_USED') self.RVMS_USED = value_ self.RVMS_USED_nsprefix_ = child_.prefix # end class IMAGEType84 class GROUPSType85(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GROUPSType85) if subclass is not None: return subclass(*args_, **kwargs_) if GROUPSType85.subclass: return GROUPSType85.subclass(*args_, **kwargs_) else: return GROUPSType85(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType85', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GROUPSType85') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GROUPSType85': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GROUPSType85') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GROUPSType85', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GROUPSType85'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='GROUPSType85', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class GROUPSType85 class CLUSTERSType86(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CLUSTER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if CLUSTER is None: self.CLUSTER = [] else: self.CLUSTER = CLUSTER self.CLUSTER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTERSType86) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTERSType86.subclass: return CLUSTERSType86.subclass(*args_, **kwargs_) else: return CLUSTERSType86(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CLUSTER(self): return self.CLUSTER def set_CLUSTER(self, CLUSTER): self.CLUSTER = CLUSTER def add_CLUSTER(self, value): self.CLUSTER.append(value) def insert_CLUSTER_at(self, index, value): self.CLUSTER.insert(index, value) def replace_CLUSTER_at(self, index, value): self.CLUSTER[index] = value def has__content(self): if ( self.CLUSTER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType86', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTERSType86') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTERSType86': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTERSType86') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTERSType86', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTERSType86'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType86', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for CLUSTER_ in self.CLUSTER: namespaceprefix_ = self.CLUSTER_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_nsprefix_) else '' CLUSTER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CLUSTER': obj_ = CLUSTERType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTER.append(obj_) obj_.original_tagname_ = 'CLUSTER' # end class CLUSTERSType86 class CLUSTERType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ZONE_ID=None, CLUSTER_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.CLUSTER_ID = CLUSTER_ID self.CLUSTER_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTERType) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTERType.subclass: return CLUSTERType.subclass(*args_, **kwargs_) else: return CLUSTERType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_CLUSTER_ID(self): return self.CLUSTER_ID def set_CLUSTER_ID(self, CLUSTER_ID): self.CLUSTER_ID = CLUSTER_ID def has__content(self): if ( self.ZONE_ID is not None or self.CLUSTER_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTERType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTERType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTERType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTERType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTERType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ZONE_ID, input_name='ZONE_ID'), namespaceprefix_ , eol_)) if self.CLUSTER_ID is not None: namespaceprefix_ = self.CLUSTER_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTER_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLUSTER_ID>%s</%sCLUSTER_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CLUSTER_ID, input_name='CLUSTER_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ZONE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ZONE_ID') ival_ = self.gds_validate_integer(ival_, node, 'ZONE_ID') self.ZONE_ID = ival_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'CLUSTER_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CLUSTER_ID') ival_ = self.gds_validate_integer(ival_, node, 'CLUSTER_ID') self.CLUSTER_ID = ival_ self.CLUSTER_ID_nsprefix_ = child_.prefix # end class CLUSTERType class HOSTSType87(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOST=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HOST is None: self.HOST = [] else: self.HOST = HOST self.HOST_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOSTSType87) if subclass is not None: return subclass(*args_, **kwargs_) if HOSTSType87.subclass: return HOSTSType87.subclass(*args_, **kwargs_) else: return HOSTSType87(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOST(self): return self.HOST def set_HOST(self, HOST): self.HOST = HOST def add_HOST(self, value): self.HOST.append(value) def insert_HOST_at(self, index, value): self.HOST.insert(index, value) def replace_HOST_at(self, index, value): self.HOST[index] = value def has__content(self): if ( self.HOST ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTSType87', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOSTSType87') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOSTSType87': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOSTSType87') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOSTSType87', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOSTSType87'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTSType87', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HOST_ in self.HOST: namespaceprefix_ = self.HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_nsprefix_) else '' HOST_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HOST', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOST': obj_ = HOSTType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HOST.append(obj_) obj_.original_tagname_ = 'HOST' # end class HOSTSType87 class HOSTType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ZONE_ID=None, HOST_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.HOST_ID = HOST_ID self.HOST_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HOSTType) if subclass is not None: return subclass(*args_, **kwargs_) if HOSTType.subclass: return HOSTType.subclass(*args_, **kwargs_) else: return HOSTType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_HOST_ID(self): return self.HOST_ID def set_HOST_ID(self, HOST_ID): self.HOST_ID = HOST_ID def has__content(self): if ( self.ZONE_ID is not None or self.HOST_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HOSTType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HOSTType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HOSTType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HOSTType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HOSTType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HOSTType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ZONE_ID, input_name='ZONE_ID'), namespaceprefix_ , eol_)) if self.HOST_ID is not None: namespaceprefix_ = self.HOST_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOST_ID>%s</%sHOST_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.HOST_ID, input_name='HOST_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ZONE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ZONE_ID') ival_ = self.gds_validate_integer(ival_, node, 'ZONE_ID') self.ZONE_ID = ival_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'HOST_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'HOST_ID') ival_ = self.gds_validate_integer(ival_, node, 'HOST_ID') self.HOST_ID = ival_ self.HOST_ID_nsprefix_ = child_.prefix # end class HOSTType class DATASTORESType88(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DATASTORE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if DATASTORE is None: self.DATASTORE = [] else: self.DATASTORE = DATASTORE self.DATASTORE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTORESType88) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTORESType88.subclass: return DATASTORESType88.subclass(*args_, **kwargs_) else: return DATASTORESType88(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DATASTORE(self): return self.DATASTORE def set_DATASTORE(self, DATASTORE): self.DATASTORE = DATASTORE def add_DATASTORE(self, value): self.DATASTORE.append(value) def insert_DATASTORE_at(self, index, value): self.DATASTORE.insert(index, value) def replace_DATASTORE_at(self, index, value): self.DATASTORE[index] = value def has__content(self): if ( self.DATASTORE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType88', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTORESType88') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTORESType88': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTORESType88') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTORESType88', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTORESType88'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTORESType88', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for DATASTORE_ in self.DATASTORE: namespaceprefix_ = self.DATASTORE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_nsprefix_) else '' DATASTORE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DATASTORE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DATASTORE': obj_ = DATASTOREType89.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DATASTORE.append(obj_) obj_.original_tagname_ = 'DATASTORE' # end class DATASTORESType88 class DATASTOREType89(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ZONE_ID=None, DATASTORE_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.DATASTORE_ID = DATASTORE_ID self.DATASTORE_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DATASTOREType89) if subclass is not None: return subclass(*args_, **kwargs_) if DATASTOREType89.subclass: return DATASTOREType89.subclass(*args_, **kwargs_) else: return DATASTOREType89(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_DATASTORE_ID(self): return self.DATASTORE_ID def set_DATASTORE_ID(self, DATASTORE_ID): self.DATASTORE_ID = DATASTORE_ID def has__content(self): if ( self.ZONE_ID is not None or self.DATASTORE_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType89', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DATASTOREType89') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DATASTOREType89': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DATASTOREType89') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DATASTOREType89', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DATASTOREType89'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DATASTOREType89', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ZONE_ID, input_name='ZONE_ID'), namespaceprefix_ , eol_)) if self.DATASTORE_ID is not None: namespaceprefix_ = self.DATASTORE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DATASTORE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATASTORE_ID>%s</%sDATASTORE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DATASTORE_ID, input_name='DATASTORE_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ZONE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ZONE_ID') ival_ = self.gds_validate_integer(ival_, node, 'ZONE_ID') self.ZONE_ID = ival_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'DATASTORE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DATASTORE_ID') ival_ = self.gds_validate_integer(ival_, node, 'DATASTORE_ID') self.DATASTORE_ID = ival_ self.DATASTORE_ID_nsprefix_ = child_.prefix # end class DATASTOREType89 class VNETSType90(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VNET=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if VNET is None: self.VNET = [] else: self.VNET = VNET self.VNET_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNETSType90) if subclass is not None: return subclass(*args_, **kwargs_) if VNETSType90.subclass: return VNETSType90.subclass(*args_, **kwargs_) else: return VNETSType90(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VNET(self): return self.VNET def set_VNET(self, VNET): self.VNET = VNET def add_VNET(self, value): self.VNET.append(value) def insert_VNET_at(self, index, value): self.VNET.insert(index, value) def replace_VNET_at(self, index, value): self.VNET[index] = value def has__content(self): if ( self.VNET ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETSType90', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNETSType90') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNETSType90': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNETSType90') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNETSType90', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNETSType90'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETSType90', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for VNET_ in self.VNET: namespaceprefix_ = self.VNET_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_nsprefix_) else '' VNET_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VNET', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VNET': obj_ = VNETType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VNET.append(obj_) obj_.original_tagname_ = 'VNET' # end class VNETSType90 class VNETType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ZONE_ID=None, VNET_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ZONE_ID = ZONE_ID self.ZONE_ID_nsprefix_ = None self.VNET_ID = VNET_ID self.VNET_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNETType) if subclass is not None: return subclass(*args_, **kwargs_) if VNETType.subclass: return VNETType.subclass(*args_, **kwargs_) else: return VNETType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ZONE_ID(self): return self.ZONE_ID def set_ZONE_ID(self, ZONE_ID): self.ZONE_ID = ZONE_ID def get_VNET_ID(self): return self.VNET_ID def set_VNET_ID(self, VNET_ID): self.VNET_ID = VNET_ID def has__content(self): if ( self.ZONE_ID is not None or self.VNET_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNETType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNETType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNETType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNETType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNETType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ZONE_ID is not None: namespaceprefix_ = self.ZONE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ZONE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sZONE_ID>%s</%sZONE_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ZONE_ID, input_name='ZONE_ID'), namespaceprefix_ , eol_)) if self.VNET_ID is not None: namespaceprefix_ = self.VNET_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVNET_ID>%s</%sVNET_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.VNET_ID, input_name='VNET_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ZONE_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ZONE_ID') ival_ = self.gds_validate_integer(ival_, node, 'ZONE_ID') self.ZONE_ID = ival_ self.ZONE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VNET_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VNET_ID') ival_ = self.gds_validate_integer(ival_, node, 'VNET_ID') self.VNET_ID = ival_ self.VNET_ID_nsprefix_ = child_.prefix # end class VNETType class PERMISSIONSType91(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType91) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType91.subclass: return PERMISSIONSType91.subclass(*args_, **kwargs_) else: return PERMISSIONSType91(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType91', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType91') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType91': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType91') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType91', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType91'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType91', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType91 class LOCKType92(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType92) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType92.subclass: return LOCKType92.subclass(*args_, **kwargs_) else: return LOCKType92(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType92', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType92') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType92': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType92') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType92', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType92'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType92', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType92 class ROLESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ROLE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ROLE is None: self.ROLE = [] else: self.ROLE = ROLE self.ROLE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ROLESType) if subclass is not None: return subclass(*args_, **kwargs_) if ROLESType.subclass: return ROLESType.subclass(*args_, **kwargs_) else: return ROLESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ROLE(self): return self.ROLE def set_ROLE(self, ROLE): self.ROLE = ROLE def add_ROLE(self, value): self.ROLE.append(value) def insert_ROLE_at(self, index, value): self.ROLE.insert(index, value) def replace_ROLE_at(self, index, value): self.ROLE[index] = value def has__content(self): if ( self.ROLE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ROLESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ROLESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ROLESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ROLESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ROLESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ROLESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ROLESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ROLE_ in self.ROLE: namespaceprefix_ = self.ROLE_nsprefix_ + ':' if (UseCapturedNS_ and self.ROLE_nsprefix_) else '' ROLE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ROLE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ROLE': obj_ = ROLEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ROLE.append(obj_) obj_.original_tagname_ = 'ROLE' # end class ROLESType class ROLEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HOST_AFFINED=None, HOST_ANTI_AFFINED=None, ID=None, NAME=None, POLICY=None, VMS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.HOST_AFFINED = HOST_AFFINED self.HOST_AFFINED_nsprefix_ = None self.HOST_ANTI_AFFINED = HOST_ANTI_AFFINED self.HOST_ANTI_AFFINED_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.POLICY = POLICY self.POLICY_nsprefix_ = None self.VMS = VMS self.VMS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ROLEType) if subclass is not None: return subclass(*args_, **kwargs_) if ROLEType.subclass: return ROLEType.subclass(*args_, **kwargs_) else: return ROLEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HOST_AFFINED(self): return self.HOST_AFFINED def set_HOST_AFFINED(self, HOST_AFFINED): self.HOST_AFFINED = HOST_AFFINED def get_HOST_ANTI_AFFINED(self): return self.HOST_ANTI_AFFINED def set_HOST_ANTI_AFFINED(self, HOST_ANTI_AFFINED): self.HOST_ANTI_AFFINED = HOST_ANTI_AFFINED def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_POLICY(self): return self.POLICY def set_POLICY(self, POLICY): self.POLICY = POLICY def get_VMS(self): return self.VMS def set_VMS(self, VMS): self.VMS = VMS def has__content(self): if ( self.HOST_AFFINED is not None or self.HOST_ANTI_AFFINED is not None or self.ID is not None or self.NAME is not None or self.POLICY is not None or self.VMS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ROLEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ROLEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ROLEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ROLEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ROLEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ROLEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ROLEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.HOST_AFFINED is not None: namespaceprefix_ = self.HOST_AFFINED_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_AFFINED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOST_AFFINED>%s</%sHOST_AFFINED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOST_AFFINED), input_name='HOST_AFFINED')), namespaceprefix_ , eol_)) if self.HOST_ANTI_AFFINED is not None: namespaceprefix_ = self.HOST_ANTI_AFFINED_nsprefix_ + ':' if (UseCapturedNS_ and self.HOST_ANTI_AFFINED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOST_ANTI_AFFINED>%s</%sHOST_ANTI_AFFINED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOST_ANTI_AFFINED), input_name='HOST_ANTI_AFFINED')), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.POLICY is not None: namespaceprefix_ = self.POLICY_nsprefix_ + ':' if (UseCapturedNS_ and self.POLICY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPOLICY>%s</%sPOLICY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.POLICY), input_name='POLICY')), namespaceprefix_ , eol_)) if self.VMS is not None: namespaceprefix_ = self.VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.VMS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMS>%s</%sVMS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMS), input_name='VMS')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HOST_AFFINED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOST_AFFINED') value_ = self.gds_validate_string(value_, node, 'HOST_AFFINED') self.HOST_AFFINED = value_ self.HOST_AFFINED_nsprefix_ = child_.prefix elif nodeName_ == 'HOST_ANTI_AFFINED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOST_ANTI_AFFINED') value_ = self.gds_validate_string(value_, node, 'HOST_ANTI_AFFINED') self.HOST_ANTI_AFFINED = value_ self.HOST_ANTI_AFFINED_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'POLICY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'POLICY') value_ = self.gds_validate_string(value_, node, 'POLICY') self.POLICY = value_ self.POLICY_nsprefix_ = child_.prefix elif nodeName_ == 'VMS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMS') value_ = self.gds_validate_string(value_, node, 'VMS') self.VMS = value_ self.VMS_nsprefix_ = child_.prefix # end class ROLEType class VMType93(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, LAST_POLL=None, STATE=None, LCM_STATE=None, RESCHED=None, STIME=None, ETIME=None, DEPLOY_ID=None, TEMPLATE=None, MONITORING=None, USER_TEMPLATE=None, HISTORY_RECORDS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.LAST_POLL = LAST_POLL self.LAST_POLL_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.LCM_STATE = LCM_STATE self.LCM_STATE_nsprefix_ = None self.RESCHED = RESCHED self.RESCHED_nsprefix_ = None self.STIME = STIME self.STIME_nsprefix_ = None self.ETIME = ETIME self.ETIME_nsprefix_ = None self.DEPLOY_ID = DEPLOY_ID self.DEPLOY_ID_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.MONITORING = MONITORING self.MONITORING_nsprefix_ = None self.USER_TEMPLATE = USER_TEMPLATE self.USER_TEMPLATE_nsprefix_ = None self.HISTORY_RECORDS = HISTORY_RECORDS self.HISTORY_RECORDS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMType93) if subclass is not None: return subclass(*args_, **kwargs_) if VMType93.subclass: return VMType93.subclass(*args_, **kwargs_) else: return VMType93(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_LAST_POLL(self): return self.LAST_POLL def set_LAST_POLL(self, LAST_POLL): self.LAST_POLL = LAST_POLL def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_LCM_STATE(self): return self.LCM_STATE def set_LCM_STATE(self, LCM_STATE): self.LCM_STATE = LCM_STATE def get_RESCHED(self): return self.RESCHED def set_RESCHED(self, RESCHED): self.RESCHED = RESCHED def get_STIME(self): return self.STIME def set_STIME(self, STIME): self.STIME = STIME def get_ETIME(self): return self.ETIME def set_ETIME(self, ETIME): self.ETIME = ETIME def get_DEPLOY_ID(self): return self.DEPLOY_ID def set_DEPLOY_ID(self, DEPLOY_ID): self.DEPLOY_ID = DEPLOY_ID def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_MONITORING(self): return self.MONITORING def set_MONITORING(self, MONITORING): self.MONITORING = MONITORING def get_USER_TEMPLATE(self): return self.USER_TEMPLATE def set_USER_TEMPLATE(self, USER_TEMPLATE): self.USER_TEMPLATE = USER_TEMPLATE def get_HISTORY_RECORDS(self): return self.HISTORY_RECORDS def set_HISTORY_RECORDS(self, HISTORY_RECORDS): self.HISTORY_RECORDS = HISTORY_RECORDS def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.LAST_POLL is not None or self.STATE is not None or self.LCM_STATE is not None or self.RESCHED is not None or self.STIME is not None or self.ETIME is not None or self.DEPLOY_ID is not None or self.TEMPLATE is not None or self.MONITORING is not None or self.USER_TEMPLATE is not None or self.HISTORY_RECORDS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType93', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMType93') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMType93': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMType93') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMType93', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMType93'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMType93', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.LAST_POLL is not None: namespaceprefix_ = self.LAST_POLL_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_POLL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_POLL>%s</%sLAST_POLL>%s' % (namespaceprefix_ , self.gds_format_integer(self.LAST_POLL, input_name='LAST_POLL'), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.LCM_STATE is not None: namespaceprefix_ = self.LCM_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.LCM_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLCM_STATE>%s</%sLCM_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.LCM_STATE, input_name='LCM_STATE'), namespaceprefix_ , eol_)) if self.RESCHED is not None: namespaceprefix_ = self.RESCHED_nsprefix_ + ':' if (UseCapturedNS_ and self.RESCHED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESCHED>%s</%sRESCHED>%s' % (namespaceprefix_ , self.gds_format_integer(self.RESCHED, input_name='RESCHED'), namespaceprefix_ , eol_)) if self.STIME is not None: namespaceprefix_ = self.STIME_nsprefix_ + ':' if (UseCapturedNS_ and self.STIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTIME>%s</%sSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.STIME, input_name='STIME'), namespaceprefix_ , eol_)) if self.ETIME is not None: namespaceprefix_ = self.ETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sETIME>%s</%sETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ETIME, input_name='ETIME'), namespaceprefix_ , eol_)) if self.DEPLOY_ID is not None: namespaceprefix_ = self.DEPLOY_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DEPLOY_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDEPLOY_ID>%s</%sDEPLOY_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DEPLOY_ID), input_name='DEPLOY_ID')), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.MONITORING is not None: namespaceprefix_ = self.MONITORING_nsprefix_ + ':' if (UseCapturedNS_ and self.MONITORING_nsprefix_) else '' self.MONITORING.export(outfile, level, namespaceprefix_, namespacedef_='', name_='MONITORING', pretty_print=pretty_print) if self.USER_TEMPLATE is not None: namespaceprefix_ = self.USER_TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_TEMPLATE_nsprefix_) else '' self.USER_TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='USER_TEMPLATE', pretty_print=pretty_print) if self.HISTORY_RECORDS is not None: namespaceprefix_ = self.HISTORY_RECORDS_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_RECORDS_nsprefix_) else '' self.HISTORY_RECORDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY_RECORDS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_POLL' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LAST_POLL') ival_ = self.gds_validate_integer(ival_, node, 'LAST_POLL') self.LAST_POLL = ival_ self.LAST_POLL_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'LCM_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LCM_STATE') ival_ = self.gds_validate_integer(ival_, node, 'LCM_STATE') self.LCM_STATE = ival_ self.LCM_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'RESCHED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RESCHED') ival_ = self.gds_validate_integer(ival_, node, 'RESCHED') self.RESCHED = ival_ self.RESCHED_nsprefix_ = child_.prefix elif nodeName_ == 'STIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STIME') ival_ = self.gds_validate_integer(ival_, node, 'STIME') self.STIME = ival_ self.STIME_nsprefix_ = child_.prefix elif nodeName_ == 'ETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ETIME') ival_ = self.gds_validate_integer(ival_, node, 'ETIME') self.ETIME = ival_ self.ETIME_nsprefix_ = child_.prefix elif nodeName_ == 'DEPLOY_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DEPLOY_ID') value_ = self.gds_validate_string(value_, node, 'DEPLOY_ID') self.DEPLOY_ID = value_ self.DEPLOY_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType94.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'MONITORING': obj_ = MONITORINGType95.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.MONITORING = obj_ obj_.original_tagname_ = 'MONITORING' elif nodeName_ == 'USER_TEMPLATE': obj_ = USER_TEMPLATEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.USER_TEMPLATE = obj_ obj_.original_tagname_ = 'USER_TEMPLATE' elif nodeName_ == 'HISTORY_RECORDS': obj_ = HISTORY_RECORDSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY_RECORDS = obj_ obj_.original_tagname_ = 'HISTORY_RECORDS' # end class VMType93 class TEMPLATEType94(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, MEMORY=None, VCPU=None, DISK=None, NIC=None, GRAPHICS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.VCPU = VCPU self.VCPU_nsprefix_ = None if DISK is None: self.DISK = [] else: self.DISK = DISK self.DISK_nsprefix_ = None if NIC is None: self.NIC = [] else: self.NIC = NIC self.NIC_nsprefix_ = None self.GRAPHICS = GRAPHICS self.GRAPHICS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType94) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType94.subclass: return TEMPLATEType94.subclass(*args_, **kwargs_) else: return TEMPLATEType94(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_VCPU(self): return self.VCPU def set_VCPU(self, VCPU): self.VCPU = VCPU def get_DISK(self): return self.DISK def set_DISK(self, DISK): self.DISK = DISK def add_DISK(self, value): self.DISK.append(value) def insert_DISK_at(self, index, value): self.DISK.insert(index, value) def replace_DISK_at(self, index, value): self.DISK[index] = value def get_NIC(self): return self.NIC def set_NIC(self, NIC): self.NIC = NIC def add_NIC(self, value): self.NIC.append(value) def insert_NIC_at(self, index, value): self.NIC.insert(index, value) def replace_NIC_at(self, index, value): self.NIC[index] = value def get_GRAPHICS(self): return self.GRAPHICS def set_GRAPHICS(self, GRAPHICS): self.GRAPHICS = GRAPHICS def has__content(self): if ( self.CPU is not None or self.MEMORY is not None or self.VCPU is not None or self.DISK or self.NIC or self.GRAPHICS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType94', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType94') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType94': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType94') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType94', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType94'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType94', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.VCPU is not None: namespaceprefix_ = self.VCPU_nsprefix_ + ':' if (UseCapturedNS_ and self.VCPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCPU>%s</%sVCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCPU), input_name='VCPU')), namespaceprefix_ , eol_)) for DISK_ in self.DISK: namespaceprefix_ = self.DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_nsprefix_) else '' DISK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DISK', pretty_print=pretty_print) for NIC_ in self.NIC: namespaceprefix_ = self.NIC_nsprefix_ + ':' if (UseCapturedNS_ and self.NIC_nsprefix_) else '' NIC_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NIC', pretty_print=pretty_print) if self.GRAPHICS is not None: namespaceprefix_ = self.GRAPHICS_nsprefix_ + ':' if (UseCapturedNS_ and self.GRAPHICS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGRAPHICS>%s</%sGRAPHICS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GRAPHICS), input_name='GRAPHICS')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'VCPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCPU') value_ = self.gds_validate_string(value_, node, 'VCPU') self.VCPU = value_ self.VCPU_nsprefix_ = child_.prefix elif nodeName_ == 'DISK': obj_ = DISKType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DISK.append(obj_) obj_.original_tagname_ = 'DISK' elif nodeName_ == 'NIC': obj_ = NICType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NIC.append(obj_) obj_.original_tagname_ = 'NIC' elif nodeName_ == 'GRAPHICS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GRAPHICS') value_ = self.gds_validate_string(value_, node, 'GRAPHICS') self.GRAPHICS = value_ self.GRAPHICS_nsprefix_ = child_.prefix # end class TEMPLATEType94 class GRAPHICS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, GRAPHICS) if subclass is not None: return subclass(*args_, **kwargs_) if GRAPHICS.subclass: return GRAPHICS.subclass(*args_, **kwargs_) else: return GRAPHICS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='GRAPHICS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('GRAPHICS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'GRAPHICS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='GRAPHICS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='GRAPHICS', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='GRAPHICS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='GRAPHICS', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class GRAPHICS class DISKType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_DS_REF=None, VCENTER_INSTANCE_ID=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_DS_REF = VCENTER_DS_REF self.VCENTER_DS_REF_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DISKType) if subclass is not None: return subclass(*args_, **kwargs_) if DISKType.subclass: return DISKType.subclass(*args_, **kwargs_) else: return DISKType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_DS_REF(self): return self.VCENTER_DS_REF def set_VCENTER_DS_REF(self, VCENTER_DS_REF): self.VCENTER_DS_REF = VCENTER_DS_REF def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_DS_REF is not None or self.VCENTER_INSTANCE_ID is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISKType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DISKType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DISKType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DISKType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DISKType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DISKType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISKType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_DS_REF is not None: namespaceprefix_ = self.VCENTER_DS_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_REF>%s</%sVCENTER_DS_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DS_REF), input_name='VCENTER_DS_REF')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_DS_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_REF') self.VCENTER_DS_REF = value_ self.VCENTER_DS_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'DISKType') self.anytypeobjs_.append(content_) # end class DISKType class NICType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, VCENTER_INSTANCE_ID=None, VCENTER_NET_REF=None, VCENTER_PORTGROUP_TYPE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_NET_REF = VCENTER_NET_REF self.VCENTER_NET_REF_nsprefix_ = None self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE self.VCENTER_PORTGROUP_TYPE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NICType) if subclass is not None: return subclass(*args_, **kwargs_) if NICType.subclass: return NICType.subclass(*args_, **kwargs_) else: return NICType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_NET_REF(self): return self.VCENTER_NET_REF def set_VCENTER_NET_REF(self, VCENTER_NET_REF): self.VCENTER_NET_REF = VCENTER_NET_REF def get_VCENTER_PORTGROUP_TYPE(self): return self.VCENTER_PORTGROUP_TYPE def set_VCENTER_PORTGROUP_TYPE(self, VCENTER_PORTGROUP_TYPE): self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE def has__content(self): if ( self.anytypeobjs_ or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_NET_REF is not None or self.VCENTER_PORTGROUP_TYPE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NICType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NICType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NICType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NICType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NICType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NICType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NICType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_NET_REF is not None: namespaceprefix_ = self.VCENTER_NET_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_NET_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_NET_REF>%s</%sVCENTER_NET_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_NET_REF), input_name='VCENTER_NET_REF')), namespaceprefix_ , eol_)) if self.VCENTER_PORTGROUP_TYPE is not None: namespaceprefix_ = self.VCENTER_PORTGROUP_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_PORTGROUP_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_PORTGROUP_TYPE>%s</%sVCENTER_PORTGROUP_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_PORTGROUP_TYPE), input_name='VCENTER_PORTGROUP_TYPE')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_NET_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_NET_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_NET_REF') self.VCENTER_NET_REF = value_ self.VCENTER_NET_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_PORTGROUP_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_PORTGROUP_TYPE') value_ = self.gds_validate_string(value_, node, 'VCENTER_PORTGROUP_TYPE') self.VCENTER_PORTGROUP_TYPE = value_ self.VCENTER_PORTGROUP_TYPE_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'NICType') self.anytypeobjs_.append(content_) # end class NICType class MONITORINGType95(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORINGType95) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORINGType95.subclass: return MONITORINGType95.subclass(*args_, **kwargs_) else: return MONITORINGType95(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType95', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORINGType95') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORINGType95': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORINGType95') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORINGType95', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORINGType95'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType95', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): content_ = self.gds_build_any(child_, 'MONITORINGType95') self.anytypeobjs_.append(content_) # end class MONITORINGType95 class USER_TEMPLATEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LABELS=None, ERROR=None, SCHED_MESSAGE=None, SCHED_RANK=None, SCHED_DS_RANK=None, SCHED_REQUIREMENTS=None, SCHED_DS_REQUIREMENTS=None, USER_PRIORITY=None, PUBLIC_CLOUD=None, SCHED_ACTION=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LABELS = LABELS self.LABELS_nsprefix_ = None self.ERROR = ERROR self.ERROR_nsprefix_ = None self.SCHED_MESSAGE = SCHED_MESSAGE self.SCHED_MESSAGE_nsprefix_ = None self.SCHED_RANK = SCHED_RANK self.SCHED_RANK_nsprefix_ = None self.SCHED_DS_RANK = SCHED_DS_RANK self.SCHED_DS_RANK_nsprefix_ = None self.SCHED_REQUIREMENTS = SCHED_REQUIREMENTS self.SCHED_REQUIREMENTS_nsprefix_ = None self.SCHED_DS_REQUIREMENTS = SCHED_DS_REQUIREMENTS self.SCHED_DS_REQUIREMENTS_nsprefix_ = None self.USER_PRIORITY = USER_PRIORITY self.USER_PRIORITY_nsprefix_ = None if PUBLIC_CLOUD is None: self.PUBLIC_CLOUD = [] else: self.PUBLIC_CLOUD = PUBLIC_CLOUD self.PUBLIC_CLOUD_nsprefix_ = None if SCHED_ACTION is None: self.SCHED_ACTION = [] else: self.SCHED_ACTION = SCHED_ACTION self.SCHED_ACTION_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USER_TEMPLATEType) if subclass is not None: return subclass(*args_, **kwargs_) if USER_TEMPLATEType.subclass: return USER_TEMPLATEType.subclass(*args_, **kwargs_) else: return USER_TEMPLATEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LABELS(self): return self.LABELS def set_LABELS(self, LABELS): self.LABELS = LABELS def get_ERROR(self): return self.ERROR def set_ERROR(self, ERROR): self.ERROR = ERROR def get_SCHED_MESSAGE(self): return self.SCHED_MESSAGE def set_SCHED_MESSAGE(self, SCHED_MESSAGE): self.SCHED_MESSAGE = SCHED_MESSAGE def get_SCHED_RANK(self): return self.SCHED_RANK def set_SCHED_RANK(self, SCHED_RANK): self.SCHED_RANK = SCHED_RANK def get_SCHED_DS_RANK(self): return self.SCHED_DS_RANK def set_SCHED_DS_RANK(self, SCHED_DS_RANK): self.SCHED_DS_RANK = SCHED_DS_RANK def get_SCHED_REQUIREMENTS(self): return self.SCHED_REQUIREMENTS def set_SCHED_REQUIREMENTS(self, SCHED_REQUIREMENTS): self.SCHED_REQUIREMENTS = SCHED_REQUIREMENTS def get_SCHED_DS_REQUIREMENTS(self): return self.SCHED_DS_REQUIREMENTS def set_SCHED_DS_REQUIREMENTS(self, SCHED_DS_REQUIREMENTS): self.SCHED_DS_REQUIREMENTS = SCHED_DS_REQUIREMENTS def get_USER_PRIORITY(self): return self.USER_PRIORITY def set_USER_PRIORITY(self, USER_PRIORITY): self.USER_PRIORITY = USER_PRIORITY def get_PUBLIC_CLOUD(self): return self.PUBLIC_CLOUD def set_PUBLIC_CLOUD(self, PUBLIC_CLOUD): self.PUBLIC_CLOUD = PUBLIC_CLOUD def add_PUBLIC_CLOUD(self, value): self.PUBLIC_CLOUD.append(value) def insert_PUBLIC_CLOUD_at(self, index, value): self.PUBLIC_CLOUD.insert(index, value) def replace_PUBLIC_CLOUD_at(self, index, value): self.PUBLIC_CLOUD[index] = value def get_SCHED_ACTION(self): return self.SCHED_ACTION def set_SCHED_ACTION(self, SCHED_ACTION): self.SCHED_ACTION = SCHED_ACTION def add_SCHED_ACTION(self, value): self.SCHED_ACTION.append(value) def insert_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION.insert(index, value) def replace_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION[index] = value def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.LABELS is not None or self.ERROR is not None or self.SCHED_MESSAGE is not None or self.SCHED_RANK is not None or self.SCHED_DS_RANK is not None or self.SCHED_REQUIREMENTS is not None or self.SCHED_DS_REQUIREMENTS is not None or self.USER_PRIORITY is not None or self.PUBLIC_CLOUD or self.SCHED_ACTION or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_TEMPLATEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USER_TEMPLATEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USER_TEMPLATEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USER_TEMPLATEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USER_TEMPLATEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USER_TEMPLATEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_TEMPLATEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LABELS is not None: namespaceprefix_ = self.LABELS_nsprefix_ + ':' if (UseCapturedNS_ and self.LABELS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLABELS>%s</%sLABELS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LABELS), input_name='LABELS')), namespaceprefix_ , eol_)) if self.ERROR is not None: namespaceprefix_ = self.ERROR_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sERROR>%s</%sERROR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ERROR), input_name='ERROR')), namespaceprefix_ , eol_)) if self.SCHED_MESSAGE is not None: namespaceprefix_ = self.SCHED_MESSAGE_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_MESSAGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_MESSAGE>%s</%sSCHED_MESSAGE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_MESSAGE), input_name='SCHED_MESSAGE')), namespaceprefix_ , eol_)) if self.SCHED_RANK is not None: namespaceprefix_ = self.SCHED_RANK_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_RANK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_RANK>%s</%sSCHED_RANK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_RANK), input_name='SCHED_RANK')), namespaceprefix_ , eol_)) if self.SCHED_DS_RANK is not None: namespaceprefix_ = self.SCHED_DS_RANK_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_DS_RANK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_DS_RANK>%s</%sSCHED_DS_RANK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_DS_RANK), input_name='SCHED_DS_RANK')), namespaceprefix_ , eol_)) if self.SCHED_REQUIREMENTS is not None: namespaceprefix_ = self.SCHED_REQUIREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_REQUIREMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_REQUIREMENTS>%s</%sSCHED_REQUIREMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_REQUIREMENTS), input_name='SCHED_REQUIREMENTS')), namespaceprefix_ , eol_)) if self.SCHED_DS_REQUIREMENTS is not None: namespaceprefix_ = self.SCHED_DS_REQUIREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_DS_REQUIREMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSCHED_DS_REQUIREMENTS>%s</%sSCHED_DS_REQUIREMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SCHED_DS_REQUIREMENTS), input_name='SCHED_DS_REQUIREMENTS')), namespaceprefix_ , eol_)) if self.USER_PRIORITY is not None: namespaceprefix_ = self.USER_PRIORITY_nsprefix_ + ':' if (UseCapturedNS_ and self.USER_PRIORITY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSER_PRIORITY>%s</%sUSER_PRIORITY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USER_PRIORITY), input_name='USER_PRIORITY')), namespaceprefix_ , eol_)) for PUBLIC_CLOUD_ in self.PUBLIC_CLOUD: namespaceprefix_ = self.PUBLIC_CLOUD_nsprefix_ + ':' if (UseCapturedNS_ and self.PUBLIC_CLOUD_nsprefix_) else '' PUBLIC_CLOUD_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PUBLIC_CLOUD', pretty_print=pretty_print) for SCHED_ACTION_ in self.SCHED_ACTION: namespaceprefix_ = self.SCHED_ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTION_nsprefix_) else '' SCHED_ACTION_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SCHED_ACTION', pretty_print=pretty_print) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LABELS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LABELS') value_ = self.gds_validate_string(value_, node, 'LABELS') self.LABELS = value_ self.LABELS_nsprefix_ = child_.prefix elif nodeName_ == 'ERROR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ERROR') value_ = self.gds_validate_string(value_, node, 'ERROR') self.ERROR = value_ self.ERROR_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_MESSAGE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_MESSAGE') value_ = self.gds_validate_string(value_, node, 'SCHED_MESSAGE') self.SCHED_MESSAGE = value_ self.SCHED_MESSAGE_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_RANK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_RANK') value_ = self.gds_validate_string(value_, node, 'SCHED_RANK') self.SCHED_RANK = value_ self.SCHED_RANK_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_DS_RANK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_DS_RANK') value_ = self.gds_validate_string(value_, node, 'SCHED_DS_RANK') self.SCHED_DS_RANK = value_ self.SCHED_DS_RANK_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_REQUIREMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_REQUIREMENTS') value_ = self.gds_validate_string(value_, node, 'SCHED_REQUIREMENTS') self.SCHED_REQUIREMENTS = value_ self.SCHED_REQUIREMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_DS_REQUIREMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SCHED_DS_REQUIREMENTS') value_ = self.gds_validate_string(value_, node, 'SCHED_DS_REQUIREMENTS') self.SCHED_DS_REQUIREMENTS = value_ self.SCHED_DS_REQUIREMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'USER_PRIORITY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USER_PRIORITY') value_ = self.gds_validate_string(value_, node, 'USER_PRIORITY') self.USER_PRIORITY = value_ self.USER_PRIORITY_nsprefix_ = child_.prefix elif nodeName_ == 'PUBLIC_CLOUD': obj_ = PUBLIC_CLOUDType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PUBLIC_CLOUD.append(obj_) obj_.original_tagname_ = 'PUBLIC_CLOUD' elif nodeName_ == 'SCHED_ACTION': obj_ = SCHED_ACTIONType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SCHED_ACTION.append(obj_) obj_.original_tagname_ = 'SCHED_ACTION' else: content_ = self.gds_build_any(child_, 'USER_TEMPLATEType') self.anytypeobjs_.append(content_) # end class USER_TEMPLATEType class PUBLIC_CLOUDType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PUBLIC_CLOUDType) if subclass is not None: return subclass(*args_, **kwargs_) if PUBLIC_CLOUDType.subclass: return PUBLIC_CLOUDType.subclass(*args_, **kwargs_) else: return PUBLIC_CLOUDType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def has__content(self): if ( self.anytypeobjs_ is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PUBLIC_CLOUDType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PUBLIC_CLOUDType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PUBLIC_CLOUDType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PUBLIC_CLOUDType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PUBLIC_CLOUDType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PUBLIC_CLOUDType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PUBLIC_CLOUDType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if not fromsubclass_: if self.anytypeobjs_ is not None: content_ = self.anytypeobjs_ outfile.write(content_) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): content_ = self.gds_build_any(child_, 'PUBLIC_CLOUDType') self.set_anytypeobjs_(content_) # end class PUBLIC_CLOUDType class SCHED_ACTIONType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SCHED_ACTIONType) if subclass is not None: return subclass(*args_, **kwargs_) if SCHED_ACTIONType.subclass: return SCHED_ACTIONType.subclass(*args_, **kwargs_) else: return SCHED_ACTIONType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def has__content(self): if ( self.anytypeobjs_ is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SCHED_ACTIONType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SCHED_ACTIONType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SCHED_ACTIONType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SCHED_ACTIONType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SCHED_ACTIONType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SCHED_ACTIONType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SCHED_ACTIONType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if not fromsubclass_: if self.anytypeobjs_ is not None: content_ = self.anytypeobjs_ outfile.write(content_) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): content_ = self.gds_build_any(child_, 'SCHED_ACTIONType') self.set_anytypeobjs_(content_) # end class SCHED_ACTIONType class HISTORY_RECORDSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HISTORY=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HISTORY is None: self.HISTORY = [] else: self.HISTORY = HISTORY self.HISTORY_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORY_RECORDSType) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORY_RECORDSType.subclass: return HISTORY_RECORDSType.subclass(*args_, **kwargs_) else: return HISTORY_RECORDSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HISTORY(self): return self.HISTORY def set_HISTORY(self, HISTORY): self.HISTORY = HISTORY def add_HISTORY(self, value): self.HISTORY.append(value) def insert_HISTORY_at(self, index, value): self.HISTORY.insert(index, value) def replace_HISTORY_at(self, index, value): self.HISTORY[index] = value def has__content(self): if ( self.HISTORY ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORY_RECORDSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORY_RECORDSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORY_RECORDSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORY_RECORDSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORY_RECORDSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HISTORY_ in self.HISTORY: namespaceprefix_ = self.HISTORY_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_nsprefix_) else '' HISTORY_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HISTORY': obj_ = HISTORYType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY.append(obj_) obj_.original_tagname_ = 'HISTORY' # end class HISTORY_RECORDSType class HISTORYType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OID=None, SEQ=None, HOSTNAME=None, HID=None, CID=None, DS_ID=None, VM_MAD=None, TM_MAD=None, ACTION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OID = OID self.OID_nsprefix_ = None self.SEQ = SEQ self.SEQ_nsprefix_ = None self.HOSTNAME = HOSTNAME self.HOSTNAME_nsprefix_ = None self.HID = HID self.HID_nsprefix_ = None self.CID = CID self.CID_nsprefix_ = None self.DS_ID = DS_ID self.DS_ID_nsprefix_ = None self.VM_MAD = VM_MAD self.VM_MAD_nsprefix_ = None self.TM_MAD = TM_MAD self.TM_MAD_nsprefix_ = None self.ACTION = ACTION self.ACTION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORYType) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORYType.subclass: return HISTORYType.subclass(*args_, **kwargs_) else: return HISTORYType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OID(self): return self.OID def set_OID(self, OID): self.OID = OID def get_SEQ(self): return self.SEQ def set_SEQ(self, SEQ): self.SEQ = SEQ def get_HOSTNAME(self): return self.HOSTNAME def set_HOSTNAME(self, HOSTNAME): self.HOSTNAME = HOSTNAME def get_HID(self): return self.HID def set_HID(self, HID): self.HID = HID def get_CID(self): return self.CID def set_CID(self, CID): self.CID = CID def get_DS_ID(self): return self.DS_ID def set_DS_ID(self, DS_ID): self.DS_ID = DS_ID def get_VM_MAD(self): return self.VM_MAD def set_VM_MAD(self, VM_MAD): self.VM_MAD = VM_MAD def get_TM_MAD(self): return self.TM_MAD def set_TM_MAD(self, TM_MAD): self.TM_MAD = TM_MAD def get_ACTION(self): return self.ACTION def set_ACTION(self, ACTION): self.ACTION = ACTION def has__content(self): if ( self.OID is not None or self.SEQ is not None or self.HOSTNAME is not None or self.HID is not None or self.CID is not None or self.DS_ID is not None or self.VM_MAD is not None or self.TM_MAD is not None or self.ACTION is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORYType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORYType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORYType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORYType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORYType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORYType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORYType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OID is not None: namespaceprefix_ = self.OID_nsprefix_ + ':' if (UseCapturedNS_ and self.OID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOID>%s</%sOID>%s' % (namespaceprefix_ , self.gds_format_integer(self.OID, input_name='OID'), namespaceprefix_ , eol_)) if self.SEQ is not None: namespaceprefix_ = self.SEQ_nsprefix_ + ':' if (UseCapturedNS_ and self.SEQ_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSEQ>%s</%sSEQ>%s' % (namespaceprefix_ , self.gds_format_integer(self.SEQ, input_name='SEQ'), namespaceprefix_ , eol_)) if self.HOSTNAME is not None: namespaceprefix_ = self.HOSTNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.HOSTNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOSTNAME>%s</%sHOSTNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOSTNAME), input_name='HOSTNAME')), namespaceprefix_ , eol_)) if self.HID is not None: namespaceprefix_ = self.HID_nsprefix_ + ':' if (UseCapturedNS_ and self.HID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHID>%s</%sHID>%s' % (namespaceprefix_ , self.gds_format_integer(self.HID, input_name='HID'), namespaceprefix_ , eol_)) if self.CID is not None: namespaceprefix_ = self.CID_nsprefix_ + ':' if (UseCapturedNS_ and self.CID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCID>%s</%sCID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CID, input_name='CID'), namespaceprefix_ , eol_)) if self.DS_ID is not None: namespaceprefix_ = self.DS_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_ID>%s</%sDS_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DS_ID, input_name='DS_ID'), namespaceprefix_ , eol_)) if self.VM_MAD is not None: namespaceprefix_ = self.VM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MAD>%s</%sVM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_MAD), input_name='VM_MAD')), namespaceprefix_ , eol_)) if self.TM_MAD is not None: namespaceprefix_ = self.TM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD>%s</%sTM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD), input_name='TM_MAD')), namespaceprefix_ , eol_)) if self.ACTION is not None: namespaceprefix_ = self.ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTION>%s</%sACTION>%s' % (namespaceprefix_ , self.gds_format_integer(self.ACTION, input_name='ACTION'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OID') ival_ = self.gds_validate_integer(ival_, node, 'OID') self.OID = ival_ self.OID_nsprefix_ = child_.prefix elif nodeName_ == 'SEQ' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SEQ') ival_ = self.gds_validate_integer(ival_, node, 'SEQ') self.SEQ = ival_ self.SEQ_nsprefix_ = child_.prefix elif nodeName_ == 'HOSTNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOSTNAME') value_ = self.gds_validate_string(value_, node, 'HOSTNAME') self.HOSTNAME = value_ self.HOSTNAME_nsprefix_ = child_.prefix elif nodeName_ == 'HID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'HID') ival_ = self.gds_validate_integer(ival_, node, 'HID') self.HID = ival_ self.HID_nsprefix_ = child_.prefix elif nodeName_ == 'CID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CID') ival_ = self.gds_validate_integer(ival_, node, 'CID') self.CID = ival_ self.CID_nsprefix_ = child_.prefix elif nodeName_ == 'DS_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DS_ID') ival_ = self.gds_validate_integer(ival_, node, 'DS_ID') self.DS_ID = ival_ self.DS_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MAD') value_ = self.gds_validate_string(value_, node, 'VM_MAD') self.VM_MAD = value_ self.VM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD') value_ = self.gds_validate_string(value_, node, 'TM_MAD') self.TM_MAD = value_ self.TM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'ACTION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ACTION') ival_ = self.gds_validate_integer(ival_, node, 'ACTION') self.ACTION = ival_ self.ACTION_nsprefix_ = child_.prefix # end class HISTORYType class LOCKType96(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType96) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType96.subclass: return LOCKType96.subclass(*args_, **kwargs_) else: return LOCKType96(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType96', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType96') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType96': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType96') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType96', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType96'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType96', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType96 class PERMISSIONSType97(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType97) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType97.subclass: return PERMISSIONSType97.subclass(*args_, **kwargs_) else: return PERMISSIONSType97(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType97', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType97') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType97': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType97') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType97', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType97'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType97', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType97 class TEMPLATEType98(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_CCR_REF=None, VCENTER_INSTANCE_ID=None, VCENTER_TEMPLATE_REF=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_CCR_REF = VCENTER_CCR_REF self.VCENTER_CCR_REF_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_TEMPLATE_REF = VCENTER_TEMPLATE_REF self.VCENTER_TEMPLATE_REF_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType98) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType98.subclass: return TEMPLATEType98.subclass(*args_, **kwargs_) else: return TEMPLATEType98(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_CCR_REF(self): return self.VCENTER_CCR_REF def set_VCENTER_CCR_REF(self, VCENTER_CCR_REF): self.VCENTER_CCR_REF = VCENTER_CCR_REF def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_TEMPLATE_REF(self): return self.VCENTER_TEMPLATE_REF def set_VCENTER_TEMPLATE_REF(self, VCENTER_TEMPLATE_REF): self.VCENTER_TEMPLATE_REF = VCENTER_TEMPLATE_REF def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_CCR_REF is not None or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_TEMPLATE_REF is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType98', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType98') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType98': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType98') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType98', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType98'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType98', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_CCR_REF is not None: namespaceprefix_ = self.VCENTER_CCR_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_CCR_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_CCR_REF>%s</%sVCENTER_CCR_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_CCR_REF), input_name='VCENTER_CCR_REF')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_TEMPLATE_REF is not None: namespaceprefix_ = self.VCENTER_TEMPLATE_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_TEMPLATE_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_TEMPLATE_REF>%s</%sVCENTER_TEMPLATE_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_TEMPLATE_REF), input_name='VCENTER_TEMPLATE_REF')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_CCR_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_CCR_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_CCR_REF') self.VCENTER_CCR_REF = value_ self.VCENTER_CCR_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_TEMPLATE_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_TEMPLATE_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_TEMPLATE_REF') self.VCENTER_TEMPLATE_REF = value_ self.VCENTER_TEMPLATE_REF_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType98') self.anytypeobjs_.append(content_) # end class TEMPLATEType98 class MONITORINGType99(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, CPU=None, DISKRDBYTES=None, DISKRDIOPS=None, DISKWRBYTES=None, DISKWRIOPS=None, DISK_SIZE=None, ID=None, MEMORY=None, NETRX=None, NETTX=None, TIMESTAMP=None, VCENTER_ESX_HOST=None, VCENTER_GUEST_STATE=None, VCENTER_RP_NAME=None, VCENTER_VMWARETOOLS_RUNNING_STATUS=None, VCENTER_VMWARETOOLS_VERSION=None, VCENTER_VMWARETOOLS_VERSION_STATUS=None, VCENTER_VM_NAME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.DISKRDBYTES = DISKRDBYTES self.DISKRDBYTES_nsprefix_ = None self.DISKRDIOPS = DISKRDIOPS self.DISKRDIOPS_nsprefix_ = None self.DISKWRBYTES = DISKWRBYTES self.DISKWRBYTES_nsprefix_ = None self.DISKWRIOPS = DISKWRIOPS self.DISKWRIOPS_nsprefix_ = None if DISK_SIZE is None: self.DISK_SIZE = [] else: self.DISK_SIZE = DISK_SIZE self.DISK_SIZE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.NETRX = NETRX self.NETRX_nsprefix_ = None self.NETTX = NETTX self.NETTX_nsprefix_ = None self.TIMESTAMP = TIMESTAMP self.TIMESTAMP_nsprefix_ = None self.VCENTER_ESX_HOST = VCENTER_ESX_HOST self.VCENTER_ESX_HOST_nsprefix_ = None self.VCENTER_GUEST_STATE = VCENTER_GUEST_STATE self.VCENTER_GUEST_STATE_nsprefix_ = None self.VCENTER_RP_NAME = VCENTER_RP_NAME self.VCENTER_RP_NAME_nsprefix_ = None self.VCENTER_VMWARETOOLS_RUNNING_STATUS = VCENTER_VMWARETOOLS_RUNNING_STATUS self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ = None self.VCENTER_VMWARETOOLS_VERSION = VCENTER_VMWARETOOLS_VERSION self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ = None self.VCENTER_VMWARETOOLS_VERSION_STATUS = VCENTER_VMWARETOOLS_VERSION_STATUS self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ = None self.VCENTER_VM_NAME = VCENTER_VM_NAME self.VCENTER_VM_NAME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, MONITORINGType99) if subclass is not None: return subclass(*args_, **kwargs_) if MONITORINGType99.subclass: return MONITORINGType99.subclass(*args_, **kwargs_) else: return MONITORINGType99(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_DISKRDBYTES(self): return self.DISKRDBYTES def set_DISKRDBYTES(self, DISKRDBYTES): self.DISKRDBYTES = DISKRDBYTES def get_DISKRDIOPS(self): return self.DISKRDIOPS def set_DISKRDIOPS(self, DISKRDIOPS): self.DISKRDIOPS = DISKRDIOPS def get_DISKWRBYTES(self): return self.DISKWRBYTES def set_DISKWRBYTES(self, DISKWRBYTES): self.DISKWRBYTES = DISKWRBYTES def get_DISKWRIOPS(self): return self.DISKWRIOPS def set_DISKWRIOPS(self, DISKWRIOPS): self.DISKWRIOPS = DISKWRIOPS def get_DISK_SIZE(self): return self.DISK_SIZE def set_DISK_SIZE(self, DISK_SIZE): self.DISK_SIZE = DISK_SIZE def add_DISK_SIZE(self, value): self.DISK_SIZE.append(value) def insert_DISK_SIZE_at(self, index, value): self.DISK_SIZE.insert(index, value) def replace_DISK_SIZE_at(self, index, value): self.DISK_SIZE[index] = value def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_NETRX(self): return self.NETRX def set_NETRX(self, NETRX): self.NETRX = NETRX def get_NETTX(self): return self.NETTX def set_NETTX(self, NETTX): self.NETTX = NETTX def get_TIMESTAMP(self): return self.TIMESTAMP def set_TIMESTAMP(self, TIMESTAMP): self.TIMESTAMP = TIMESTAMP def get_VCENTER_ESX_HOST(self): return self.VCENTER_ESX_HOST def set_VCENTER_ESX_HOST(self, VCENTER_ESX_HOST): self.VCENTER_ESX_HOST = VCENTER_ESX_HOST def get_VCENTER_GUEST_STATE(self): return self.VCENTER_GUEST_STATE def set_VCENTER_GUEST_STATE(self, VCENTER_GUEST_STATE): self.VCENTER_GUEST_STATE = VCENTER_GUEST_STATE def get_VCENTER_RP_NAME(self): return self.VCENTER_RP_NAME def set_VCENTER_RP_NAME(self, VCENTER_RP_NAME): self.VCENTER_RP_NAME = VCENTER_RP_NAME def get_VCENTER_VMWARETOOLS_RUNNING_STATUS(self): return self.VCENTER_VMWARETOOLS_RUNNING_STATUS def set_VCENTER_VMWARETOOLS_RUNNING_STATUS(self, VCENTER_VMWARETOOLS_RUNNING_STATUS): self.VCENTER_VMWARETOOLS_RUNNING_STATUS = VCENTER_VMWARETOOLS_RUNNING_STATUS def get_VCENTER_VMWARETOOLS_VERSION(self): return self.VCENTER_VMWARETOOLS_VERSION def set_VCENTER_VMWARETOOLS_VERSION(self, VCENTER_VMWARETOOLS_VERSION): self.VCENTER_VMWARETOOLS_VERSION = VCENTER_VMWARETOOLS_VERSION def get_VCENTER_VMWARETOOLS_VERSION_STATUS(self): return self.VCENTER_VMWARETOOLS_VERSION_STATUS def set_VCENTER_VMWARETOOLS_VERSION_STATUS(self, VCENTER_VMWARETOOLS_VERSION_STATUS): self.VCENTER_VMWARETOOLS_VERSION_STATUS = VCENTER_VMWARETOOLS_VERSION_STATUS def get_VCENTER_VM_NAME(self): return self.VCENTER_VM_NAME def set_VCENTER_VM_NAME(self, VCENTER_VM_NAME): self.VCENTER_VM_NAME = VCENTER_VM_NAME def has__content(self): if ( self.CPU is not None or self.DISKRDBYTES is not None or self.DISKRDIOPS is not None or self.DISKWRBYTES is not None or self.DISKWRIOPS is not None or self.DISK_SIZE or self.ID is not None or self.MEMORY is not None or self.NETRX is not None or self.NETTX is not None or self.TIMESTAMP is not None or self.VCENTER_ESX_HOST is not None or self.VCENTER_GUEST_STATE is not None or self.VCENTER_RP_NAME is not None or self.VCENTER_VMWARETOOLS_RUNNING_STATUS is not None or self.VCENTER_VMWARETOOLS_VERSION is not None or self.VCENTER_VMWARETOOLS_VERSION_STATUS is not None or self.VCENTER_VM_NAME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType99', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('MONITORINGType99') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'MONITORINGType99': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='MONITORINGType99') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='MONITORINGType99', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='MONITORINGType99'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='MONITORINGType99', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_format_decimal(self.CPU, input_name='CPU'), namespaceprefix_ , eol_)) if self.DISKRDBYTES is not None: namespaceprefix_ = self.DISKRDBYTES_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKRDBYTES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKRDBYTES>%s</%sDISKRDBYTES>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKRDBYTES, input_name='DISKRDBYTES'), namespaceprefix_ , eol_)) if self.DISKRDIOPS is not None: namespaceprefix_ = self.DISKRDIOPS_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKRDIOPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKRDIOPS>%s</%sDISKRDIOPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKRDIOPS, input_name='DISKRDIOPS'), namespaceprefix_ , eol_)) if self.DISKWRBYTES is not None: namespaceprefix_ = self.DISKWRBYTES_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKWRBYTES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKWRBYTES>%s</%sDISKWRBYTES>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKWRBYTES, input_name='DISKWRBYTES'), namespaceprefix_ , eol_)) if self.DISKWRIOPS is not None: namespaceprefix_ = self.DISKWRIOPS_nsprefix_ + ':' if (UseCapturedNS_ and self.DISKWRIOPS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISKWRIOPS>%s</%sDISKWRIOPS>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISKWRIOPS, input_name='DISKWRIOPS'), namespaceprefix_ , eol_)) for DISK_SIZE_ in self.DISK_SIZE: namespaceprefix_ = self.DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_SIZE_nsprefix_) else '' DISK_SIZE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DISK_SIZE', pretty_print=pretty_print) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_format_integer(self.MEMORY, input_name='MEMORY'), namespaceprefix_ , eol_)) if self.NETRX is not None: namespaceprefix_ = self.NETRX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETRX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETRX>%s</%sNETRX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETRX, input_name='NETRX'), namespaceprefix_ , eol_)) if self.NETTX is not None: namespaceprefix_ = self.NETTX_nsprefix_ + ':' if (UseCapturedNS_ and self.NETTX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETTX>%s</%sNETTX>%s' % (namespaceprefix_ , self.gds_format_integer(self.NETTX, input_name='NETTX'), namespaceprefix_ , eol_)) if self.TIMESTAMP is not None: namespaceprefix_ = self.TIMESTAMP_nsprefix_ + ':' if (UseCapturedNS_ and self.TIMESTAMP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIMESTAMP>%s</%sTIMESTAMP>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIMESTAMP, input_name='TIMESTAMP'), namespaceprefix_ , eol_)) if self.VCENTER_ESX_HOST is not None: namespaceprefix_ = self.VCENTER_ESX_HOST_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_ESX_HOST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_ESX_HOST>%s</%sVCENTER_ESX_HOST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_ESX_HOST), input_name='VCENTER_ESX_HOST')), namespaceprefix_ , eol_)) if self.VCENTER_GUEST_STATE is not None: namespaceprefix_ = self.VCENTER_GUEST_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_GUEST_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_GUEST_STATE>%s</%sVCENTER_GUEST_STATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_GUEST_STATE), input_name='VCENTER_GUEST_STATE')), namespaceprefix_ , eol_)) if self.VCENTER_RP_NAME is not None: namespaceprefix_ = self.VCENTER_RP_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_RP_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_RP_NAME>%s</%sVCENTER_RP_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_RP_NAME), input_name='VCENTER_RP_NAME')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_RUNNING_STATUS is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_RUNNING_STATUS>%s</%sVCENTER_VMWARETOOLS_RUNNING_STATUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_RUNNING_STATUS), input_name='VCENTER_VMWARETOOLS_RUNNING_STATUS')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_VERSION is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_VERSION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_VERSION>%s</%sVCENTER_VMWARETOOLS_VERSION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_VERSION), input_name='VCENTER_VMWARETOOLS_VERSION')), namespaceprefix_ , eol_)) if self.VCENTER_VMWARETOOLS_VERSION_STATUS is not None: namespaceprefix_ = self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VMWARETOOLS_VERSION_STATUS>%s</%sVCENTER_VMWARETOOLS_VERSION_STATUS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VMWARETOOLS_VERSION_STATUS), input_name='VCENTER_VMWARETOOLS_VERSION_STATUS')), namespaceprefix_ , eol_)) if self.VCENTER_VM_NAME is not None: namespaceprefix_ = self.VCENTER_VM_NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_VM_NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_VM_NAME>%s</%sVCENTER_VM_NAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_VM_NAME), input_name='VCENTER_VM_NAME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'CPU' and child_.text: sval_ = child_.text fval_ = self.gds_parse_decimal(sval_, node, 'CPU') fval_ = self.gds_validate_decimal(fval_, node, 'CPU') self.CPU = fval_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'DISKRDBYTES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKRDBYTES') ival_ = self.gds_validate_integer(ival_, node, 'DISKRDBYTES') self.DISKRDBYTES = ival_ self.DISKRDBYTES_nsprefix_ = child_.prefix elif nodeName_ == 'DISKRDIOPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKRDIOPS') ival_ = self.gds_validate_integer(ival_, node, 'DISKRDIOPS') self.DISKRDIOPS = ival_ self.DISKRDIOPS_nsprefix_ = child_.prefix elif nodeName_ == 'DISKWRBYTES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKWRBYTES') ival_ = self.gds_validate_integer(ival_, node, 'DISKWRBYTES') self.DISKWRBYTES = ival_ self.DISKWRBYTES_nsprefix_ = child_.prefix elif nodeName_ == 'DISKWRIOPS' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISKWRIOPS') ival_ = self.gds_validate_integer(ival_, node, 'DISKWRIOPS') self.DISKWRIOPS = ival_ self.DISKWRIOPS_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_SIZE': obj_ = DISK_SIZEType100.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DISK_SIZE.append(obj_) obj_.original_tagname_ = 'DISK_SIZE' elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'MEMORY') ival_ = self.gds_validate_integer(ival_, node, 'MEMORY') self.MEMORY = ival_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'NETRX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETRX') ival_ = self.gds_validate_integer(ival_, node, 'NETRX') self.NETRX = ival_ self.NETRX_nsprefix_ = child_.prefix elif nodeName_ == 'NETTX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NETTX') ival_ = self.gds_validate_integer(ival_, node, 'NETTX') self.NETTX = ival_ self.NETTX_nsprefix_ = child_.prefix elif nodeName_ == 'TIMESTAMP' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIMESTAMP') ival_ = self.gds_validate_integer(ival_, node, 'TIMESTAMP') self.TIMESTAMP = ival_ self.TIMESTAMP_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_ESX_HOST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_ESX_HOST') value_ = self.gds_validate_string(value_, node, 'VCENTER_ESX_HOST') self.VCENTER_ESX_HOST = value_ self.VCENTER_ESX_HOST_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_GUEST_STATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_GUEST_STATE') value_ = self.gds_validate_string(value_, node, 'VCENTER_GUEST_STATE') self.VCENTER_GUEST_STATE = value_ self.VCENTER_GUEST_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_RP_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_RP_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_RP_NAME') self.VCENTER_RP_NAME = value_ self.VCENTER_RP_NAME_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_RUNNING_STATUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_RUNNING_STATUS') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_RUNNING_STATUS') self.VCENTER_VMWARETOOLS_RUNNING_STATUS = value_ self.VCENTER_VMWARETOOLS_RUNNING_STATUS_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_VERSION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION') self.VCENTER_VMWARETOOLS_VERSION = value_ self.VCENTER_VMWARETOOLS_VERSION_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VMWARETOOLS_VERSION_STATUS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION_STATUS') value_ = self.gds_validate_string(value_, node, 'VCENTER_VMWARETOOLS_VERSION_STATUS') self.VCENTER_VMWARETOOLS_VERSION_STATUS = value_ self.VCENTER_VMWARETOOLS_VERSION_STATUS_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_VM_NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_VM_NAME') value_ = self.gds_validate_string(value_, node, 'VCENTER_VM_NAME') self.VCENTER_VM_NAME = value_ self.VCENTER_VM_NAME_nsprefix_ = child_.prefix # end class MONITORINGType99 class DISK_SIZEType100(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DISK_SIZEType100) if subclass is not None: return subclass(*args_, **kwargs_) if DISK_SIZEType100.subclass: return DISK_SIZEType100.subclass(*args_, **kwargs_) else: return DISK_SIZEType100(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.ID is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISK_SIZEType100', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DISK_SIZEType100') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DISK_SIZEType100': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DISK_SIZEType100') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DISK_SIZEType100', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DISK_SIZEType100'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISK_SIZEType100', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class DISK_SIZEType100 class TEMPLATEType101(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, AUTOMATIC_DS_REQUIREMENTS=None, AUTOMATIC_NIC_REQUIREMENTS=None, AUTOMATIC_REQUIREMENTS=None, CLONING_TEMPLATE_ID=None, CONTEXT=None, CPU=None, CPU_COST=None, DISK=None, DISK_COST=None, EMULATOR=None, FEATURES=None, HYPERV_OPTIONS=None, GRAPHICS=None, VIDEO=None, IMPORTED=None, INPUT=None, MEMORY=None, MEMORY_COST=None, MEMORY_MAX=None, MEMORY_SLOTS=None, MEMORY_RESIZE_MODE=None, NIC=None, NIC_ALIAS=None, NIC_DEFAULT=None, NUMA_NODE=None, OS=None, PCI=None, RAW=None, SECURITY_GROUP_RULE=None, SNAPSHOT=None, SPICE_OPTIONS=None, SUBMIT_ON_HOLD=None, TEMPLATE_ID=None, TM_MAD_SYSTEM=None, TOPOLOGY=None, VCPU=None, VCPU_MAX=None, VMGROUP=None, VMID=None, VROUTER_ID=None, VROUTER_KEEPALIVED_ID=None, VROUTER_KEEPALIVED_PASSWORD=None, SCHED_ACTION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.AUTOMATIC_DS_REQUIREMENTS = AUTOMATIC_DS_REQUIREMENTS self.AUTOMATIC_DS_REQUIREMENTS_nsprefix_ = None self.AUTOMATIC_NIC_REQUIREMENTS = AUTOMATIC_NIC_REQUIREMENTS self.AUTOMATIC_NIC_REQUIREMENTS_nsprefix_ = None self.AUTOMATIC_REQUIREMENTS = AUTOMATIC_REQUIREMENTS self.AUTOMATIC_REQUIREMENTS_nsprefix_ = None self.CLONING_TEMPLATE_ID = CLONING_TEMPLATE_ID self.CLONING_TEMPLATE_ID_nsprefix_ = None self.CONTEXT = CONTEXT self.CONTEXT_nsprefix_ = None self.CPU = CPU self.CPU_nsprefix_ = None self.CPU_COST = CPU_COST self.CPU_COST_nsprefix_ = None if DISK is None: self.DISK = [] else: self.DISK = DISK self.DISK_nsprefix_ = None self.DISK_COST = DISK_COST self.DISK_COST_nsprefix_ = None self.EMULATOR = EMULATOR self.EMULATOR_nsprefix_ = None self.FEATURES = FEATURES self.FEATURES_nsprefix_ = None self.HYPERV_OPTIONS = HYPERV_OPTIONS self.HYPERV_OPTIONS_nsprefix_ = None self.GRAPHICS = GRAPHICS self.GRAPHICS_nsprefix_ = None self.VIDEO = VIDEO self.VIDEO_nsprefix_ = None self.IMPORTED = IMPORTED self.IMPORTED_nsprefix_ = None self.INPUT = INPUT self.INPUT_nsprefix_ = None self.MEMORY = MEMORY self.MEMORY_nsprefix_ = None self.MEMORY_COST = MEMORY_COST self.MEMORY_COST_nsprefix_ = None self.MEMORY_MAX = MEMORY_MAX self.MEMORY_MAX_nsprefix_ = None self.MEMORY_SLOTS = MEMORY_SLOTS self.MEMORY_SLOTS_nsprefix_ = None self.MEMORY_RESIZE_MODE = MEMORY_RESIZE_MODE self.MEMORY_RESIZE_MODE_nsprefix_ = None if NIC is None: self.NIC = [] else: self.NIC = NIC self.NIC_nsprefix_ = None if NIC_ALIAS is None: self.NIC_ALIAS = [] else: self.NIC_ALIAS = NIC_ALIAS self.NIC_ALIAS_nsprefix_ = None self.NIC_DEFAULT = NIC_DEFAULT self.NIC_DEFAULT_nsprefix_ = None self.NUMA_NODE = NUMA_NODE self.NUMA_NODE_nsprefix_ = None self.OS = OS self.OS_nsprefix_ = None self.PCI = PCI self.PCI_nsprefix_ = None self.RAW = RAW self.RAW_nsprefix_ = None if SECURITY_GROUP_RULE is None: self.SECURITY_GROUP_RULE = [] else: self.SECURITY_GROUP_RULE = SECURITY_GROUP_RULE self.SECURITY_GROUP_RULE_nsprefix_ = None if SNAPSHOT is None: self.SNAPSHOT = [] else: self.SNAPSHOT = SNAPSHOT self.SNAPSHOT_nsprefix_ = None self.SPICE_OPTIONS = SPICE_OPTIONS self.SPICE_OPTIONS_nsprefix_ = None self.SUBMIT_ON_HOLD = SUBMIT_ON_HOLD self.SUBMIT_ON_HOLD_nsprefix_ = None self.TEMPLATE_ID = TEMPLATE_ID self.TEMPLATE_ID_nsprefix_ = None self.TM_MAD_SYSTEM = TM_MAD_SYSTEM self.TM_MAD_SYSTEM_nsprefix_ = None self.TOPOLOGY = TOPOLOGY self.TOPOLOGY_nsprefix_ = None self.VCPU = VCPU self.VCPU_nsprefix_ = None self.VCPU_MAX = VCPU_MAX self.VCPU_MAX_nsprefix_ = None if VMGROUP is None: self.VMGROUP = [] else: self.VMGROUP = VMGROUP self.VMGROUP_nsprefix_ = None self.VMID = VMID self.VMID_nsprefix_ = None self.VROUTER_ID = VROUTER_ID self.VROUTER_ID_nsprefix_ = None self.VROUTER_KEEPALIVED_ID = VROUTER_KEEPALIVED_ID self.VROUTER_KEEPALIVED_ID_nsprefix_ = None self.VROUTER_KEEPALIVED_PASSWORD = VROUTER_KEEPALIVED_PASSWORD self.VROUTER_KEEPALIVED_PASSWORD_nsprefix_ = None if SCHED_ACTION is None: self.SCHED_ACTION = [] else: self.SCHED_ACTION = SCHED_ACTION self.SCHED_ACTION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType101) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType101.subclass: return TEMPLATEType101.subclass(*args_, **kwargs_) else: return TEMPLATEType101(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_AUTOMATIC_DS_REQUIREMENTS(self): return self.AUTOMATIC_DS_REQUIREMENTS def set_AUTOMATIC_DS_REQUIREMENTS(self, AUTOMATIC_DS_REQUIREMENTS): self.AUTOMATIC_DS_REQUIREMENTS = AUTOMATIC_DS_REQUIREMENTS def get_AUTOMATIC_NIC_REQUIREMENTS(self): return self.AUTOMATIC_NIC_REQUIREMENTS def set_AUTOMATIC_NIC_REQUIREMENTS(self, AUTOMATIC_NIC_REQUIREMENTS): self.AUTOMATIC_NIC_REQUIREMENTS = AUTOMATIC_NIC_REQUIREMENTS def get_AUTOMATIC_REQUIREMENTS(self): return self.AUTOMATIC_REQUIREMENTS def set_AUTOMATIC_REQUIREMENTS(self, AUTOMATIC_REQUIREMENTS): self.AUTOMATIC_REQUIREMENTS = AUTOMATIC_REQUIREMENTS def get_CLONING_TEMPLATE_ID(self): return self.CLONING_TEMPLATE_ID def set_CLONING_TEMPLATE_ID(self, CLONING_TEMPLATE_ID): self.CLONING_TEMPLATE_ID = CLONING_TEMPLATE_ID def get_CONTEXT(self): return self.CONTEXT def set_CONTEXT(self, CONTEXT): self.CONTEXT = CONTEXT def get_CPU(self): return self.CPU def set_CPU(self, CPU): self.CPU = CPU def get_CPU_COST(self): return self.CPU_COST def set_CPU_COST(self, CPU_COST): self.CPU_COST = CPU_COST def get_DISK(self): return self.DISK def set_DISK(self, DISK): self.DISK = DISK def add_DISK(self, value): self.DISK.append(value) def insert_DISK_at(self, index, value): self.DISK.insert(index, value) def replace_DISK_at(self, index, value): self.DISK[index] = value def get_DISK_COST(self): return self.DISK_COST def set_DISK_COST(self, DISK_COST): self.DISK_COST = DISK_COST def get_EMULATOR(self): return self.EMULATOR def set_EMULATOR(self, EMULATOR): self.EMULATOR = EMULATOR def get_FEATURES(self): return self.FEATURES def set_FEATURES(self, FEATURES): self.FEATURES = FEATURES def get_HYPERV_OPTIONS(self): return self.HYPERV_OPTIONS def set_HYPERV_OPTIONS(self, HYPERV_OPTIONS): self.HYPERV_OPTIONS = HYPERV_OPTIONS def get_GRAPHICS(self): return self.GRAPHICS def set_GRAPHICS(self, GRAPHICS): self.GRAPHICS = GRAPHICS def get_VIDEO(self): return self.VIDEO def set_VIDEO(self, VIDEO): self.VIDEO = VIDEO def get_IMPORTED(self): return self.IMPORTED def set_IMPORTED(self, IMPORTED): self.IMPORTED = IMPORTED def get_INPUT(self): return self.INPUT def set_INPUT(self, INPUT): self.INPUT = INPUT def get_MEMORY(self): return self.MEMORY def set_MEMORY(self, MEMORY): self.MEMORY = MEMORY def get_MEMORY_COST(self): return self.MEMORY_COST def set_MEMORY_COST(self, MEMORY_COST): self.MEMORY_COST = MEMORY_COST def get_MEMORY_MAX(self): return self.MEMORY_MAX def set_MEMORY_MAX(self, MEMORY_MAX): self.MEMORY_MAX = MEMORY_MAX def get_MEMORY_SLOTS(self): return self.MEMORY_SLOTS def set_MEMORY_SLOTS(self, MEMORY_SLOTS): self.MEMORY_SLOTS = MEMORY_SLOTS def get_MEMORY_RESIZE_MODE(self): return self.MEMORY_RESIZE_MODE def set_MEMORY_RESIZE_MODE(self, MEMORY_RESIZE_MODE): self.MEMORY_RESIZE_MODE = MEMORY_RESIZE_MODE def get_NIC(self): return self.NIC def set_NIC(self, NIC): self.NIC = NIC def add_NIC(self, value): self.NIC.append(value) def insert_NIC_at(self, index, value): self.NIC.insert(index, value) def replace_NIC_at(self, index, value): self.NIC[index] = value def get_NIC_ALIAS(self): return self.NIC_ALIAS def set_NIC_ALIAS(self, NIC_ALIAS): self.NIC_ALIAS = NIC_ALIAS def add_NIC_ALIAS(self, value): self.NIC_ALIAS.append(value) def insert_NIC_ALIAS_at(self, index, value): self.NIC_ALIAS.insert(index, value) def replace_NIC_ALIAS_at(self, index, value): self.NIC_ALIAS[index] = value def get_NIC_DEFAULT(self): return self.NIC_DEFAULT def set_NIC_DEFAULT(self, NIC_DEFAULT): self.NIC_DEFAULT = NIC_DEFAULT def get_NUMA_NODE(self): return self.NUMA_NODE def set_NUMA_NODE(self, NUMA_NODE): self.NUMA_NODE = NUMA_NODE def get_OS(self): return self.OS def set_OS(self, OS): self.OS = OS def get_PCI(self): return self.PCI def set_PCI(self, PCI): self.PCI = PCI def get_RAW(self): return self.RAW def set_RAW(self, RAW): self.RAW = RAW def get_SECURITY_GROUP_RULE(self): return self.SECURITY_GROUP_RULE def set_SECURITY_GROUP_RULE(self, SECURITY_GROUP_RULE): self.SECURITY_GROUP_RULE = SECURITY_GROUP_RULE def add_SECURITY_GROUP_RULE(self, value): self.SECURITY_GROUP_RULE.append(value) def insert_SECURITY_GROUP_RULE_at(self, index, value): self.SECURITY_GROUP_RULE.insert(index, value) def replace_SECURITY_GROUP_RULE_at(self, index, value): self.SECURITY_GROUP_RULE[index] = value def get_SNAPSHOT(self): return self.SNAPSHOT def set_SNAPSHOT(self, SNAPSHOT): self.SNAPSHOT = SNAPSHOT def add_SNAPSHOT(self, value): self.SNAPSHOT.append(value) def insert_SNAPSHOT_at(self, index, value): self.SNAPSHOT.insert(index, value) def replace_SNAPSHOT_at(self, index, value): self.SNAPSHOT[index] = value def get_SPICE_OPTIONS(self): return self.SPICE_OPTIONS def set_SPICE_OPTIONS(self, SPICE_OPTIONS): self.SPICE_OPTIONS = SPICE_OPTIONS def get_SUBMIT_ON_HOLD(self): return self.SUBMIT_ON_HOLD def set_SUBMIT_ON_HOLD(self, SUBMIT_ON_HOLD): self.SUBMIT_ON_HOLD = SUBMIT_ON_HOLD def get_TEMPLATE_ID(self): return self.TEMPLATE_ID def set_TEMPLATE_ID(self, TEMPLATE_ID): self.TEMPLATE_ID = TEMPLATE_ID def get_TM_MAD_SYSTEM(self): return self.TM_MAD_SYSTEM def set_TM_MAD_SYSTEM(self, TM_MAD_SYSTEM): self.TM_MAD_SYSTEM = TM_MAD_SYSTEM def get_TOPOLOGY(self): return self.TOPOLOGY def set_TOPOLOGY(self, TOPOLOGY): self.TOPOLOGY = TOPOLOGY def get_VCPU(self): return self.VCPU def set_VCPU(self, VCPU): self.VCPU = VCPU def get_VCPU_MAX(self): return self.VCPU_MAX def set_VCPU_MAX(self, VCPU_MAX): self.VCPU_MAX = VCPU_MAX def get_VMGROUP(self): return self.VMGROUP def set_VMGROUP(self, VMGROUP): self.VMGROUP = VMGROUP def add_VMGROUP(self, value): self.VMGROUP.append(value) def insert_VMGROUP_at(self, index, value): self.VMGROUP.insert(index, value) def replace_VMGROUP_at(self, index, value): self.VMGROUP[index] = value def get_VMID(self): return self.VMID def set_VMID(self, VMID): self.VMID = VMID def get_VROUTER_ID(self): return self.VROUTER_ID def set_VROUTER_ID(self, VROUTER_ID): self.VROUTER_ID = VROUTER_ID def get_VROUTER_KEEPALIVED_ID(self): return self.VROUTER_KEEPALIVED_ID def set_VROUTER_KEEPALIVED_ID(self, VROUTER_KEEPALIVED_ID): self.VROUTER_KEEPALIVED_ID = VROUTER_KEEPALIVED_ID def get_VROUTER_KEEPALIVED_PASSWORD(self): return self.VROUTER_KEEPALIVED_PASSWORD def set_VROUTER_KEEPALIVED_PASSWORD(self, VROUTER_KEEPALIVED_PASSWORD): self.VROUTER_KEEPALIVED_PASSWORD = VROUTER_KEEPALIVED_PASSWORD def get_SCHED_ACTION(self): return self.SCHED_ACTION def set_SCHED_ACTION(self, SCHED_ACTION): self.SCHED_ACTION = SCHED_ACTION def add_SCHED_ACTION(self, value): self.SCHED_ACTION.append(value) def insert_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION.insert(index, value) def replace_SCHED_ACTION_at(self, index, value): self.SCHED_ACTION[index] = value def has__content(self): if ( self.AUTOMATIC_DS_REQUIREMENTS is not None or self.AUTOMATIC_NIC_REQUIREMENTS is not None or self.AUTOMATIC_REQUIREMENTS is not None or self.CLONING_TEMPLATE_ID is not None or self.CONTEXT is not None or self.CPU is not None or self.CPU_COST is not None or self.DISK or self.DISK_COST is not None or self.EMULATOR is not None or self.FEATURES is not None or self.HYPERV_OPTIONS is not None or self.GRAPHICS is not None or self.VIDEO is not None or self.IMPORTED is not None or self.INPUT is not None or self.MEMORY is not None or self.MEMORY_COST is not None or self.MEMORY_MAX is not None or self.MEMORY_SLOTS is not None or self.MEMORY_RESIZE_MODE is not None or self.NIC or self.NIC_ALIAS or self.NIC_DEFAULT is not None or self.NUMA_NODE is not None or self.OS is not None or self.PCI is not None or self.RAW is not None or self.SECURITY_GROUP_RULE or self.SNAPSHOT or self.SPICE_OPTIONS is not None or self.SUBMIT_ON_HOLD is not None or self.TEMPLATE_ID is not None or self.TM_MAD_SYSTEM is not None or self.TOPOLOGY is not None or self.VCPU is not None or self.VCPU_MAX is not None or self.VMGROUP or self.VMID is not None or self.VROUTER_ID is not None or self.VROUTER_KEEPALIVED_ID is not None or self.VROUTER_KEEPALIVED_PASSWORD is not None or self.SCHED_ACTION ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType101', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType101') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType101': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType101') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType101', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType101'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType101', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.AUTOMATIC_DS_REQUIREMENTS is not None: namespaceprefix_ = self.AUTOMATIC_DS_REQUIREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTOMATIC_DS_REQUIREMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTOMATIC_DS_REQUIREMENTS>%s</%sAUTOMATIC_DS_REQUIREMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTOMATIC_DS_REQUIREMENTS), input_name='AUTOMATIC_DS_REQUIREMENTS')), namespaceprefix_ , eol_)) if self.AUTOMATIC_NIC_REQUIREMENTS is not None: namespaceprefix_ = self.AUTOMATIC_NIC_REQUIREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTOMATIC_NIC_REQUIREMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTOMATIC_NIC_REQUIREMENTS>%s</%sAUTOMATIC_NIC_REQUIREMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTOMATIC_NIC_REQUIREMENTS), input_name='AUTOMATIC_NIC_REQUIREMENTS')), namespaceprefix_ , eol_)) if self.AUTOMATIC_REQUIREMENTS is not None: namespaceprefix_ = self.AUTOMATIC_REQUIREMENTS_nsprefix_ + ':' if (UseCapturedNS_ and self.AUTOMATIC_REQUIREMENTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAUTOMATIC_REQUIREMENTS>%s</%sAUTOMATIC_REQUIREMENTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AUTOMATIC_REQUIREMENTS), input_name='AUTOMATIC_REQUIREMENTS')), namespaceprefix_ , eol_)) if self.CLONING_TEMPLATE_ID is not None: namespaceprefix_ = self.CLONING_TEMPLATE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.CLONING_TEMPLATE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCLONING_TEMPLATE_ID>%s</%sCLONING_TEMPLATE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CLONING_TEMPLATE_ID), input_name='CLONING_TEMPLATE_ID')), namespaceprefix_ , eol_)) if self.CONTEXT is not None: namespaceprefix_ = self.CONTEXT_nsprefix_ + ':' if (UseCapturedNS_ and self.CONTEXT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCONTEXT>%s</%sCONTEXT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CONTEXT), input_name='CONTEXT')), namespaceprefix_ , eol_)) if self.CPU is not None: namespaceprefix_ = self.CPU_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU>%s</%sCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU), input_name='CPU')), namespaceprefix_ , eol_)) if self.CPU_COST is not None: namespaceprefix_ = self.CPU_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.CPU_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCPU_COST>%s</%sCPU_COST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CPU_COST), input_name='CPU_COST')), namespaceprefix_ , eol_)) for DISK_ in self.DISK: namespaceprefix_ = self.DISK_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_nsprefix_) else '' DISK_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='DISK', pretty_print=pretty_print) if self.DISK_COST is not None: namespaceprefix_ = self.DISK_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_COST>%s</%sDISK_COST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DISK_COST), input_name='DISK_COST')), namespaceprefix_ , eol_)) if self.EMULATOR is not None: namespaceprefix_ = self.EMULATOR_nsprefix_ + ':' if (UseCapturedNS_ and self.EMULATOR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEMULATOR>%s</%sEMULATOR>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.EMULATOR), input_name='EMULATOR')), namespaceprefix_ , eol_)) if self.FEATURES is not None: namespaceprefix_ = self.FEATURES_nsprefix_ + ':' if (UseCapturedNS_ and self.FEATURES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFEATURES>%s</%sFEATURES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FEATURES), input_name='FEATURES')), namespaceprefix_ , eol_)) if self.HYPERV_OPTIONS is not None: namespaceprefix_ = self.HYPERV_OPTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.HYPERV_OPTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHYPERV_OPTIONS>%s</%sHYPERV_OPTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HYPERV_OPTIONS), input_name='HYPERV_OPTIONS')), namespaceprefix_ , eol_)) if self.GRAPHICS is not None: namespaceprefix_ = self.GRAPHICS_nsprefix_ + ':' if (UseCapturedNS_ and self.GRAPHICS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGRAPHICS>%s</%sGRAPHICS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GRAPHICS), input_name='GRAPHICS')), namespaceprefix_ , eol_)) if self.VIDEO is not None: namespaceprefix_ = self.VIDEO_nsprefix_ + ':' if (UseCapturedNS_ and self.VIDEO_nsprefix_) else '' self.VIDEO.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VIDEO', pretty_print=pretty_print) if self.IMPORTED is not None: namespaceprefix_ = self.IMPORTED_nsprefix_ + ':' if (UseCapturedNS_ and self.IMPORTED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIMPORTED>%s</%sIMPORTED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IMPORTED), input_name='IMPORTED')), namespaceprefix_ , eol_)) if self.INPUT is not None: namespaceprefix_ = self.INPUT_nsprefix_ + ':' if (UseCapturedNS_ and self.INPUT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINPUT>%s</%sINPUT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.INPUT), input_name='INPUT')), namespaceprefix_ , eol_)) if self.MEMORY is not None: namespaceprefix_ = self.MEMORY_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY>%s</%sMEMORY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY), input_name='MEMORY')), namespaceprefix_ , eol_)) if self.MEMORY_COST is not None: namespaceprefix_ = self.MEMORY_COST_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_COST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_COST>%s</%sMEMORY_COST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_COST), input_name='MEMORY_COST')), namespaceprefix_ , eol_)) if self.MEMORY_MAX is not None: namespaceprefix_ = self.MEMORY_MAX_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_MAX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_MAX>%s</%sMEMORY_MAX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_MAX), input_name='MEMORY_MAX')), namespaceprefix_ , eol_)) if self.MEMORY_SLOTS is not None: namespaceprefix_ = self.MEMORY_SLOTS_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_SLOTS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_SLOTS>%s</%sMEMORY_SLOTS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_SLOTS), input_name='MEMORY_SLOTS')), namespaceprefix_ , eol_)) if self.MEMORY_RESIZE_MODE is not None: namespaceprefix_ = self.MEMORY_RESIZE_MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.MEMORY_RESIZE_MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMEMORY_RESIZE_MODE>%s</%sMEMORY_RESIZE_MODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MEMORY_RESIZE_MODE), input_name='MEMORY_RESIZE_MODE')), namespaceprefix_ , eol_)) for NIC_ in self.NIC: namespaceprefix_ = self.NIC_nsprefix_ + ':' if (UseCapturedNS_ and self.NIC_nsprefix_) else '' NIC_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NIC', pretty_print=pretty_print) for NIC_ALIAS_ in self.NIC_ALIAS: namespaceprefix_ = self.NIC_ALIAS_nsprefix_ + ':' if (UseCapturedNS_ and self.NIC_ALIAS_nsprefix_) else '' NIC_ALIAS_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='NIC_ALIAS', pretty_print=pretty_print) if self.NIC_DEFAULT is not None: namespaceprefix_ = self.NIC_DEFAULT_nsprefix_ + ':' if (UseCapturedNS_ and self.NIC_DEFAULT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNIC_DEFAULT>%s</%sNIC_DEFAULT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NIC_DEFAULT), input_name='NIC_DEFAULT')), namespaceprefix_ , eol_)) if self.NUMA_NODE is not None: namespaceprefix_ = self.NUMA_NODE_nsprefix_ + ':' if (UseCapturedNS_ and self.NUMA_NODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNUMA_NODE>%s</%sNUMA_NODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NUMA_NODE), input_name='NUMA_NODE')), namespaceprefix_ , eol_)) if self.OS is not None: namespaceprefix_ = self.OS_nsprefix_ + ':' if (UseCapturedNS_ and self.OS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOS>%s</%sOS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.OS), input_name='OS')), namespaceprefix_ , eol_)) if self.PCI is not None: namespaceprefix_ = self.PCI_nsprefix_ + ':' if (UseCapturedNS_ and self.PCI_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPCI>%s</%sPCI>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PCI), input_name='PCI')), namespaceprefix_ , eol_)) if self.RAW is not None: namespaceprefix_ = self.RAW_nsprefix_ + ':' if (UseCapturedNS_ and self.RAW_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRAW>%s</%sRAW>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RAW), input_name='RAW')), namespaceprefix_ , eol_)) for SECURITY_GROUP_RULE_ in self.SECURITY_GROUP_RULE: namespaceprefix_ = self.SECURITY_GROUP_RULE_nsprefix_ + ':' if (UseCapturedNS_ and self.SECURITY_GROUP_RULE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSECURITY_GROUP_RULE>%s</%sSECURITY_GROUP_RULE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(SECURITY_GROUP_RULE_), input_name='SECURITY_GROUP_RULE')), namespaceprefix_ , eol_)) for SNAPSHOT_ in self.SNAPSHOT: namespaceprefix_ = self.SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOT_nsprefix_) else '' SNAPSHOT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOT', pretty_print=pretty_print) if self.SPICE_OPTIONS is not None: namespaceprefix_ = self.SPICE_OPTIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.SPICE_OPTIONS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSPICE_OPTIONS>%s</%sSPICE_OPTIONS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SPICE_OPTIONS), input_name='SPICE_OPTIONS')), namespaceprefix_ , eol_)) if self.SUBMIT_ON_HOLD is not None: namespaceprefix_ = self.SUBMIT_ON_HOLD_nsprefix_ + ':' if (UseCapturedNS_ and self.SUBMIT_ON_HOLD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSUBMIT_ON_HOLD>%s</%sSUBMIT_ON_HOLD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SUBMIT_ON_HOLD), input_name='SUBMIT_ON_HOLD')), namespaceprefix_ , eol_)) if self.TEMPLATE_ID is not None: namespaceprefix_ = self.TEMPLATE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE_ID>%s</%sTEMPLATE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE_ID), input_name='TEMPLATE_ID')), namespaceprefix_ , eol_)) if self.TM_MAD_SYSTEM is not None: namespaceprefix_ = self.TM_MAD_SYSTEM_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_SYSTEM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD_SYSTEM>%s</%sTM_MAD_SYSTEM>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD_SYSTEM), input_name='TM_MAD_SYSTEM')), namespaceprefix_ , eol_)) if self.TOPOLOGY is not None: namespaceprefix_ = self.TOPOLOGY_nsprefix_ + ':' if (UseCapturedNS_ and self.TOPOLOGY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTOPOLOGY>%s</%sTOPOLOGY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TOPOLOGY), input_name='TOPOLOGY')), namespaceprefix_ , eol_)) if self.VCPU is not None: namespaceprefix_ = self.VCPU_nsprefix_ + ':' if (UseCapturedNS_ and self.VCPU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCPU>%s</%sVCPU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCPU), input_name='VCPU')), namespaceprefix_ , eol_)) if self.VCPU_MAX is not None: namespaceprefix_ = self.VCPU_MAX_nsprefix_ + ':' if (UseCapturedNS_ and self.VCPU_MAX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCPU_MAX>%s</%sVCPU_MAX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCPU_MAX), input_name='VCPU_MAX')), namespaceprefix_ , eol_)) for VMGROUP_ in self.VMGROUP: namespaceprefix_ = self.VMGROUP_nsprefix_ + ':' if (UseCapturedNS_ and self.VMGROUP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMGROUP>%s</%sVMGROUP>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(VMGROUP_), input_name='VMGROUP')), namespaceprefix_ , eol_)) if self.VMID is not None: namespaceprefix_ = self.VMID_nsprefix_ + ':' if (UseCapturedNS_ and self.VMID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVMID>%s</%sVMID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VMID), input_name='VMID')), namespaceprefix_ , eol_)) if self.VROUTER_ID is not None: namespaceprefix_ = self.VROUTER_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTER_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVROUTER_ID>%s</%sVROUTER_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VROUTER_ID), input_name='VROUTER_ID')), namespaceprefix_ , eol_)) if self.VROUTER_KEEPALIVED_ID is not None: namespaceprefix_ = self.VROUTER_KEEPALIVED_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTER_KEEPALIVED_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVROUTER_KEEPALIVED_ID>%s</%sVROUTER_KEEPALIVED_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VROUTER_KEEPALIVED_ID), input_name='VROUTER_KEEPALIVED_ID')), namespaceprefix_ , eol_)) if self.VROUTER_KEEPALIVED_PASSWORD is not None: namespaceprefix_ = self.VROUTER_KEEPALIVED_PASSWORD_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTER_KEEPALIVED_PASSWORD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVROUTER_KEEPALIVED_PASSWORD>%s</%sVROUTER_KEEPALIVED_PASSWORD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VROUTER_KEEPALIVED_PASSWORD), input_name='VROUTER_KEEPALIVED_PASSWORD')), namespaceprefix_ , eol_)) for SCHED_ACTION_ in self.SCHED_ACTION: namespaceprefix_ = self.SCHED_ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.SCHED_ACTION_nsprefix_) else '' SCHED_ACTION_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SCHED_ACTION', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'AUTOMATIC_DS_REQUIREMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTOMATIC_DS_REQUIREMENTS') value_ = self.gds_validate_string(value_, node, 'AUTOMATIC_DS_REQUIREMENTS') self.AUTOMATIC_DS_REQUIREMENTS = value_ self.AUTOMATIC_DS_REQUIREMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'AUTOMATIC_NIC_REQUIREMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTOMATIC_NIC_REQUIREMENTS') value_ = self.gds_validate_string(value_, node, 'AUTOMATIC_NIC_REQUIREMENTS') self.AUTOMATIC_NIC_REQUIREMENTS = value_ self.AUTOMATIC_NIC_REQUIREMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'AUTOMATIC_REQUIREMENTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AUTOMATIC_REQUIREMENTS') value_ = self.gds_validate_string(value_, node, 'AUTOMATIC_REQUIREMENTS') self.AUTOMATIC_REQUIREMENTS = value_ self.AUTOMATIC_REQUIREMENTS_nsprefix_ = child_.prefix elif nodeName_ == 'CLONING_TEMPLATE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CLONING_TEMPLATE_ID') value_ = self.gds_validate_string(value_, node, 'CLONING_TEMPLATE_ID') self.CLONING_TEMPLATE_ID = value_ self.CLONING_TEMPLATE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'CONTEXT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CONTEXT') value_ = self.gds_validate_string(value_, node, 'CONTEXT') self.CONTEXT = value_ self.CONTEXT_nsprefix_ = child_.prefix elif nodeName_ == 'CPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU') value_ = self.gds_validate_string(value_, node, 'CPU') self.CPU = value_ self.CPU_nsprefix_ = child_.prefix elif nodeName_ == 'CPU_COST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CPU_COST') value_ = self.gds_validate_string(value_, node, 'CPU_COST') self.CPU_COST = value_ self.CPU_COST_nsprefix_ = child_.prefix elif nodeName_ == 'DISK': obj_ = DISKType102.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.DISK.append(obj_) obj_.original_tagname_ = 'DISK' elif nodeName_ == 'DISK_COST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DISK_COST') value_ = self.gds_validate_string(value_, node, 'DISK_COST') self.DISK_COST = value_ self.DISK_COST_nsprefix_ = child_.prefix elif nodeName_ == 'EMULATOR': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'EMULATOR') value_ = self.gds_validate_string(value_, node, 'EMULATOR') self.EMULATOR = value_ self.EMULATOR_nsprefix_ = child_.prefix elif nodeName_ == 'FEATURES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FEATURES') value_ = self.gds_validate_string(value_, node, 'FEATURES') self.FEATURES = value_ self.FEATURES_nsprefix_ = child_.prefix elif nodeName_ == 'HYPERV_OPTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HYPERV_OPTIONS') value_ = self.gds_validate_string(value_, node, 'HYPERV_OPTIONS') self.HYPERV_OPTIONS = value_ self.HYPERV_OPTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'GRAPHICS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GRAPHICS') value_ = self.gds_validate_string(value_, node, 'GRAPHICS') self.GRAPHICS = value_ self.GRAPHICS_nsprefix_ = child_.prefix elif nodeName_ == 'VIDEO': obj_ = VIDEOType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VIDEO = obj_ obj_.original_tagname_ = 'VIDEO' elif nodeName_ == 'IMPORTED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IMPORTED') value_ = self.gds_validate_string(value_, node, 'IMPORTED') self.IMPORTED = value_ self.IMPORTED_nsprefix_ = child_.prefix elif nodeName_ == 'INPUT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INPUT') value_ = self.gds_validate_string(value_, node, 'INPUT') self.INPUT = value_ self.INPUT_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY') value_ = self.gds_validate_string(value_, node, 'MEMORY') self.MEMORY = value_ self.MEMORY_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_COST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_COST') value_ = self.gds_validate_string(value_, node, 'MEMORY_COST') self.MEMORY_COST = value_ self.MEMORY_COST_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_MAX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_MAX') value_ = self.gds_validate_string(value_, node, 'MEMORY_MAX') self.MEMORY_MAX = value_ self.MEMORY_MAX_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_SLOTS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_SLOTS') value_ = self.gds_validate_string(value_, node, 'MEMORY_SLOTS') self.MEMORY_SLOTS = value_ self.MEMORY_SLOTS_nsprefix_ = child_.prefix elif nodeName_ == 'MEMORY_RESIZE_MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MEMORY_RESIZE_MODE') value_ = self.gds_validate_string(value_, node, 'MEMORY_RESIZE_MODE') self.MEMORY_RESIZE_MODE = value_ self.MEMORY_RESIZE_MODE_nsprefix_ = child_.prefix elif nodeName_ == 'NIC': obj_ = NICType103.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NIC.append(obj_) obj_.original_tagname_ = 'NIC' elif nodeName_ == 'NIC_ALIAS': obj_ = NIC_ALIASType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.NIC_ALIAS.append(obj_) obj_.original_tagname_ = 'NIC_ALIAS' elif nodeName_ == 'NIC_DEFAULT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NIC_DEFAULT') value_ = self.gds_validate_string(value_, node, 'NIC_DEFAULT') self.NIC_DEFAULT = value_ self.NIC_DEFAULT_nsprefix_ = child_.prefix elif nodeName_ == 'NUMA_NODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NUMA_NODE') value_ = self.gds_validate_string(value_, node, 'NUMA_NODE') self.NUMA_NODE = value_ self.NUMA_NODE_nsprefix_ = child_.prefix elif nodeName_ == 'OS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'OS') value_ = self.gds_validate_string(value_, node, 'OS') self.OS = value_ self.OS_nsprefix_ = child_.prefix elif nodeName_ == 'PCI': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PCI') value_ = self.gds_validate_string(value_, node, 'PCI') self.PCI = value_ self.PCI_nsprefix_ = child_.prefix elif nodeName_ == 'RAW': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RAW') value_ = self.gds_validate_string(value_, node, 'RAW') self.RAW = value_ self.RAW_nsprefix_ = child_.prefix elif nodeName_ == 'SECURITY_GROUP_RULE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SECURITY_GROUP_RULE') value_ = self.gds_validate_string(value_, node, 'SECURITY_GROUP_RULE') self.SECURITY_GROUP_RULE.append(value_) self.SECURITY_GROUP_RULE_nsprefix_ = child_.prefix elif nodeName_ == 'SNAPSHOT': obj_ = SNAPSHOTType104.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOT.append(obj_) obj_.original_tagname_ = 'SNAPSHOT' elif nodeName_ == 'SPICE_OPTIONS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SPICE_OPTIONS') value_ = self.gds_validate_string(value_, node, 'SPICE_OPTIONS') self.SPICE_OPTIONS = value_ self.SPICE_OPTIONS_nsprefix_ = child_.prefix elif nodeName_ == 'SUBMIT_ON_HOLD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SUBMIT_ON_HOLD') value_ = self.gds_validate_string(value_, node, 'SUBMIT_ON_HOLD') self.SUBMIT_ON_HOLD = value_ self.SUBMIT_ON_HOLD_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE_ID') value_ = self.gds_validate_string(value_, node, 'TEMPLATE_ID') self.TEMPLATE_ID = value_ self.TEMPLATE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD_SYSTEM': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD_SYSTEM') value_ = self.gds_validate_string(value_, node, 'TM_MAD_SYSTEM') self.TM_MAD_SYSTEM = value_ self.TM_MAD_SYSTEM_nsprefix_ = child_.prefix elif nodeName_ == 'TOPOLOGY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TOPOLOGY') value_ = self.gds_validate_string(value_, node, 'TOPOLOGY') self.TOPOLOGY = value_ self.TOPOLOGY_nsprefix_ = child_.prefix elif nodeName_ == 'VCPU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCPU') value_ = self.gds_validate_string(value_, node, 'VCPU') self.VCPU = value_ self.VCPU_nsprefix_ = child_.prefix elif nodeName_ == 'VCPU_MAX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCPU_MAX') value_ = self.gds_validate_string(value_, node, 'VCPU_MAX') self.VCPU_MAX = value_ self.VCPU_MAX_nsprefix_ = child_.prefix elif nodeName_ == 'VMGROUP': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMGROUP') value_ = self.gds_validate_string(value_, node, 'VMGROUP') self.VMGROUP.append(value_) self.VMGROUP_nsprefix_ = child_.prefix elif nodeName_ == 'VMID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VMID') value_ = self.gds_validate_string(value_, node, 'VMID') self.VMID = value_ self.VMID_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTER_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VROUTER_ID') value_ = self.gds_validate_string(value_, node, 'VROUTER_ID') self.VROUTER_ID = value_ self.VROUTER_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTER_KEEPALIVED_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VROUTER_KEEPALIVED_ID') value_ = self.gds_validate_string(value_, node, 'VROUTER_KEEPALIVED_ID') self.VROUTER_KEEPALIVED_ID = value_ self.VROUTER_KEEPALIVED_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTER_KEEPALIVED_PASSWORD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VROUTER_KEEPALIVED_PASSWORD') value_ = self.gds_validate_string(value_, node, 'VROUTER_KEEPALIVED_PASSWORD') self.VROUTER_KEEPALIVED_PASSWORD = value_ self.VROUTER_KEEPALIVED_PASSWORD_nsprefix_ = child_.prefix elif nodeName_ == 'SCHED_ACTION': obj_ = SCHED_ACTION.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SCHED_ACTION.append(obj_) obj_.original_tagname_ = 'SCHED_ACTION' # end class TEMPLATEType101 class CONTEXT(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CONTEXT) if subclass is not None: return subclass(*args_, **kwargs_) if CONTEXT.subclass: return CONTEXT.subclass(*args_, **kwargs_) else: return CONTEXT(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='CONTEXT', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CONTEXT') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CONTEXT': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CONTEXT') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CONTEXT', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CONTEXT'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='CONTEXT', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class CONTEXT class FEATURES(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, FEATURES) if subclass is not None: return subclass(*args_, **kwargs_) if FEATURES.subclass: return FEATURES.subclass(*args_, **kwargs_) else: return FEATURES(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='FEATURES', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('FEATURES') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'FEATURES': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='FEATURES') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='FEATURES', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='FEATURES'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='FEATURES', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class FEATURES class HYPERV_OPTIONS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HYPERV_OPTIONS) if subclass is not None: return subclass(*args_, **kwargs_) if HYPERV_OPTIONS.subclass: return HYPERV_OPTIONS.subclass(*args_, **kwargs_) else: return HYPERV_OPTIONS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='HYPERV_OPTIONS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HYPERV_OPTIONS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HYPERV_OPTIONS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HYPERV_OPTIONS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HYPERV_OPTIONS', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HYPERV_OPTIONS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='HYPERV_OPTIONS', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class HYPERV_OPTIONS class INPUT(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, INPUT) if subclass is not None: return subclass(*args_, **kwargs_) if INPUT.subclass: return INPUT.subclass(*args_, **kwargs_) else: return INPUT(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='INPUT', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('INPUT') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'INPUT': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='INPUT') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='INPUT', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='INPUT'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='INPUT', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class INPUT class NIC_DEFAULT(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NIC_DEFAULT) if subclass is not None: return subclass(*args_, **kwargs_) if NIC_DEFAULT.subclass: return NIC_DEFAULT.subclass(*args_, **kwargs_) else: return NIC_DEFAULT(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='NIC_DEFAULT', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NIC_DEFAULT') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NIC_DEFAULT': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NIC_DEFAULT') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NIC_DEFAULT', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NIC_DEFAULT'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='NIC_DEFAULT', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class NIC_DEFAULT class NUMA_NODE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NUMA_NODE) if subclass is not None: return subclass(*args_, **kwargs_) if NUMA_NODE.subclass: return NUMA_NODE.subclass(*args_, **kwargs_) else: return NUMA_NODE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='NUMA_NODE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NUMA_NODE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NUMA_NODE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NUMA_NODE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NUMA_NODE', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NUMA_NODE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='NUMA_NODE', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class NUMA_NODE class OS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, OS) if subclass is not None: return subclass(*args_, **kwargs_) if OS.subclass: return OS.subclass(*args_, **kwargs_) else: return OS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='OS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('OS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'OS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='OS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='OS', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='OS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='OS', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class OS class PCI(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PCI) if subclass is not None: return subclass(*args_, **kwargs_) if PCI.subclass: return PCI.subclass(*args_, **kwargs_) else: return PCI(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='PCI', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PCI') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PCI': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PCI') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PCI', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PCI'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='PCI', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class PCI class RAW(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, RAW) if subclass is not None: return subclass(*args_, **kwargs_) if RAW.subclass: return RAW.subclass(*args_, **kwargs_) else: return RAW(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='RAW', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('RAW') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'RAW': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='RAW') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='RAW', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='RAW'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='RAW', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class RAW class SECURITY_GROUP_RULE(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SECURITY_GROUP_RULE) if subclass is not None: return subclass(*args_, **kwargs_) if SECURITY_GROUP_RULE.subclass: return SECURITY_GROUP_RULE.subclass(*args_, **kwargs_) else: return SECURITY_GROUP_RULE(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='SECURITY_GROUP_RULE', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SECURITY_GROUP_RULE') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SECURITY_GROUP_RULE': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SECURITY_GROUP_RULE') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SECURITY_GROUP_RULE', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SECURITY_GROUP_RULE'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='SECURITY_GROUP_RULE', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class SECURITY_GROUP_RULE class SPICE_OPTIONS(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SPICE_OPTIONS) if subclass is not None: return subclass(*args_, **kwargs_) if SPICE_OPTIONS.subclass: return SPICE_OPTIONS.subclass(*args_, **kwargs_) else: return SPICE_OPTIONS(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='SPICE_OPTIONS', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SPICE_OPTIONS') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SPICE_OPTIONS': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SPICE_OPTIONS') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SPICE_OPTIONS', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SPICE_OPTIONS'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='SPICE_OPTIONS', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class SPICE_OPTIONS class TOPOLOGY(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TOPOLOGY) if subclass is not None: return subclass(*args_, **kwargs_) if TOPOLOGY.subclass: return TOPOLOGY.subclass(*args_, **kwargs_) else: return TOPOLOGY(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='TOPOLOGY', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TOPOLOGY') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TOPOLOGY': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TOPOLOGY') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TOPOLOGY', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TOPOLOGY'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='TOPOLOGY', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class TOPOLOGY class VMGROUP(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMGROUP) if subclass is not None: return subclass(*args_, **kwargs_) if VMGROUP.subclass: return VMGROUP.subclass(*args_, **kwargs_) else: return VMGROUP(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def has__content(self): if ( ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='VMGROUP', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMGROUP') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMGROUP': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMGROUP') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMGROUP', pretty_print=pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMGROUP'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_='', name_='VMGROUP', fromsubclass_=False, pretty_print=True): pass def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): pass # end class VMGROUP class DISKType102(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_DS_REF=None, VCENTER_INSTANCE_ID=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_DS_REF = VCENTER_DS_REF self.VCENTER_DS_REF_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, DISKType102) if subclass is not None: return subclass(*args_, **kwargs_) if DISKType102.subclass: return DISKType102.subclass(*args_, **kwargs_) else: return DISKType102(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_DS_REF(self): return self.VCENTER_DS_REF def set_VCENTER_DS_REF(self, VCENTER_DS_REF): self.VCENTER_DS_REF = VCENTER_DS_REF def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_DS_REF is not None or self.VCENTER_INSTANCE_ID is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISKType102', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('DISKType102') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'DISKType102': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='DISKType102') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='DISKType102', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='DISKType102'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='DISKType102', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_DS_REF is not None: namespaceprefix_ = self.VCENTER_DS_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_REF>%s</%sVCENTER_DS_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DS_REF), input_name='VCENTER_DS_REF')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_DS_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_REF') self.VCENTER_DS_REF = value_ self.VCENTER_DS_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'DISKType102') self.anytypeobjs_.append(content_) # end class DISKType102 class VIDEOType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, TYPE=None, IOMMU=None, ATS=None, VRAM=None, RESOLUTION=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.IOMMU = IOMMU self.IOMMU_nsprefix_ = None self.ATS = ATS self.ATS_nsprefix_ = None self.VRAM = VRAM self.VRAM_nsprefix_ = None self.RESOLUTION = RESOLUTION self.RESOLUTION_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VIDEOType) if subclass is not None: return subclass(*args_, **kwargs_) if VIDEOType.subclass: return VIDEOType.subclass(*args_, **kwargs_) else: return VIDEOType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_IOMMU(self): return self.IOMMU def set_IOMMU(self, IOMMU): self.IOMMU = IOMMU def get_ATS(self): return self.ATS def set_ATS(self, ATS): self.ATS = ATS def get_VRAM(self): return self.VRAM def set_VRAM(self, VRAM): self.VRAM = VRAM def get_RESOLUTION(self): return self.RESOLUTION def set_RESOLUTION(self, RESOLUTION): self.RESOLUTION = RESOLUTION def has__content(self): if ( self.TYPE is not None or self.IOMMU is not None or self.ATS is not None or self.VRAM is not None or self.RESOLUTION is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VIDEOType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VIDEOType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VIDEOType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VIDEOType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VIDEOType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VIDEOType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VIDEOType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.IOMMU is not None: namespaceprefix_ = self.IOMMU_nsprefix_ + ':' if (UseCapturedNS_ and self.IOMMU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIOMMU>%s</%sIOMMU>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IOMMU), input_name='IOMMU')), namespaceprefix_ , eol_)) if self.ATS is not None: namespaceprefix_ = self.ATS_nsprefix_ + ':' if (UseCapturedNS_ and self.ATS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sATS>%s</%sATS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ATS), input_name='ATS')), namespaceprefix_ , eol_)) if self.VRAM is not None: namespaceprefix_ = self.VRAM_nsprefix_ + ':' if (UseCapturedNS_ and self.VRAM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVRAM>%s</%sVRAM>%s' % (namespaceprefix_ , self.gds_format_integer(self.VRAM, input_name='VRAM'), namespaceprefix_ , eol_)) if self.RESOLUTION is not None: namespaceprefix_ = self.RESOLUTION_nsprefix_ + ':' if (UseCapturedNS_ and self.RESOLUTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRESOLUTION>%s</%sRESOLUTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.RESOLUTION), input_name='RESOLUTION')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'IOMMU': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IOMMU') value_ = self.gds_validate_string(value_, node, 'IOMMU') self.IOMMU = value_ self.IOMMU_nsprefix_ = child_.prefix elif nodeName_ == 'ATS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ATS') value_ = self.gds_validate_string(value_, node, 'ATS') self.ATS = value_ self.ATS_nsprefix_ = child_.prefix elif nodeName_ == 'VRAM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VRAM') ival_ = self.gds_validate_integer(ival_, node, 'VRAM') self.VRAM = ival_ self.VRAM_nsprefix_ = child_.prefix elif nodeName_ == 'RESOLUTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'RESOLUTION') value_ = self.gds_validate_string(value_, node, 'RESOLUTION') self.RESOLUTION = value_ self.RESOLUTION_nsprefix_ = child_.prefix # end class VIDEOType class NICType103(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, anytypeobjs_=None, VCENTER_INSTANCE_ID=None, VCENTER_NET_REF=None, VCENTER_PORTGROUP_TYPE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_NET_REF = VCENTER_NET_REF self.VCENTER_NET_REF_nsprefix_ = None self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE self.VCENTER_PORTGROUP_TYPE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NICType103) if subclass is not None: return subclass(*args_, **kwargs_) if NICType103.subclass: return NICType103.subclass(*args_, **kwargs_) else: return NICType103(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_NET_REF(self): return self.VCENTER_NET_REF def set_VCENTER_NET_REF(self, VCENTER_NET_REF): self.VCENTER_NET_REF = VCENTER_NET_REF def get_VCENTER_PORTGROUP_TYPE(self): return self.VCENTER_PORTGROUP_TYPE def set_VCENTER_PORTGROUP_TYPE(self, VCENTER_PORTGROUP_TYPE): self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE def has__content(self): if ( self.anytypeobjs_ or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_NET_REF is not None or self.VCENTER_PORTGROUP_TYPE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NICType103', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NICType103') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NICType103': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NICType103') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NICType103', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NICType103'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NICType103', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_NET_REF is not None: namespaceprefix_ = self.VCENTER_NET_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_NET_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_NET_REF>%s</%sVCENTER_NET_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_NET_REF), input_name='VCENTER_NET_REF')), namespaceprefix_ , eol_)) if self.VCENTER_PORTGROUP_TYPE is not None: namespaceprefix_ = self.VCENTER_PORTGROUP_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_PORTGROUP_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_PORTGROUP_TYPE>%s</%sVCENTER_PORTGROUP_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_PORTGROUP_TYPE), input_name='VCENTER_PORTGROUP_TYPE')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_NET_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_NET_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_NET_REF') self.VCENTER_NET_REF = value_ self.VCENTER_NET_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_PORTGROUP_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_PORTGROUP_TYPE') value_ = self.gds_validate_string(value_, node, 'VCENTER_PORTGROUP_TYPE') self.VCENTER_PORTGROUP_TYPE = value_ self.VCENTER_PORTGROUP_TYPE_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'NICType103') self.anytypeobjs_.append(content_) # end class NICType103 class NIC_ALIASType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALIAS_ID=None, PARENT=None, PARENT_ID=None, anytypeobjs_=None, VCENTER_INSTANCE_ID=None, VCENTER_NET_REF=None, VCENTER_PORTGROUP_TYPE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALIAS_ID = ALIAS_ID self.ALIAS_ID_nsprefix_ = None self.PARENT = PARENT self.PARENT_nsprefix_ = None self.PARENT_ID = PARENT_ID self.PARENT_ID_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_NET_REF = VCENTER_NET_REF self.VCENTER_NET_REF_nsprefix_ = None self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE self.VCENTER_PORTGROUP_TYPE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, NIC_ALIASType) if subclass is not None: return subclass(*args_, **kwargs_) if NIC_ALIASType.subclass: return NIC_ALIASType.subclass(*args_, **kwargs_) else: return NIC_ALIASType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALIAS_ID(self): return self.ALIAS_ID def set_ALIAS_ID(self, ALIAS_ID): self.ALIAS_ID = ALIAS_ID def get_PARENT(self): return self.PARENT def set_PARENT(self, PARENT): self.PARENT = PARENT def get_PARENT_ID(self): return self.PARENT_ID def set_PARENT_ID(self, PARENT_ID): self.PARENT_ID = PARENT_ID def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_NET_REF(self): return self.VCENTER_NET_REF def set_VCENTER_NET_REF(self, VCENTER_NET_REF): self.VCENTER_NET_REF = VCENTER_NET_REF def get_VCENTER_PORTGROUP_TYPE(self): return self.VCENTER_PORTGROUP_TYPE def set_VCENTER_PORTGROUP_TYPE(self, VCENTER_PORTGROUP_TYPE): self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE def has__content(self): if ( self.ALIAS_ID is not None or self.PARENT is not None or self.PARENT_ID is not None or self.anytypeobjs_ or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_NET_REF is not None or self.VCENTER_PORTGROUP_TYPE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NIC_ALIASType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('NIC_ALIASType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'NIC_ALIASType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='NIC_ALIASType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='NIC_ALIASType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='NIC_ALIASType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='NIC_ALIASType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALIAS_ID is not None: namespaceprefix_ = self.ALIAS_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ALIAS_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALIAS_ID>%s</%sALIAS_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALIAS_ID), input_name='ALIAS_ID')), namespaceprefix_ , eol_)) if self.PARENT is not None: namespaceprefix_ = self.PARENT_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT>%s</%sPARENT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT), input_name='PARENT')), namespaceprefix_ , eol_)) if self.PARENT_ID is not None: namespaceprefix_ = self.PARENT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_ID>%s</%sPARENT_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT_ID), input_name='PARENT_ID')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_NET_REF is not None: namespaceprefix_ = self.VCENTER_NET_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_NET_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_NET_REF>%s</%sVCENTER_NET_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_NET_REF), input_name='VCENTER_NET_REF')), namespaceprefix_ , eol_)) if self.VCENTER_PORTGROUP_TYPE is not None: namespaceprefix_ = self.VCENTER_PORTGROUP_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_PORTGROUP_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_PORTGROUP_TYPE>%s</%sVCENTER_PORTGROUP_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_PORTGROUP_TYPE), input_name='VCENTER_PORTGROUP_TYPE')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALIAS_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALIAS_ID') value_ = self.gds_validate_string(value_, node, 'ALIAS_ID') self.ALIAS_ID = value_ self.ALIAS_ID_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT') value_ = self.gds_validate_string(value_, node, 'PARENT') self.PARENT = value_ self.PARENT_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT_ID') value_ = self.gds_validate_string(value_, node, 'PARENT_ID') self.PARENT_ID = value_ self.PARENT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_NET_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_NET_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_NET_REF') self.VCENTER_NET_REF = value_ self.VCENTER_NET_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_PORTGROUP_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_PORTGROUP_TYPE') value_ = self.gds_validate_string(value_, node, 'VCENTER_PORTGROUP_TYPE') self.VCENTER_PORTGROUP_TYPE = value_ self.VCENTER_PORTGROUP_TYPE_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'NIC_ALIASType') self.anytypeobjs_.append(content_) # end class NIC_ALIASType class SNAPSHOTType104(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ACTION=None, ACTIVE=None, HYPERVISOR_ID=None, NAME=None, SNAPSHOT_ID=None, SYSTEM_DISK_SIZE=None, TIME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ACTION = ACTION self.ACTION_nsprefix_ = None self.ACTIVE = ACTIVE self.ACTIVE_nsprefix_ = None self.HYPERVISOR_ID = HYPERVISOR_ID self.HYPERVISOR_ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.SNAPSHOT_ID = SNAPSHOT_ID self.SNAPSHOT_ID_nsprefix_ = None self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE self.SYSTEM_DISK_SIZE_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTType104) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTType104.subclass: return SNAPSHOTType104.subclass(*args_, **kwargs_) else: return SNAPSHOTType104(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ACTION(self): return self.ACTION def set_ACTION(self, ACTION): self.ACTION = ACTION def get_ACTIVE(self): return self.ACTIVE def set_ACTIVE(self, ACTIVE): self.ACTIVE = ACTIVE def get_HYPERVISOR_ID(self): return self.HYPERVISOR_ID def set_HYPERVISOR_ID(self, HYPERVISOR_ID): self.HYPERVISOR_ID = HYPERVISOR_ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_SNAPSHOT_ID(self): return self.SNAPSHOT_ID def set_SNAPSHOT_ID(self, SNAPSHOT_ID): self.SNAPSHOT_ID = SNAPSHOT_ID def get_SYSTEM_DISK_SIZE(self): return self.SYSTEM_DISK_SIZE def set_SYSTEM_DISK_SIZE(self, SYSTEM_DISK_SIZE): self.SYSTEM_DISK_SIZE = SYSTEM_DISK_SIZE def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def has__content(self): if ( self.ACTION is not None or self.ACTIVE is not None or self.HYPERVISOR_ID is not None or self.NAME is not None or self.SNAPSHOT_ID is not None or self.SYSTEM_DISK_SIZE is not None or self.TIME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType104', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTType104') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTType104': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTType104') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTType104', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTType104'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType104', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ACTION is not None: namespaceprefix_ = self.ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTION>%s</%sACTION>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTION), input_name='ACTION')), namespaceprefix_ , eol_)) if self.ACTIVE is not None: namespaceprefix_ = self.ACTIVE_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTIVE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTIVE>%s</%sACTIVE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTIVE), input_name='ACTIVE')), namespaceprefix_ , eol_)) if self.HYPERVISOR_ID is not None: namespaceprefix_ = self.HYPERVISOR_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.HYPERVISOR_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHYPERVISOR_ID>%s</%sHYPERVISOR_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HYPERVISOR_ID), input_name='HYPERVISOR_ID')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.SNAPSHOT_ID is not None: namespaceprefix_ = self.SNAPSHOT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSNAPSHOT_ID>%s</%sSNAPSHOT_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SNAPSHOT_ID), input_name='SNAPSHOT_ID')), namespaceprefix_ , eol_)) if self.SYSTEM_DISK_SIZE is not None: namespaceprefix_ = self.SYSTEM_DISK_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SYSTEM_DISK_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSYSTEM_DISK_SIZE>%s</%sSYSTEM_DISK_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SYSTEM_DISK_SIZE), input_name='SYSTEM_DISK_SIZE')), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TIME), input_name='TIME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ACTION': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTION') value_ = self.gds_validate_string(value_, node, 'ACTION') self.ACTION = value_ self.ACTION_nsprefix_ = child_.prefix elif nodeName_ == 'ACTIVE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTIVE') value_ = self.gds_validate_string(value_, node, 'ACTIVE') self.ACTIVE = value_ self.ACTIVE_nsprefix_ = child_.prefix elif nodeName_ == 'HYPERVISOR_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HYPERVISOR_ID') value_ = self.gds_validate_string(value_, node, 'HYPERVISOR_ID') self.HYPERVISOR_ID = value_ self.HYPERVISOR_ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'SNAPSHOT_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SNAPSHOT_ID') value_ = self.gds_validate_string(value_, node, 'SNAPSHOT_ID') self.SNAPSHOT_ID = value_ self.SNAPSHOT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'SYSTEM_DISK_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SYSTEM_DISK_SIZE') value_ = self.gds_validate_string(value_, node, 'SYSTEM_DISK_SIZE') self.SYSTEM_DISK_SIZE = value_ self.SYSTEM_DISK_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'TIME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TIME') value_ = self.gds_validate_string(value_, node, 'TIME') self.TIME = value_ self.TIME_nsprefix_ = child_.prefix # end class SNAPSHOTType104 class USER_TEMPLATEType105(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VCENTER_CCR_REF=None, VCENTER_DS_REF=None, VCENTER_INSTANCE_ID=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VCENTER_CCR_REF = VCENTER_CCR_REF self.VCENTER_CCR_REF_nsprefix_ = None self.VCENTER_DS_REF = VCENTER_DS_REF self.VCENTER_DS_REF_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, USER_TEMPLATEType105) if subclass is not None: return subclass(*args_, **kwargs_) if USER_TEMPLATEType105.subclass: return USER_TEMPLATEType105.subclass(*args_, **kwargs_) else: return USER_TEMPLATEType105(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VCENTER_CCR_REF(self): return self.VCENTER_CCR_REF def set_VCENTER_CCR_REF(self, VCENTER_CCR_REF): self.VCENTER_CCR_REF = VCENTER_CCR_REF def get_VCENTER_DS_REF(self): return self.VCENTER_DS_REF def set_VCENTER_DS_REF(self, VCENTER_DS_REF): self.VCENTER_DS_REF = VCENTER_DS_REF def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VCENTER_CCR_REF is not None or self.VCENTER_DS_REF is not None or self.VCENTER_INSTANCE_ID is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_TEMPLATEType105', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('USER_TEMPLATEType105') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'USER_TEMPLATEType105': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='USER_TEMPLATEType105') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='USER_TEMPLATEType105', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='USER_TEMPLATEType105'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='USER_TEMPLATEType105', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VCENTER_CCR_REF is not None: namespaceprefix_ = self.VCENTER_CCR_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_CCR_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_CCR_REF>%s</%sVCENTER_CCR_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_CCR_REF), input_name='VCENTER_CCR_REF')), namespaceprefix_ , eol_)) if self.VCENTER_DS_REF is not None: namespaceprefix_ = self.VCENTER_DS_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_DS_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_DS_REF>%s</%sVCENTER_DS_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_DS_REF), input_name='VCENTER_DS_REF')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VCENTER_CCR_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_CCR_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_CCR_REF') self.VCENTER_CCR_REF = value_ self.VCENTER_CCR_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_DS_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_DS_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_DS_REF') self.VCENTER_DS_REF = value_ self.VCENTER_DS_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'USER_TEMPLATEType105') self.anytypeobjs_.append(content_) # end class USER_TEMPLATEType105 class HISTORY_RECORDSType106(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, HISTORY=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if HISTORY is None: self.HISTORY = [] else: self.HISTORY = HISTORY self.HISTORY_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORY_RECORDSType106) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORY_RECORDSType106.subclass: return HISTORY_RECORDSType106.subclass(*args_, **kwargs_) else: return HISTORY_RECORDSType106(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_HISTORY(self): return self.HISTORY def set_HISTORY(self, HISTORY): self.HISTORY = HISTORY def add_HISTORY(self, value): self.HISTORY.append(value) def insert_HISTORY_at(self, index, value): self.HISTORY.insert(index, value) def replace_HISTORY_at(self, index, value): self.HISTORY[index] = value def has__content(self): if ( self.HISTORY ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDSType106', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORY_RECORDSType106') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORY_RECORDSType106': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORY_RECORDSType106') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORY_RECORDSType106', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORY_RECORDSType106'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORY_RECORDSType106', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for HISTORY_ in self.HISTORY: namespaceprefix_ = self.HISTORY_nsprefix_ + ':' if (UseCapturedNS_ and self.HISTORY_nsprefix_) else '' HISTORY_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='HISTORY', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'HISTORY': obj_ = HISTORYType107.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.HISTORY.append(obj_) obj_.original_tagname_ = 'HISTORY' # end class HISTORY_RECORDSType106 class HISTORYType107(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OID=None, SEQ=None, HOSTNAME=None, HID=None, CID=None, STIME=None, ETIME=None, VM_MAD=None, TM_MAD=None, DS_ID=None, PSTIME=None, PETIME=None, RSTIME=None, RETIME=None, ESTIME=None, EETIME=None, ACTION=None, UID=None, GID=None, REQUEST_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OID = OID self.OID_nsprefix_ = None self.SEQ = SEQ self.SEQ_nsprefix_ = None self.HOSTNAME = HOSTNAME self.HOSTNAME_nsprefix_ = None self.HID = HID self.HID_nsprefix_ = None self.CID = CID self.CID_nsprefix_ = None self.STIME = STIME self.STIME_nsprefix_ = None self.ETIME = ETIME self.ETIME_nsprefix_ = None self.VM_MAD = VM_MAD self.VM_MAD_nsprefix_ = None self.TM_MAD = TM_MAD self.TM_MAD_nsprefix_ = None self.DS_ID = DS_ID self.DS_ID_nsprefix_ = None self.PSTIME = PSTIME self.PSTIME_nsprefix_ = None self.PETIME = PETIME self.PETIME_nsprefix_ = None self.RSTIME = RSTIME self.RSTIME_nsprefix_ = None self.RETIME = RETIME self.RETIME_nsprefix_ = None self.ESTIME = ESTIME self.ESTIME_nsprefix_ = None self.EETIME = EETIME self.EETIME_nsprefix_ = None self.ACTION = ACTION self.ACTION_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.REQUEST_ID = REQUEST_ID self.REQUEST_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, HISTORYType107) if subclass is not None: return subclass(*args_, **kwargs_) if HISTORYType107.subclass: return HISTORYType107.subclass(*args_, **kwargs_) else: return HISTORYType107(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OID(self): return self.OID def set_OID(self, OID): self.OID = OID def get_SEQ(self): return self.SEQ def set_SEQ(self, SEQ): self.SEQ = SEQ def get_HOSTNAME(self): return self.HOSTNAME def set_HOSTNAME(self, HOSTNAME): self.HOSTNAME = HOSTNAME def get_HID(self): return self.HID def set_HID(self, HID): self.HID = HID def get_CID(self): return self.CID def set_CID(self, CID): self.CID = CID def get_STIME(self): return self.STIME def set_STIME(self, STIME): self.STIME = STIME def get_ETIME(self): return self.ETIME def set_ETIME(self, ETIME): self.ETIME = ETIME def get_VM_MAD(self): return self.VM_MAD def set_VM_MAD(self, VM_MAD): self.VM_MAD = VM_MAD def get_TM_MAD(self): return self.TM_MAD def set_TM_MAD(self, TM_MAD): self.TM_MAD = TM_MAD def get_DS_ID(self): return self.DS_ID def set_DS_ID(self, DS_ID): self.DS_ID = DS_ID def get_PSTIME(self): return self.PSTIME def set_PSTIME(self, PSTIME): self.PSTIME = PSTIME def get_PETIME(self): return self.PETIME def set_PETIME(self, PETIME): self.PETIME = PETIME def get_RSTIME(self): return self.RSTIME def set_RSTIME(self, RSTIME): self.RSTIME = RSTIME def get_RETIME(self): return self.RETIME def set_RETIME(self, RETIME): self.RETIME = RETIME def get_ESTIME(self): return self.ESTIME def set_ESTIME(self, ESTIME): self.ESTIME = ESTIME def get_EETIME(self): return self.EETIME def set_EETIME(self, EETIME): self.EETIME = EETIME def get_ACTION(self): return self.ACTION def set_ACTION(self, ACTION): self.ACTION = ACTION def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_REQUEST_ID(self): return self.REQUEST_ID def set_REQUEST_ID(self, REQUEST_ID): self.REQUEST_ID = REQUEST_ID def has__content(self): if ( self.OID is not None or self.SEQ is not None or self.HOSTNAME is not None or self.HID is not None or self.CID is not None or self.STIME is not None or self.ETIME is not None or self.VM_MAD is not None or self.TM_MAD is not None or self.DS_ID is not None or self.PSTIME is not None or self.PETIME is not None or self.RSTIME is not None or self.RETIME is not None or self.ESTIME is not None or self.EETIME is not None or self.ACTION is not None or self.UID is not None or self.GID is not None or self.REQUEST_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORYType107', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('HISTORYType107') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'HISTORYType107': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='HISTORYType107') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='HISTORYType107', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='HISTORYType107'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='HISTORYType107', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OID is not None: namespaceprefix_ = self.OID_nsprefix_ + ':' if (UseCapturedNS_ and self.OID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOID>%s</%sOID>%s' % (namespaceprefix_ , self.gds_format_integer(self.OID, input_name='OID'), namespaceprefix_ , eol_)) if self.SEQ is not None: namespaceprefix_ = self.SEQ_nsprefix_ + ':' if (UseCapturedNS_ and self.SEQ_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSEQ>%s</%sSEQ>%s' % (namespaceprefix_ , self.gds_format_integer(self.SEQ, input_name='SEQ'), namespaceprefix_ , eol_)) if self.HOSTNAME is not None: namespaceprefix_ = self.HOSTNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.HOSTNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHOSTNAME>%s</%sHOSTNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.HOSTNAME), input_name='HOSTNAME')), namespaceprefix_ , eol_)) if self.HID is not None: namespaceprefix_ = self.HID_nsprefix_ + ':' if (UseCapturedNS_ and self.HID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sHID>%s</%sHID>%s' % (namespaceprefix_ , self.gds_format_integer(self.HID, input_name='HID'), namespaceprefix_ , eol_)) if self.CID is not None: namespaceprefix_ = self.CID_nsprefix_ + ':' if (UseCapturedNS_ and self.CID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCID>%s</%sCID>%s' % (namespaceprefix_ , self.gds_format_integer(self.CID, input_name='CID'), namespaceprefix_ , eol_)) if self.STIME is not None: namespaceprefix_ = self.STIME_nsprefix_ + ':' if (UseCapturedNS_ and self.STIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTIME>%s</%sSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.STIME, input_name='STIME'), namespaceprefix_ , eol_)) if self.ETIME is not None: namespaceprefix_ = self.ETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sETIME>%s</%sETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ETIME, input_name='ETIME'), namespaceprefix_ , eol_)) if self.VM_MAD is not None: namespaceprefix_ = self.VM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM_MAD>%s</%sVM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VM_MAD), input_name='VM_MAD')), namespaceprefix_ , eol_)) if self.TM_MAD is not None: namespaceprefix_ = self.TM_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.TM_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTM_MAD>%s</%sTM_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TM_MAD), input_name='TM_MAD')), namespaceprefix_ , eol_)) if self.DS_ID is not None: namespaceprefix_ = self.DS_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DS_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDS_ID>%s</%sDS_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DS_ID, input_name='DS_ID'), namespaceprefix_ , eol_)) if self.PSTIME is not None: namespaceprefix_ = self.PSTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.PSTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPSTIME>%s</%sPSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.PSTIME, input_name='PSTIME'), namespaceprefix_ , eol_)) if self.PETIME is not None: namespaceprefix_ = self.PETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.PETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPETIME>%s</%sPETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.PETIME, input_name='PETIME'), namespaceprefix_ , eol_)) if self.RSTIME is not None: namespaceprefix_ = self.RSTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.RSTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRSTIME>%s</%sRSTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.RSTIME, input_name='RSTIME'), namespaceprefix_ , eol_)) if self.RETIME is not None: namespaceprefix_ = self.RETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.RETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sRETIME>%s</%sRETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.RETIME, input_name='RETIME'), namespaceprefix_ , eol_)) if self.ESTIME is not None: namespaceprefix_ = self.ESTIME_nsprefix_ + ':' if (UseCapturedNS_ and self.ESTIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sESTIME>%s</%sESTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.ESTIME, input_name='ESTIME'), namespaceprefix_ , eol_)) if self.EETIME is not None: namespaceprefix_ = self.EETIME_nsprefix_ + ':' if (UseCapturedNS_ and self.EETIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sEETIME>%s</%sEETIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.EETIME, input_name='EETIME'), namespaceprefix_ , eol_)) if self.ACTION is not None: namespaceprefix_ = self.ACTION_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTION_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTION>%s</%sACTION>%s' % (namespaceprefix_ , self.gds_format_integer(self.ACTION, input_name='ACTION'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.REQUEST_ID is not None: namespaceprefix_ = self.REQUEST_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQUEST_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQUEST_ID>%s</%sREQUEST_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.REQUEST_ID), input_name='REQUEST_ID')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OID') ival_ = self.gds_validate_integer(ival_, node, 'OID') self.OID = ival_ self.OID_nsprefix_ = child_.prefix elif nodeName_ == 'SEQ' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SEQ') ival_ = self.gds_validate_integer(ival_, node, 'SEQ') self.SEQ = ival_ self.SEQ_nsprefix_ = child_.prefix elif nodeName_ == 'HOSTNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'HOSTNAME') value_ = self.gds_validate_string(value_, node, 'HOSTNAME') self.HOSTNAME = value_ self.HOSTNAME_nsprefix_ = child_.prefix elif nodeName_ == 'HID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'HID') ival_ = self.gds_validate_integer(ival_, node, 'HID') self.HID = ival_ self.HID_nsprefix_ = child_.prefix elif nodeName_ == 'CID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CID') ival_ = self.gds_validate_integer(ival_, node, 'CID') self.CID = ival_ self.CID_nsprefix_ = child_.prefix elif nodeName_ == 'STIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STIME') ival_ = self.gds_validate_integer(ival_, node, 'STIME') self.STIME = ival_ self.STIME_nsprefix_ = child_.prefix elif nodeName_ == 'ETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ETIME') ival_ = self.gds_validate_integer(ival_, node, 'ETIME') self.ETIME = ival_ self.ETIME_nsprefix_ = child_.prefix elif nodeName_ == 'VM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VM_MAD') value_ = self.gds_validate_string(value_, node, 'VM_MAD') self.VM_MAD = value_ self.VM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'TM_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TM_MAD') value_ = self.gds_validate_string(value_, node, 'TM_MAD') self.TM_MAD = value_ self.TM_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'DS_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DS_ID') ival_ = self.gds_validate_integer(ival_, node, 'DS_ID') self.DS_ID = ival_ self.DS_ID_nsprefix_ = child_.prefix elif nodeName_ == 'PSTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PSTIME') ival_ = self.gds_validate_integer(ival_, node, 'PSTIME') self.PSTIME = ival_ self.PSTIME_nsprefix_ = child_.prefix elif nodeName_ == 'PETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PETIME') ival_ = self.gds_validate_integer(ival_, node, 'PETIME') self.PETIME = ival_ self.PETIME_nsprefix_ = child_.prefix elif nodeName_ == 'RSTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RSTIME') ival_ = self.gds_validate_integer(ival_, node, 'RSTIME') self.RSTIME = ival_ self.RSTIME_nsprefix_ = child_.prefix elif nodeName_ == 'RETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'RETIME') ival_ = self.gds_validate_integer(ival_, node, 'RETIME') self.RETIME = ival_ self.RETIME_nsprefix_ = child_.prefix elif nodeName_ == 'ESTIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ESTIME') ival_ = self.gds_validate_integer(ival_, node, 'ESTIME') self.ESTIME = ival_ self.ESTIME_nsprefix_ = child_.prefix elif nodeName_ == 'EETIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'EETIME') ival_ = self.gds_validate_integer(ival_, node, 'EETIME') self.EETIME = ival_ self.EETIME_nsprefix_ = child_.prefix elif nodeName_ == 'ACTION' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ACTION') ival_ = self.gds_validate_integer(ival_, node, 'ACTION') self.ACTION = ival_ self.ACTION_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'REQUEST_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'REQUEST_ID') value_ = self.gds_validate_string(value_, node, 'REQUEST_ID') self.REQUEST_ID = value_ self.REQUEST_ID_nsprefix_ = child_.prefix # end class HISTORYType107 class SNAPSHOTSType108(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALLOW_ORPHANS=None, CURRENT_BASE=None, DISK_ID=None, NEXT_SNAPSHOT=None, SNAPSHOT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALLOW_ORPHANS = ALLOW_ORPHANS self.ALLOW_ORPHANS_nsprefix_ = None self.CURRENT_BASE = CURRENT_BASE self.CURRENT_BASE_nsprefix_ = None self.DISK_ID = DISK_ID self.DISK_ID_nsprefix_ = None self.NEXT_SNAPSHOT = NEXT_SNAPSHOT self.NEXT_SNAPSHOT_nsprefix_ = None if SNAPSHOT is None: self.SNAPSHOT = [] else: self.SNAPSHOT = SNAPSHOT self.SNAPSHOT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTSType108) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTSType108.subclass: return SNAPSHOTSType108.subclass(*args_, **kwargs_) else: return SNAPSHOTSType108(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALLOW_ORPHANS(self): return self.ALLOW_ORPHANS def set_ALLOW_ORPHANS(self, ALLOW_ORPHANS): self.ALLOW_ORPHANS = ALLOW_ORPHANS def get_CURRENT_BASE(self): return self.CURRENT_BASE def set_CURRENT_BASE(self, CURRENT_BASE): self.CURRENT_BASE = CURRENT_BASE def get_DISK_ID(self): return self.DISK_ID def set_DISK_ID(self, DISK_ID): self.DISK_ID = DISK_ID def get_NEXT_SNAPSHOT(self): return self.NEXT_SNAPSHOT def set_NEXT_SNAPSHOT(self, NEXT_SNAPSHOT): self.NEXT_SNAPSHOT = NEXT_SNAPSHOT def get_SNAPSHOT(self): return self.SNAPSHOT def set_SNAPSHOT(self, SNAPSHOT): self.SNAPSHOT = SNAPSHOT def add_SNAPSHOT(self, value): self.SNAPSHOT.append(value) def insert_SNAPSHOT_at(self, index, value): self.SNAPSHOT.insert(index, value) def replace_SNAPSHOT_at(self, index, value): self.SNAPSHOT[index] = value def has__content(self): if ( self.ALLOW_ORPHANS is not None or self.CURRENT_BASE is not None or self.DISK_ID is not None or self.NEXT_SNAPSHOT is not None or self.SNAPSHOT ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType108', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTSType108') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTSType108': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTSType108') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTSType108', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTSType108'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTSType108', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALLOW_ORPHANS is not None: namespaceprefix_ = self.ALLOW_ORPHANS_nsprefix_ + ':' if (UseCapturedNS_ and self.ALLOW_ORPHANS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALLOW_ORPHANS>%s</%sALLOW_ORPHANS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALLOW_ORPHANS), input_name='ALLOW_ORPHANS')), namespaceprefix_ , eol_)) if self.CURRENT_BASE is not None: namespaceprefix_ = self.CURRENT_BASE_nsprefix_ + ':' if (UseCapturedNS_ and self.CURRENT_BASE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCURRENT_BASE>%s</%sCURRENT_BASE>%s' % (namespaceprefix_ , self.gds_format_integer(self.CURRENT_BASE, input_name='CURRENT_BASE'), namespaceprefix_ , eol_)) if self.DISK_ID is not None: namespaceprefix_ = self.DISK_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.DISK_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDISK_ID>%s</%sDISK_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.DISK_ID, input_name='DISK_ID'), namespaceprefix_ , eol_)) if self.NEXT_SNAPSHOT is not None: namespaceprefix_ = self.NEXT_SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.NEXT_SNAPSHOT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNEXT_SNAPSHOT>%s</%sNEXT_SNAPSHOT>%s' % (namespaceprefix_ , self.gds_format_integer(self.NEXT_SNAPSHOT, input_name='NEXT_SNAPSHOT'), namespaceprefix_ , eol_)) for SNAPSHOT_ in self.SNAPSHOT: namespaceprefix_ = self.SNAPSHOT_nsprefix_ + ':' if (UseCapturedNS_ and self.SNAPSHOT_nsprefix_) else '' SNAPSHOT_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SNAPSHOT', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALLOW_ORPHANS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALLOW_ORPHANS') value_ = self.gds_validate_string(value_, node, 'ALLOW_ORPHANS') self.ALLOW_ORPHANS = value_ self.ALLOW_ORPHANS_nsprefix_ = child_.prefix elif nodeName_ == 'CURRENT_BASE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'CURRENT_BASE') ival_ = self.gds_validate_integer(ival_, node, 'CURRENT_BASE') self.CURRENT_BASE = ival_ self.CURRENT_BASE_nsprefix_ = child_.prefix elif nodeName_ == 'DISK_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DISK_ID') ival_ = self.gds_validate_integer(ival_, node, 'DISK_ID') self.DISK_ID = ival_ self.DISK_ID_nsprefix_ = child_.prefix elif nodeName_ == 'NEXT_SNAPSHOT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'NEXT_SNAPSHOT') ival_ = self.gds_validate_integer(ival_, node, 'NEXT_SNAPSHOT') self.NEXT_SNAPSHOT = ival_ self.NEXT_SNAPSHOT_nsprefix_ = child_.prefix elif nodeName_ == 'SNAPSHOT': obj_ = SNAPSHOTType109.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SNAPSHOT.append(obj_) obj_.original_tagname_ = 'SNAPSHOT' # end class SNAPSHOTSType108 class SNAPSHOTType109(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ACTIVE=None, CHILDREN=None, DATE=None, ID=None, NAME=None, PARENT=None, SIZE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ACTIVE = ACTIVE self.ACTIVE_nsprefix_ = None self.CHILDREN = CHILDREN self.CHILDREN_nsprefix_ = None self.DATE = DATE self.DATE_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PARENT = PARENT self.PARENT_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SNAPSHOTType109) if subclass is not None: return subclass(*args_, **kwargs_) if SNAPSHOTType109.subclass: return SNAPSHOTType109.subclass(*args_, **kwargs_) else: return SNAPSHOTType109(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ACTIVE(self): return self.ACTIVE def set_ACTIVE(self, ACTIVE): self.ACTIVE = ACTIVE def get_CHILDREN(self): return self.CHILDREN def set_CHILDREN(self, CHILDREN): self.CHILDREN = CHILDREN def get_DATE(self): return self.DATE def set_DATE(self, DATE): self.DATE = DATE def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PARENT(self): return self.PARENT def set_PARENT(self, PARENT): self.PARENT = PARENT def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def has__content(self): if ( self.ACTIVE is not None or self.CHILDREN is not None or self.DATE is not None or self.ID is not None or self.NAME is not None or self.PARENT is not None or self.SIZE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType109', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SNAPSHOTType109') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SNAPSHOTType109': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SNAPSHOTType109') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SNAPSHOTType109', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SNAPSHOTType109'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SNAPSHOTType109', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ACTIVE is not None: namespaceprefix_ = self.ACTIVE_nsprefix_ + ':' if (UseCapturedNS_ and self.ACTIVE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sACTIVE>%s</%sACTIVE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ACTIVE), input_name='ACTIVE')), namespaceprefix_ , eol_)) if self.CHILDREN is not None: namespaceprefix_ = self.CHILDREN_nsprefix_ + ':' if (UseCapturedNS_ and self.CHILDREN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCHILDREN>%s</%sCHILDREN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.CHILDREN), input_name='CHILDREN')), namespaceprefix_ , eol_)) if self.DATE is not None: namespaceprefix_ = self.DATE_nsprefix_ + ':' if (UseCapturedNS_ and self.DATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDATE>%s</%sDATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.DATE, input_name='DATE'), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PARENT is not None: namespaceprefix_ = self.PARENT_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT>%s</%sPARENT>%s' % (namespaceprefix_ , self.gds_format_integer(self.PARENT, input_name='PARENT'), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ACTIVE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ACTIVE') value_ = self.gds_validate_string(value_, node, 'ACTIVE') self.ACTIVE = value_ self.ACTIVE_nsprefix_ = child_.prefix elif nodeName_ == 'CHILDREN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'CHILDREN') value_ = self.gds_validate_string(value_, node, 'CHILDREN') self.CHILDREN = value_ self.CHILDREN_nsprefix_ = child_.prefix elif nodeName_ == 'DATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'DATE') ival_ = self.gds_validate_integer(ival_, node, 'DATE') self.DATE = ival_ self.DATE_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PARENT') ival_ = self.gds_validate_integer(ival_, node, 'PARENT') self.PARENT = ival_ self.PARENT_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix # end class SNAPSHOTType109 class BACKUPSType110(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUP_CONFIG=None, BACKUP_IDS=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKUP_CONFIG = BACKUP_CONFIG self.BACKUP_CONFIG_nsprefix_ = None self.BACKUP_IDS = BACKUP_IDS self.BACKUP_IDS_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUPSType110) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUPSType110.subclass: return BACKUPSType110.subclass(*args_, **kwargs_) else: return BACKUPSType110(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUP_CONFIG(self): return self.BACKUP_CONFIG def set_BACKUP_CONFIG(self, BACKUP_CONFIG): self.BACKUP_CONFIG = BACKUP_CONFIG def get_BACKUP_IDS(self): return self.BACKUP_IDS def set_BACKUP_IDS(self, BACKUP_IDS): self.BACKUP_IDS = BACKUP_IDS def has__content(self): if ( self.BACKUP_CONFIG is not None or self.BACKUP_IDS is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPSType110', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUPSType110') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUPSType110': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUPSType110') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUPSType110', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUPSType110'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUPSType110', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKUP_CONFIG is not None: namespaceprefix_ = self.BACKUP_CONFIG_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_CONFIG_nsprefix_) else '' self.BACKUP_CONFIG.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUP_CONFIG', pretty_print=pretty_print) if self.BACKUP_IDS is not None: namespaceprefix_ = self.BACKUP_IDS_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_IDS_nsprefix_) else '' self.BACKUP_IDS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='BACKUP_IDS', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUP_CONFIG': obj_ = BACKUP_CONFIGType111.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUP_CONFIG = obj_ obj_.original_tagname_ = 'BACKUP_CONFIG' elif nodeName_ == 'BACKUP_IDS': obj_ = IDS.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.BACKUP_IDS = obj_ obj_.original_tagname_ = 'BACKUP_IDS' # end class BACKUPSType110 class BACKUP_CONFIGType111(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, BACKUP_JOB_ID=None, BACKUP_VOLATILE=None, FS_FREEZE=None, INCREMENTAL_BACKUP_ID=None, INCREMENT_MODE=None, KEEP_LAST=None, LAST_BACKUP_ID=None, LAST_BACKUP_SIZE=None, LAST_DATASTORE_ID=None, LAST_INCREMENT_ID=None, MODE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.BACKUP_JOB_ID = BACKUP_JOB_ID self.BACKUP_JOB_ID_nsprefix_ = None self.BACKUP_VOLATILE = BACKUP_VOLATILE self.BACKUP_VOLATILE_nsprefix_ = None self.FS_FREEZE = FS_FREEZE self.FS_FREEZE_nsprefix_ = None self.INCREMENTAL_BACKUP_ID = INCREMENTAL_BACKUP_ID self.INCREMENTAL_BACKUP_ID_nsprefix_ = None self.INCREMENT_MODE = INCREMENT_MODE self.INCREMENT_MODE_nsprefix_ = None self.KEEP_LAST = KEEP_LAST self.KEEP_LAST_nsprefix_ = None self.LAST_BACKUP_ID = LAST_BACKUP_ID self.LAST_BACKUP_ID_nsprefix_ = None self.LAST_BACKUP_SIZE = LAST_BACKUP_SIZE self.LAST_BACKUP_SIZE_nsprefix_ = None self.LAST_DATASTORE_ID = LAST_DATASTORE_ID self.LAST_DATASTORE_ID_nsprefix_ = None self.LAST_INCREMENT_ID = LAST_INCREMENT_ID self.LAST_INCREMENT_ID_nsprefix_ = None self.MODE = MODE self.MODE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, BACKUP_CONFIGType111) if subclass is not None: return subclass(*args_, **kwargs_) if BACKUP_CONFIGType111.subclass: return BACKUP_CONFIGType111.subclass(*args_, **kwargs_) else: return BACKUP_CONFIGType111(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_BACKUP_JOB_ID(self): return self.BACKUP_JOB_ID def set_BACKUP_JOB_ID(self, BACKUP_JOB_ID): self.BACKUP_JOB_ID = BACKUP_JOB_ID def get_BACKUP_VOLATILE(self): return self.BACKUP_VOLATILE def set_BACKUP_VOLATILE(self, BACKUP_VOLATILE): self.BACKUP_VOLATILE = BACKUP_VOLATILE def get_FS_FREEZE(self): return self.FS_FREEZE def set_FS_FREEZE(self, FS_FREEZE): self.FS_FREEZE = FS_FREEZE def get_INCREMENTAL_BACKUP_ID(self): return self.INCREMENTAL_BACKUP_ID def set_INCREMENTAL_BACKUP_ID(self, INCREMENTAL_BACKUP_ID): self.INCREMENTAL_BACKUP_ID = INCREMENTAL_BACKUP_ID def get_INCREMENT_MODE(self): return self.INCREMENT_MODE def set_INCREMENT_MODE(self, INCREMENT_MODE): self.INCREMENT_MODE = INCREMENT_MODE def get_KEEP_LAST(self): return self.KEEP_LAST def set_KEEP_LAST(self, KEEP_LAST): self.KEEP_LAST = KEEP_LAST def get_LAST_BACKUP_ID(self): return self.LAST_BACKUP_ID def set_LAST_BACKUP_ID(self, LAST_BACKUP_ID): self.LAST_BACKUP_ID = LAST_BACKUP_ID def get_LAST_BACKUP_SIZE(self): return self.LAST_BACKUP_SIZE def set_LAST_BACKUP_SIZE(self, LAST_BACKUP_SIZE): self.LAST_BACKUP_SIZE = LAST_BACKUP_SIZE def get_LAST_DATASTORE_ID(self): return self.LAST_DATASTORE_ID def set_LAST_DATASTORE_ID(self, LAST_DATASTORE_ID): self.LAST_DATASTORE_ID = LAST_DATASTORE_ID def get_LAST_INCREMENT_ID(self): return self.LAST_INCREMENT_ID def set_LAST_INCREMENT_ID(self, LAST_INCREMENT_ID): self.LAST_INCREMENT_ID = LAST_INCREMENT_ID def get_MODE(self): return self.MODE def set_MODE(self, MODE): self.MODE = MODE def has__content(self): if ( self.BACKUP_JOB_ID is not None or self.BACKUP_VOLATILE is not None or self.FS_FREEZE is not None or self.INCREMENTAL_BACKUP_ID is not None or self.INCREMENT_MODE is not None or self.KEEP_LAST is not None or self.LAST_BACKUP_ID is not None or self.LAST_BACKUP_SIZE is not None or self.LAST_DATASTORE_ID is not None or self.LAST_INCREMENT_ID is not None or self.MODE is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_CONFIGType111', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('BACKUP_CONFIGType111') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'BACKUP_CONFIGType111': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='BACKUP_CONFIGType111') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='BACKUP_CONFIGType111', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='BACKUP_CONFIGType111'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='BACKUP_CONFIGType111', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.BACKUP_JOB_ID is not None: namespaceprefix_ = self.BACKUP_JOB_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_JOB_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKUP_JOB_ID>%s</%sBACKUP_JOB_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKUP_JOB_ID), input_name='BACKUP_JOB_ID')), namespaceprefix_ , eol_)) if self.BACKUP_VOLATILE is not None: namespaceprefix_ = self.BACKUP_VOLATILE_nsprefix_ + ':' if (UseCapturedNS_ and self.BACKUP_VOLATILE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBACKUP_VOLATILE>%s</%sBACKUP_VOLATILE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BACKUP_VOLATILE), input_name='BACKUP_VOLATILE')), namespaceprefix_ , eol_)) if self.FS_FREEZE is not None: namespaceprefix_ = self.FS_FREEZE_nsprefix_ + ':' if (UseCapturedNS_ and self.FS_FREEZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFS_FREEZE>%s</%sFS_FREEZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.FS_FREEZE), input_name='FS_FREEZE')), namespaceprefix_ , eol_)) if self.INCREMENTAL_BACKUP_ID is not None: namespaceprefix_ = self.INCREMENTAL_BACKUP_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.INCREMENTAL_BACKUP_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINCREMENTAL_BACKUP_ID>%s</%sINCREMENTAL_BACKUP_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.INCREMENTAL_BACKUP_ID), input_name='INCREMENTAL_BACKUP_ID')), namespaceprefix_ , eol_)) if self.INCREMENT_MODE is not None: namespaceprefix_ = self.INCREMENT_MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.INCREMENT_MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sINCREMENT_MODE>%s</%sINCREMENT_MODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.INCREMENT_MODE), input_name='INCREMENT_MODE')), namespaceprefix_ , eol_)) if self.KEEP_LAST is not None: namespaceprefix_ = self.KEEP_LAST_nsprefix_ + ':' if (UseCapturedNS_ and self.KEEP_LAST_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sKEEP_LAST>%s</%sKEEP_LAST>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.KEEP_LAST), input_name='KEEP_LAST')), namespaceprefix_ , eol_)) if self.LAST_BACKUP_ID is not None: namespaceprefix_ = self.LAST_BACKUP_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_ID>%s</%sLAST_BACKUP_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_BACKUP_ID), input_name='LAST_BACKUP_ID')), namespaceprefix_ , eol_)) if self.LAST_BACKUP_SIZE is not None: namespaceprefix_ = self.LAST_BACKUP_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_BACKUP_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_BACKUP_SIZE>%s</%sLAST_BACKUP_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_BACKUP_SIZE), input_name='LAST_BACKUP_SIZE')), namespaceprefix_ , eol_)) if self.LAST_DATASTORE_ID is not None: namespaceprefix_ = self.LAST_DATASTORE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_DATASTORE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_DATASTORE_ID>%s</%sLAST_DATASTORE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_DATASTORE_ID), input_name='LAST_DATASTORE_ID')), namespaceprefix_ , eol_)) if self.LAST_INCREMENT_ID is not None: namespaceprefix_ = self.LAST_INCREMENT_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.LAST_INCREMENT_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLAST_INCREMENT_ID>%s</%sLAST_INCREMENT_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.LAST_INCREMENT_ID), input_name='LAST_INCREMENT_ID')), namespaceprefix_ , eol_)) if self.MODE is not None: namespaceprefix_ = self.MODE_nsprefix_ + ':' if (UseCapturedNS_ and self.MODE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMODE>%s</%sMODE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MODE), input_name='MODE')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'BACKUP_JOB_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKUP_JOB_ID') value_ = self.gds_validate_string(value_, node, 'BACKUP_JOB_ID') self.BACKUP_JOB_ID = value_ self.BACKUP_JOB_ID_nsprefix_ = child_.prefix elif nodeName_ == 'BACKUP_VOLATILE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BACKUP_VOLATILE') value_ = self.gds_validate_string(value_, node, 'BACKUP_VOLATILE') self.BACKUP_VOLATILE = value_ self.BACKUP_VOLATILE_nsprefix_ = child_.prefix elif nodeName_ == 'FS_FREEZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'FS_FREEZE') value_ = self.gds_validate_string(value_, node, 'FS_FREEZE') self.FS_FREEZE = value_ self.FS_FREEZE_nsprefix_ = child_.prefix elif nodeName_ == 'INCREMENTAL_BACKUP_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INCREMENTAL_BACKUP_ID') value_ = self.gds_validate_string(value_, node, 'INCREMENTAL_BACKUP_ID') self.INCREMENTAL_BACKUP_ID = value_ self.INCREMENTAL_BACKUP_ID_nsprefix_ = child_.prefix elif nodeName_ == 'INCREMENT_MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'INCREMENT_MODE') value_ = self.gds_validate_string(value_, node, 'INCREMENT_MODE') self.INCREMENT_MODE = value_ self.INCREMENT_MODE_nsprefix_ = child_.prefix elif nodeName_ == 'KEEP_LAST': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'KEEP_LAST') value_ = self.gds_validate_string(value_, node, 'KEEP_LAST') self.KEEP_LAST = value_ self.KEEP_LAST_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_BACKUP_ID') value_ = self.gds_validate_string(value_, node, 'LAST_BACKUP_ID') self.LAST_BACKUP_ID = value_ self.LAST_BACKUP_ID_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_BACKUP_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_BACKUP_SIZE') value_ = self.gds_validate_string(value_, node, 'LAST_BACKUP_SIZE') self.LAST_BACKUP_SIZE = value_ self.LAST_BACKUP_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_DATASTORE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_DATASTORE_ID') value_ = self.gds_validate_string(value_, node, 'LAST_DATASTORE_ID') self.LAST_DATASTORE_ID = value_ self.LAST_DATASTORE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'LAST_INCREMENT_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'LAST_INCREMENT_ID') value_ = self.gds_validate_string(value_, node, 'LAST_INCREMENT_ID') self.LAST_INCREMENT_ID = value_ self.LAST_INCREMENT_ID_nsprefix_ = child_.prefix elif nodeName_ == 'MODE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MODE') value_ = self.gds_validate_string(value_, node, 'MODE') self.MODE = value_ self.MODE_nsprefix_ = child_.prefix # end class BACKUP_CONFIGType111 class VNETType112(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, UID=None, GID=None, UNAME=None, GNAME=None, NAME=None, PERMISSIONS=None, CLUSTERS=None, BRIDGE=None, BRIDGE_TYPE=None, STATE=None, PREV_STATE=None, PARENT_NETWORK_ID=None, VN_MAD=None, PHYDEV=None, VLAN_ID=None, OUTER_VLAN_ID=None, VLAN_ID_AUTOMATIC=None, OUTER_VLAN_ID_AUTOMATIC=None, USED_LEASES=None, VROUTERS=None, UPDATED_VMS=None, OUTDATED_VMS=None, UPDATING_VMS=None, ERROR_VMS=None, TEMPLATE=None, AR_POOL=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.UID = UID self.UID_nsprefix_ = None self.GID = GID self.GID_nsprefix_ = None self.UNAME = UNAME self.UNAME_nsprefix_ = None self.GNAME = GNAME self.GNAME_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.PERMISSIONS = PERMISSIONS self.PERMISSIONS_nsprefix_ = None self.CLUSTERS = CLUSTERS self.CLUSTERS_nsprefix_ = None self.BRIDGE = BRIDGE self.BRIDGE_nsprefix_ = None self.BRIDGE_TYPE = BRIDGE_TYPE self.BRIDGE_TYPE_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.PREV_STATE = PREV_STATE self.PREV_STATE_nsprefix_ = None self.PARENT_NETWORK_ID = PARENT_NETWORK_ID self.PARENT_NETWORK_ID_nsprefix_ = None self.VN_MAD = VN_MAD self.VN_MAD_nsprefix_ = None self.PHYDEV = PHYDEV self.PHYDEV_nsprefix_ = None self.VLAN_ID = VLAN_ID self.VLAN_ID_nsprefix_ = None self.OUTER_VLAN_ID = OUTER_VLAN_ID self.OUTER_VLAN_ID_nsprefix_ = None self.VLAN_ID_AUTOMATIC = VLAN_ID_AUTOMATIC self.VLAN_ID_AUTOMATIC_nsprefix_ = None self.OUTER_VLAN_ID_AUTOMATIC = OUTER_VLAN_ID_AUTOMATIC self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ = None self.USED_LEASES = USED_LEASES self.USED_LEASES_nsprefix_ = None self.VROUTERS = VROUTERS self.VROUTERS_nsprefix_ = None self.UPDATED_VMS = UPDATED_VMS self.UPDATED_VMS_nsprefix_ = None self.OUTDATED_VMS = OUTDATED_VMS self.OUTDATED_VMS_nsprefix_ = None self.UPDATING_VMS = UPDATING_VMS self.UPDATING_VMS_nsprefix_ = None self.ERROR_VMS = ERROR_VMS self.ERROR_VMS_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.AR_POOL = AR_POOL self.AR_POOL_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VNETType112) if subclass is not None: return subclass(*args_, **kwargs_) if VNETType112.subclass: return VNETType112.subclass(*args_, **kwargs_) else: return VNETType112(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_UID(self): return self.UID def set_UID(self, UID): self.UID = UID def get_GID(self): return self.GID def set_GID(self, GID): self.GID = GID def get_UNAME(self): return self.UNAME def set_UNAME(self, UNAME): self.UNAME = UNAME def get_GNAME(self): return self.GNAME def set_GNAME(self, GNAME): self.GNAME = GNAME def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_PERMISSIONS(self): return self.PERMISSIONS def set_PERMISSIONS(self, PERMISSIONS): self.PERMISSIONS = PERMISSIONS def get_CLUSTERS(self): return self.CLUSTERS def set_CLUSTERS(self, CLUSTERS): self.CLUSTERS = CLUSTERS def get_BRIDGE(self): return self.BRIDGE def set_BRIDGE(self, BRIDGE): self.BRIDGE = BRIDGE def get_BRIDGE_TYPE(self): return self.BRIDGE_TYPE def set_BRIDGE_TYPE(self, BRIDGE_TYPE): self.BRIDGE_TYPE = BRIDGE_TYPE def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_PREV_STATE(self): return self.PREV_STATE def set_PREV_STATE(self, PREV_STATE): self.PREV_STATE = PREV_STATE def get_PARENT_NETWORK_ID(self): return self.PARENT_NETWORK_ID def set_PARENT_NETWORK_ID(self, PARENT_NETWORK_ID): self.PARENT_NETWORK_ID = PARENT_NETWORK_ID def get_VN_MAD(self): return self.VN_MAD def set_VN_MAD(self, VN_MAD): self.VN_MAD = VN_MAD def get_PHYDEV(self): return self.PHYDEV def set_PHYDEV(self, PHYDEV): self.PHYDEV = PHYDEV def get_VLAN_ID(self): return self.VLAN_ID def set_VLAN_ID(self, VLAN_ID): self.VLAN_ID = VLAN_ID def get_OUTER_VLAN_ID(self): return self.OUTER_VLAN_ID def set_OUTER_VLAN_ID(self, OUTER_VLAN_ID): self.OUTER_VLAN_ID = OUTER_VLAN_ID def get_VLAN_ID_AUTOMATIC(self): return self.VLAN_ID_AUTOMATIC def set_VLAN_ID_AUTOMATIC(self, VLAN_ID_AUTOMATIC): self.VLAN_ID_AUTOMATIC = VLAN_ID_AUTOMATIC def get_OUTER_VLAN_ID_AUTOMATIC(self): return self.OUTER_VLAN_ID_AUTOMATIC def set_OUTER_VLAN_ID_AUTOMATIC(self, OUTER_VLAN_ID_AUTOMATIC): self.OUTER_VLAN_ID_AUTOMATIC = OUTER_VLAN_ID_AUTOMATIC def get_USED_LEASES(self): return self.USED_LEASES def set_USED_LEASES(self, USED_LEASES): self.USED_LEASES = USED_LEASES def get_VROUTERS(self): return self.VROUTERS def set_VROUTERS(self, VROUTERS): self.VROUTERS = VROUTERS def get_UPDATED_VMS(self): return self.UPDATED_VMS def set_UPDATED_VMS(self, UPDATED_VMS): self.UPDATED_VMS = UPDATED_VMS def get_OUTDATED_VMS(self): return self.OUTDATED_VMS def set_OUTDATED_VMS(self, OUTDATED_VMS): self.OUTDATED_VMS = OUTDATED_VMS def get_UPDATING_VMS(self): return self.UPDATING_VMS def set_UPDATING_VMS(self, UPDATING_VMS): self.UPDATING_VMS = UPDATING_VMS def get_ERROR_VMS(self): return self.ERROR_VMS def set_ERROR_VMS(self, ERROR_VMS): self.ERROR_VMS = ERROR_VMS def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_AR_POOL(self): return self.AR_POOL def set_AR_POOL(self, AR_POOL): self.AR_POOL = AR_POOL def has__content(self): if ( self.ID is not None or self.UID is not None or self.GID is not None or self.UNAME is not None or self.GNAME is not None or self.NAME is not None or self.PERMISSIONS is not None or self.CLUSTERS is not None or self.BRIDGE is not None or self.BRIDGE_TYPE is not None or self.STATE is not None or self.PREV_STATE is not None or self.PARENT_NETWORK_ID is not None or self.VN_MAD is not None or self.PHYDEV is not None or self.VLAN_ID is not None or self.OUTER_VLAN_ID is not None or self.VLAN_ID_AUTOMATIC is not None or self.OUTER_VLAN_ID_AUTOMATIC is not None or self.USED_LEASES is not None or self.VROUTERS is not None or self.UPDATED_VMS is not None or self.OUTDATED_VMS is not None or self.UPDATING_VMS is not None or self.ERROR_VMS is not None or self.TEMPLATE is not None or self.AR_POOL is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETType112', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VNETType112') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VNETType112': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VNETType112') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VNETType112', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VNETType112'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VNETType112', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.UID is not None: namespaceprefix_ = self.UID_nsprefix_ + ':' if (UseCapturedNS_ and self.UID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUID>%s</%sUID>%s' % (namespaceprefix_ , self.gds_format_integer(self.UID, input_name='UID'), namespaceprefix_ , eol_)) if self.GID is not None: namespaceprefix_ = self.GID_nsprefix_ + ':' if (UseCapturedNS_ and self.GID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGID>%s</%sGID>%s' % (namespaceprefix_ , self.gds_format_integer(self.GID, input_name='GID'), namespaceprefix_ , eol_)) if self.UNAME is not None: namespaceprefix_ = self.UNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.UNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUNAME>%s</%sUNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.UNAME), input_name='UNAME')), namespaceprefix_ , eol_)) if self.GNAME is not None: namespaceprefix_ = self.GNAME_nsprefix_ + ':' if (UseCapturedNS_ and self.GNAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGNAME>%s</%sGNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GNAME), input_name='GNAME')), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.PERMISSIONS is not None: namespaceprefix_ = self.PERMISSIONS_nsprefix_ + ':' if (UseCapturedNS_ and self.PERMISSIONS_nsprefix_) else '' self.PERMISSIONS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='PERMISSIONS', pretty_print=pretty_print) if self.CLUSTERS is not None: namespaceprefix_ = self.CLUSTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.CLUSTERS_nsprefix_) else '' self.CLUSTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='CLUSTERS', pretty_print=pretty_print) if self.BRIDGE is not None: namespaceprefix_ = self.BRIDGE_nsprefix_ + ':' if (UseCapturedNS_ and self.BRIDGE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBRIDGE>%s</%sBRIDGE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BRIDGE), input_name='BRIDGE')), namespaceprefix_ , eol_)) if self.BRIDGE_TYPE is not None: namespaceprefix_ = self.BRIDGE_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.BRIDGE_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sBRIDGE_TYPE>%s</%sBRIDGE_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.BRIDGE_TYPE), input_name='BRIDGE_TYPE')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.PREV_STATE is not None: namespaceprefix_ = self.PREV_STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.PREV_STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPREV_STATE>%s</%sPREV_STATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.PREV_STATE, input_name='PREV_STATE'), namespaceprefix_ , eol_)) if self.PARENT_NETWORK_ID is not None: namespaceprefix_ = self.PARENT_NETWORK_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_NETWORK_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_NETWORK_ID>%s</%sPARENT_NETWORK_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT_NETWORK_ID), input_name='PARENT_NETWORK_ID')), namespaceprefix_ , eol_)) if self.VN_MAD is not None: namespaceprefix_ = self.VN_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVN_MAD>%s</%sVN_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VN_MAD), input_name='VN_MAD')), namespaceprefix_ , eol_)) if self.PHYDEV is not None: namespaceprefix_ = self.PHYDEV_nsprefix_ + ':' if (UseCapturedNS_ and self.PHYDEV_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPHYDEV>%s</%sPHYDEV>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PHYDEV), input_name='PHYDEV')), namespaceprefix_ , eol_)) if self.VLAN_ID is not None: namespaceprefix_ = self.VLAN_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VLAN_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVLAN_ID>%s</%sVLAN_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VLAN_ID), input_name='VLAN_ID')), namespaceprefix_ , eol_)) if self.OUTER_VLAN_ID is not None: namespaceprefix_ = self.OUTER_VLAN_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTER_VLAN_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOUTER_VLAN_ID>%s</%sOUTER_VLAN_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.OUTER_VLAN_ID), input_name='OUTER_VLAN_ID')), namespaceprefix_ , eol_)) if self.VLAN_ID_AUTOMATIC is not None: namespaceprefix_ = self.VLAN_ID_AUTOMATIC_nsprefix_ + ':' if (UseCapturedNS_ and self.VLAN_ID_AUTOMATIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVLAN_ID_AUTOMATIC>%s</%sVLAN_ID_AUTOMATIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VLAN_ID_AUTOMATIC), input_name='VLAN_ID_AUTOMATIC')), namespaceprefix_ , eol_)) if self.OUTER_VLAN_ID_AUTOMATIC is not None: namespaceprefix_ = self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOUTER_VLAN_ID_AUTOMATIC>%s</%sOUTER_VLAN_ID_AUTOMATIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.OUTER_VLAN_ID_AUTOMATIC), input_name='OUTER_VLAN_ID_AUTOMATIC')), namespaceprefix_ , eol_)) if self.USED_LEASES is not None: namespaceprefix_ = self.USED_LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_LEASES>%s</%sUSED_LEASES>%s' % (namespaceprefix_ , self.gds_format_integer(self.USED_LEASES, input_name='USED_LEASES'), namespaceprefix_ , eol_)) if self.VROUTERS is not None: namespaceprefix_ = self.VROUTERS_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTERS_nsprefix_) else '' self.VROUTERS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='VROUTERS', pretty_print=pretty_print) if self.UPDATED_VMS is not None: namespaceprefix_ = self.UPDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATED_VMS_nsprefix_) else '' self.UPDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATED_VMS', pretty_print=pretty_print) if self.OUTDATED_VMS is not None: namespaceprefix_ = self.OUTDATED_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.OUTDATED_VMS_nsprefix_) else '' self.OUTDATED_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='OUTDATED_VMS', pretty_print=pretty_print) if self.UPDATING_VMS is not None: namespaceprefix_ = self.UPDATING_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.UPDATING_VMS_nsprefix_) else '' self.UPDATING_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='UPDATING_VMS', pretty_print=pretty_print) if self.ERROR_VMS is not None: namespaceprefix_ = self.ERROR_VMS_nsprefix_ + ':' if (UseCapturedNS_ and self.ERROR_VMS_nsprefix_) else '' self.ERROR_VMS.export(outfile, level, namespaceprefix_, namespacedef_='', name_='ERROR_VMS', pretty_print=pretty_print) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTEMPLATE>%s</%sTEMPLATE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TEMPLATE), input_name='TEMPLATE')), namespaceprefix_ , eol_)) if self.AR_POOL is not None: namespaceprefix_ = self.AR_POOL_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_POOL_nsprefix_) else '' self.AR_POOL.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AR_POOL', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'UID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'UID') ival_ = self.gds_validate_integer(ival_, node, 'UID') self.UID = ival_ self.UID_nsprefix_ = child_.prefix elif nodeName_ == 'GID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GID') ival_ = self.gds_validate_integer(ival_, node, 'GID') self.GID = ival_ self.GID_nsprefix_ = child_.prefix elif nodeName_ == 'UNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'UNAME') value_ = self.gds_validate_string(value_, node, 'UNAME') self.UNAME = value_ self.UNAME_nsprefix_ = child_.prefix elif nodeName_ == 'GNAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GNAME') value_ = self.gds_validate_string(value_, node, 'GNAME') self.GNAME = value_ self.GNAME_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'PERMISSIONS': obj_ = PERMISSIONSType113.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.PERMISSIONS = obj_ obj_.original_tagname_ = 'PERMISSIONS' elif nodeName_ == 'CLUSTERS': obj_ = CLUSTERSType114.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.CLUSTERS = obj_ obj_.original_tagname_ = 'CLUSTERS' elif nodeName_ == 'BRIDGE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BRIDGE') value_ = self.gds_validate_string(value_, node, 'BRIDGE') self.BRIDGE = value_ self.BRIDGE_nsprefix_ = child_.prefix elif nodeName_ == 'BRIDGE_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'BRIDGE_TYPE') value_ = self.gds_validate_string(value_, node, 'BRIDGE_TYPE') self.BRIDGE_TYPE = value_ self.BRIDGE_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PREV_STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'PREV_STATE') ival_ = self.gds_validate_integer(ival_, node, 'PREV_STATE') self.PREV_STATE = ival_ self.PREV_STATE_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_NETWORK_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT_NETWORK_ID') value_ = self.gds_validate_string(value_, node, 'PARENT_NETWORK_ID') self.PARENT_NETWORK_ID = value_ self.PARENT_NETWORK_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VN_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VN_MAD') value_ = self.gds_validate_string(value_, node, 'VN_MAD') self.VN_MAD = value_ self.VN_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'PHYDEV': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PHYDEV') value_ = self.gds_validate_string(value_, node, 'PHYDEV') self.PHYDEV = value_ self.PHYDEV_nsprefix_ = child_.prefix elif nodeName_ == 'VLAN_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VLAN_ID') value_ = self.gds_validate_string(value_, node, 'VLAN_ID') self.VLAN_ID = value_ self.VLAN_ID_nsprefix_ = child_.prefix elif nodeName_ == 'OUTER_VLAN_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'OUTER_VLAN_ID') value_ = self.gds_validate_string(value_, node, 'OUTER_VLAN_ID') self.OUTER_VLAN_ID = value_ self.OUTER_VLAN_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VLAN_ID_AUTOMATIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VLAN_ID_AUTOMATIC') value_ = self.gds_validate_string(value_, node, 'VLAN_ID_AUTOMATIC') self.VLAN_ID_AUTOMATIC = value_ self.VLAN_ID_AUTOMATIC_nsprefix_ = child_.prefix elif nodeName_ == 'OUTER_VLAN_ID_AUTOMATIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'OUTER_VLAN_ID_AUTOMATIC') value_ = self.gds_validate_string(value_, node, 'OUTER_VLAN_ID_AUTOMATIC') self.OUTER_VLAN_ID_AUTOMATIC = value_ self.OUTER_VLAN_ID_AUTOMATIC_nsprefix_ = child_.prefix elif nodeName_ == 'USED_LEASES' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'USED_LEASES') ival_ = self.gds_validate_integer(ival_, node, 'USED_LEASES') self.USED_LEASES = ival_ self.USED_LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTERS': obj_ = VROUTERSType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.VROUTERS = obj_ obj_.original_tagname_ = 'VROUTERS' elif nodeName_ == 'UPDATED_VMS': obj_ = UPDATED_VMSType115.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATED_VMS = obj_ obj_.original_tagname_ = 'UPDATED_VMS' elif nodeName_ == 'OUTDATED_VMS': obj_ = OUTDATED_VMSType116.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.OUTDATED_VMS = obj_ obj_.original_tagname_ = 'OUTDATED_VMS' elif nodeName_ == 'UPDATING_VMS': obj_ = UPDATING_VMSType117.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.UPDATING_VMS = obj_ obj_.original_tagname_ = 'UPDATING_VMS' elif nodeName_ == 'ERROR_VMS': obj_ = ERROR_VMSType118.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.ERROR_VMS = obj_ obj_.original_tagname_ = 'ERROR_VMS' elif nodeName_ == 'TEMPLATE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TEMPLATE') value_ = self.gds_validate_string(value_, node, 'TEMPLATE') self.TEMPLATE = value_ self.TEMPLATE_nsprefix_ = child_.prefix elif nodeName_ == 'AR_POOL': obj_ = AR_POOLType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AR_POOL = obj_ obj_.original_tagname_ = 'AR_POOL' # end class VNETType112 class PERMISSIONSType113(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType113) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType113.subclass: return PERMISSIONSType113.subclass(*args_, **kwargs_) else: return PERMISSIONSType113(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType113', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType113') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType113': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType113') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType113', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType113'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType113', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType113 class CLUSTERSType114(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTERSType114) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTERSType114.subclass: return CLUSTERSType114.subclass(*args_, **kwargs_) else: return CLUSTERSType114(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType114', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTERSType114') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTERSType114': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTERSType114') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTERSType114', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTERSType114'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType114', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class CLUSTERSType114 class VROUTERSType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VROUTERSType) if subclass is not None: return subclass(*args_, **kwargs_) if VROUTERSType.subclass: return VROUTERSType.subclass(*args_, **kwargs_) else: return VROUTERSType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTERSType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VROUTERSType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VROUTERSType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VROUTERSType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VROUTERSType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VROUTERSType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTERSType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VROUTERSType class UPDATED_VMSType115(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATED_VMSType115) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATED_VMSType115.subclass: return UPDATED_VMSType115.subclass(*args_, **kwargs_) else: return UPDATED_VMSType115(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType115', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATED_VMSType115') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATED_VMSType115': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATED_VMSType115') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATED_VMSType115', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATED_VMSType115'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType115', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATED_VMSType115 class OUTDATED_VMSType116(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, OUTDATED_VMSType116) if subclass is not None: return subclass(*args_, **kwargs_) if OUTDATED_VMSType116.subclass: return OUTDATED_VMSType116.subclass(*args_, **kwargs_) else: return OUTDATED_VMSType116(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType116', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('OUTDATED_VMSType116') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'OUTDATED_VMSType116': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='OUTDATED_VMSType116') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='OUTDATED_VMSType116', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='OUTDATED_VMSType116'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType116', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class OUTDATED_VMSType116 class UPDATING_VMSType117(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATING_VMSType117) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATING_VMSType117.subclass: return UPDATING_VMSType117.subclass(*args_, **kwargs_) else: return UPDATING_VMSType117(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType117', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATING_VMSType117') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATING_VMSType117': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATING_VMSType117') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATING_VMSType117', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATING_VMSType117'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType117', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATING_VMSType117 class ERROR_VMSType118(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ERROR_VMSType118) if subclass is not None: return subclass(*args_, **kwargs_) if ERROR_VMSType118.subclass: return ERROR_VMSType118.subclass(*args_, **kwargs_) else: return ERROR_VMSType118(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType118', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ERROR_VMSType118') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ERROR_VMSType118': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ERROR_VMSType118') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ERROR_VMSType118', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ERROR_VMSType118'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType118', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class ERROR_VMSType118 class AR_POOLType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, AR=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if AR is None: self.AR = [] else: self.AR = AR self.AR_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, AR_POOLType) if subclass is not None: return subclass(*args_, **kwargs_) if AR_POOLType.subclass: return AR_POOLType.subclass(*args_, **kwargs_) else: return AR_POOLType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_AR(self): return self.AR def set_AR(self, AR): self.AR = AR def add_AR(self, value): self.AR.append(value) def insert_AR_at(self, index, value): self.AR.insert(index, value) def replace_AR_at(self, index, value): self.AR[index] = value def has__content(self): if ( self.AR ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AR_POOLType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('AR_POOLType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'AR_POOLType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='AR_POOLType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='AR_POOLType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='AR_POOLType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AR_POOLType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for AR_ in self.AR: namespaceprefix_ = self.AR_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_nsprefix_) else '' AR_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AR', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'AR': obj_ = ARType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AR.append(obj_) obj_.original_tagname_ = 'AR' # end class AR_POOLType class ARType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ALLOCATED=None, AR_ID=None, GLOBAL_PREFIX=None, IP=None, MAC=None, PARENT_NETWORK_AR_ID=None, SIZE=None, TYPE=None, ULA_PREFIX=None, VN_MAD=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ALLOCATED = ALLOCATED self.ALLOCATED_nsprefix_ = None self.AR_ID = AR_ID self.AR_ID_nsprefix_ = None self.GLOBAL_PREFIX = GLOBAL_PREFIX self.GLOBAL_PREFIX_nsprefix_ = None self.IP = IP self.IP_nsprefix_ = None self.MAC = MAC self.MAC_nsprefix_ = None self.PARENT_NETWORK_AR_ID = PARENT_NETWORK_AR_ID self.PARENT_NETWORK_AR_ID_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.ULA_PREFIX = ULA_PREFIX self.ULA_PREFIX_nsprefix_ = None self.VN_MAD = VN_MAD self.VN_MAD_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ARType) if subclass is not None: return subclass(*args_, **kwargs_) if ARType.subclass: return ARType.subclass(*args_, **kwargs_) else: return ARType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ALLOCATED(self): return self.ALLOCATED def set_ALLOCATED(self, ALLOCATED): self.ALLOCATED = ALLOCATED def get_AR_ID(self): return self.AR_ID def set_AR_ID(self, AR_ID): self.AR_ID = AR_ID def get_GLOBAL_PREFIX(self): return self.GLOBAL_PREFIX def set_GLOBAL_PREFIX(self, GLOBAL_PREFIX): self.GLOBAL_PREFIX = GLOBAL_PREFIX def get_IP(self): return self.IP def set_IP(self, IP): self.IP = IP def get_MAC(self): return self.MAC def set_MAC(self, MAC): self.MAC = MAC def get_PARENT_NETWORK_AR_ID(self): return self.PARENT_NETWORK_AR_ID def set_PARENT_NETWORK_AR_ID(self, PARENT_NETWORK_AR_ID): self.PARENT_NETWORK_AR_ID = PARENT_NETWORK_AR_ID def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_ULA_PREFIX(self): return self.ULA_PREFIX def set_ULA_PREFIX(self, ULA_PREFIX): self.ULA_PREFIX = ULA_PREFIX def get_VN_MAD(self): return self.VN_MAD def set_VN_MAD(self, VN_MAD): self.VN_MAD = VN_MAD def has__content(self): if ( self.ALLOCATED is not None or self.AR_ID is not None or self.GLOBAL_PREFIX is not None or self.IP is not None or self.MAC is not None or self.PARENT_NETWORK_AR_ID is not None or self.SIZE is not None or self.TYPE is not None or self.ULA_PREFIX is not None or self.VN_MAD is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ARType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ARType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ARType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ARType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ARType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ARType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ARType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ALLOCATED is not None: namespaceprefix_ = self.ALLOCATED_nsprefix_ + ':' if (UseCapturedNS_ and self.ALLOCATED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sALLOCATED>%s</%sALLOCATED>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ALLOCATED), input_name='ALLOCATED')), namespaceprefix_ , eol_)) if self.AR_ID is not None: namespaceprefix_ = self.AR_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAR_ID>%s</%sAR_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AR_ID), input_name='AR_ID')), namespaceprefix_ , eol_)) if self.GLOBAL_PREFIX is not None: namespaceprefix_ = self.GLOBAL_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.GLOBAL_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGLOBAL_PREFIX>%s</%sGLOBAL_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GLOBAL_PREFIX), input_name='GLOBAL_PREFIX')), namespaceprefix_ , eol_)) if self.IP is not None: namespaceprefix_ = self.IP_nsprefix_ + ':' if (UseCapturedNS_ and self.IP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP>%s</%sIP>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP), input_name='IP')), namespaceprefix_ , eol_)) if self.MAC is not None: namespaceprefix_ = self.MAC_nsprefix_ + ':' if (UseCapturedNS_ and self.MAC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAC>%s</%sMAC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MAC), input_name='MAC')), namespaceprefix_ , eol_)) if self.PARENT_NETWORK_AR_ID is not None: namespaceprefix_ = self.PARENT_NETWORK_AR_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_NETWORK_AR_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_NETWORK_AR_ID>%s</%sPARENT_NETWORK_AR_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT_NETWORK_AR_ID), input_name='PARENT_NETWORK_AR_ID')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.ULA_PREFIX is not None: namespaceprefix_ = self.ULA_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.ULA_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sULA_PREFIX>%s</%sULA_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ULA_PREFIX), input_name='ULA_PREFIX')), namespaceprefix_ , eol_)) if self.VN_MAD is not None: namespaceprefix_ = self.VN_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVN_MAD>%s</%sVN_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VN_MAD), input_name='VN_MAD')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ALLOCATED': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ALLOCATED') value_ = self.gds_validate_string(value_, node, 'ALLOCATED') self.ALLOCATED = value_ self.ALLOCATED_nsprefix_ = child_.prefix elif nodeName_ == 'AR_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AR_ID') value_ = self.gds_validate_string(value_, node, 'AR_ID') self.AR_ID = value_ self.AR_ID_nsprefix_ = child_.prefix elif nodeName_ == 'GLOBAL_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GLOBAL_PREFIX') value_ = self.gds_validate_string(value_, node, 'GLOBAL_PREFIX') self.GLOBAL_PREFIX = value_ self.GLOBAL_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'IP': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP') value_ = self.gds_validate_string(value_, node, 'IP') self.IP = value_ self.IP_nsprefix_ = child_.prefix elif nodeName_ == 'MAC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MAC') value_ = self.gds_validate_string(value_, node, 'MAC') self.MAC = value_ self.MAC_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_NETWORK_AR_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT_NETWORK_AR_ID') value_ = self.gds_validate_string(value_, node, 'PARENT_NETWORK_AR_ID') self.PARENT_NETWORK_AR_ID = value_ self.PARENT_NETWORK_AR_ID_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'ULA_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ULA_PREFIX') value_ = self.gds_validate_string(value_, node, 'ULA_PREFIX') self.ULA_PREFIX = value_ self.ULA_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'VN_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VN_MAD') value_ = self.gds_validate_string(value_, node, 'VN_MAD') self.VN_MAD = value_ self.VN_MAD_nsprefix_ = child_.prefix # end class ARType class LOCKType119(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType119) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType119.subclass: return LOCKType119.subclass(*args_, **kwargs_) else: return LOCKType119(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType119', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType119') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType119': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType119') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType119', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType119'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType119', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType119 class PERMISSIONSType120(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType120) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType120.subclass: return PERMISSIONSType120.subclass(*args_, **kwargs_) else: return PERMISSIONSType120(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType120', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType120') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType120': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType120') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType120', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType120'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType120', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType120 class CLUSTERSType121(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, CLUSTERSType121) if subclass is not None: return subclass(*args_, **kwargs_) if CLUSTERSType121.subclass: return CLUSTERSType121.subclass(*args_, **kwargs_) else: return CLUSTERSType121(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType121', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('CLUSTERSType121') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'CLUSTERSType121': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='CLUSTERSType121') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='CLUSTERSType121', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='CLUSTERSType121'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='CLUSTERSType121', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class CLUSTERSType121 class VROUTERSType122(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VROUTERSType122) if subclass is not None: return subclass(*args_, **kwargs_) if VROUTERSType122.subclass: return VROUTERSType122.subclass(*args_, **kwargs_) else: return VROUTERSType122(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTERSType122', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VROUTERSType122') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VROUTERSType122': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VROUTERSType122') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VROUTERSType122', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VROUTERSType122'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VROUTERSType122', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VROUTERSType122 class UPDATED_VMSType123(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATED_VMSType123) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATED_VMSType123.subclass: return UPDATED_VMSType123.subclass(*args_, **kwargs_) else: return UPDATED_VMSType123(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType123', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATED_VMSType123') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATED_VMSType123': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATED_VMSType123') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATED_VMSType123', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATED_VMSType123'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATED_VMSType123', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATED_VMSType123 class OUTDATED_VMSType124(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, OUTDATED_VMSType124) if subclass is not None: return subclass(*args_, **kwargs_) if OUTDATED_VMSType124.subclass: return OUTDATED_VMSType124.subclass(*args_, **kwargs_) else: return OUTDATED_VMSType124(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType124', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('OUTDATED_VMSType124') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'OUTDATED_VMSType124': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='OUTDATED_VMSType124') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='OUTDATED_VMSType124', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='OUTDATED_VMSType124'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='OUTDATED_VMSType124', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class OUTDATED_VMSType124 class UPDATING_VMSType125(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, UPDATING_VMSType125) if subclass is not None: return subclass(*args_, **kwargs_) if UPDATING_VMSType125.subclass: return UPDATING_VMSType125.subclass(*args_, **kwargs_) else: return UPDATING_VMSType125(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType125', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('UPDATING_VMSType125') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'UPDATING_VMSType125': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='UPDATING_VMSType125') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='UPDATING_VMSType125', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='UPDATING_VMSType125'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='UPDATING_VMSType125', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class UPDATING_VMSType125 class ERROR_VMSType126(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ERROR_VMSType126) if subclass is not None: return subclass(*args_, **kwargs_) if ERROR_VMSType126.subclass: return ERROR_VMSType126.subclass(*args_, **kwargs_) else: return ERROR_VMSType126(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType126', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ERROR_VMSType126') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ERROR_VMSType126': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ERROR_VMSType126') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ERROR_VMSType126', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ERROR_VMSType126'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ERROR_VMSType126', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class ERROR_VMSType126 class TEMPLATEType127(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, DNS=None, GATEWAY=None, GATEWAY6=None, GUEST_MTU=None, IP6_METHOD=None, IP6_METRIC=None, METHOD=None, METRIC=None, NETWORK_ADDRESS=None, NETWORK_MASK=None, SEARCH_DOMAIN=None, VCENTER_FROM_WILD=None, VCENTER_INSTANCE_ID=None, VCENTER_NET_REF=None, VCENTER_PORTGROUP_TYPE=None, VCENTER_TEMPLATE_REF=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.DNS = DNS self.DNS_nsprefix_ = None self.GATEWAY = GATEWAY self.GATEWAY_nsprefix_ = None self.GATEWAY6 = GATEWAY6 self.GATEWAY6_nsprefix_ = None self.GUEST_MTU = GUEST_MTU self.GUEST_MTU_nsprefix_ = None self.IP6_METHOD = IP6_METHOD self.IP6_METHOD_nsprefix_ = None self.IP6_METRIC = IP6_METRIC self.IP6_METRIC_nsprefix_ = None self.METHOD = METHOD self.METHOD_nsprefix_ = None self.METRIC = METRIC self.METRIC_nsprefix_ = None self.NETWORK_ADDRESS = NETWORK_ADDRESS self.NETWORK_ADDRESS_nsprefix_ = None self.NETWORK_MASK = NETWORK_MASK self.NETWORK_MASK_nsprefix_ = None self.SEARCH_DOMAIN = SEARCH_DOMAIN self.SEARCH_DOMAIN_nsprefix_ = None self.VCENTER_FROM_WILD = VCENTER_FROM_WILD self.VCENTER_FROM_WILD_nsprefix_ = None self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID self.VCENTER_INSTANCE_ID_nsprefix_ = None self.VCENTER_NET_REF = VCENTER_NET_REF self.VCENTER_NET_REF_nsprefix_ = None self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE self.VCENTER_PORTGROUP_TYPE_nsprefix_ = None self.VCENTER_TEMPLATE_REF = VCENTER_TEMPLATE_REF self.VCENTER_TEMPLATE_REF_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType127) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType127.subclass: return TEMPLATEType127.subclass(*args_, **kwargs_) else: return TEMPLATEType127(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_DNS(self): return self.DNS def set_DNS(self, DNS): self.DNS = DNS def get_GATEWAY(self): return self.GATEWAY def set_GATEWAY(self, GATEWAY): self.GATEWAY = GATEWAY def get_GATEWAY6(self): return self.GATEWAY6 def set_GATEWAY6(self, GATEWAY6): self.GATEWAY6 = GATEWAY6 def get_GUEST_MTU(self): return self.GUEST_MTU def set_GUEST_MTU(self, GUEST_MTU): self.GUEST_MTU = GUEST_MTU def get_IP6_METHOD(self): return self.IP6_METHOD def set_IP6_METHOD(self, IP6_METHOD): self.IP6_METHOD = IP6_METHOD def get_IP6_METRIC(self): return self.IP6_METRIC def set_IP6_METRIC(self, IP6_METRIC): self.IP6_METRIC = IP6_METRIC def get_METHOD(self): return self.METHOD def set_METHOD(self, METHOD): self.METHOD = METHOD def get_METRIC(self): return self.METRIC def set_METRIC(self, METRIC): self.METRIC = METRIC def get_NETWORK_ADDRESS(self): return self.NETWORK_ADDRESS def set_NETWORK_ADDRESS(self, NETWORK_ADDRESS): self.NETWORK_ADDRESS = NETWORK_ADDRESS def get_NETWORK_MASK(self): return self.NETWORK_MASK def set_NETWORK_MASK(self, NETWORK_MASK): self.NETWORK_MASK = NETWORK_MASK def get_SEARCH_DOMAIN(self): return self.SEARCH_DOMAIN def set_SEARCH_DOMAIN(self, SEARCH_DOMAIN): self.SEARCH_DOMAIN = SEARCH_DOMAIN def get_VCENTER_FROM_WILD(self): return self.VCENTER_FROM_WILD def set_VCENTER_FROM_WILD(self, VCENTER_FROM_WILD): self.VCENTER_FROM_WILD = VCENTER_FROM_WILD def get_VCENTER_INSTANCE_ID(self): return self.VCENTER_INSTANCE_ID def set_VCENTER_INSTANCE_ID(self, VCENTER_INSTANCE_ID): self.VCENTER_INSTANCE_ID = VCENTER_INSTANCE_ID def get_VCENTER_NET_REF(self): return self.VCENTER_NET_REF def set_VCENTER_NET_REF(self, VCENTER_NET_REF): self.VCENTER_NET_REF = VCENTER_NET_REF def get_VCENTER_PORTGROUP_TYPE(self): return self.VCENTER_PORTGROUP_TYPE def set_VCENTER_PORTGROUP_TYPE(self, VCENTER_PORTGROUP_TYPE): self.VCENTER_PORTGROUP_TYPE = VCENTER_PORTGROUP_TYPE def get_VCENTER_TEMPLATE_REF(self): return self.VCENTER_TEMPLATE_REF def set_VCENTER_TEMPLATE_REF(self, VCENTER_TEMPLATE_REF): self.VCENTER_TEMPLATE_REF = VCENTER_TEMPLATE_REF def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.DNS is not None or self.GATEWAY is not None or self.GATEWAY6 is not None or self.GUEST_MTU is not None or self.IP6_METHOD is not None or self.IP6_METRIC is not None or self.METHOD is not None or self.METRIC is not None or self.NETWORK_ADDRESS is not None or self.NETWORK_MASK is not None or self.SEARCH_DOMAIN is not None or self.VCENTER_FROM_WILD is not None or self.VCENTER_INSTANCE_ID is not None or self.VCENTER_NET_REF is not None or self.VCENTER_PORTGROUP_TYPE is not None or self.VCENTER_TEMPLATE_REF is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType127', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType127') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType127': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType127') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType127', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType127'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType127', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.DNS is not None: namespaceprefix_ = self.DNS_nsprefix_ + ':' if (UseCapturedNS_ and self.DNS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sDNS>%s</%sDNS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.DNS), input_name='DNS')), namespaceprefix_ , eol_)) if self.GATEWAY is not None: namespaceprefix_ = self.GATEWAY_nsprefix_ + ':' if (UseCapturedNS_ and self.GATEWAY_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGATEWAY>%s</%sGATEWAY>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GATEWAY), input_name='GATEWAY')), namespaceprefix_ , eol_)) if self.GATEWAY6 is not None: namespaceprefix_ = self.GATEWAY6_nsprefix_ + ':' if (UseCapturedNS_ and self.GATEWAY6_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGATEWAY6>%s</%sGATEWAY6>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GATEWAY6), input_name='GATEWAY6')), namespaceprefix_ , eol_)) if self.GUEST_MTU is not None: namespaceprefix_ = self.GUEST_MTU_nsprefix_ + ':' if (UseCapturedNS_ and self.GUEST_MTU_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGUEST_MTU>%s</%sGUEST_MTU>%s' % (namespaceprefix_ , self.gds_format_integer(self.GUEST_MTU, input_name='GUEST_MTU'), namespaceprefix_ , eol_)) if self.IP6_METHOD is not None: namespaceprefix_ = self.IP6_METHOD_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_METHOD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_METHOD>%s</%sIP6_METHOD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_METHOD), input_name='IP6_METHOD')), namespaceprefix_ , eol_)) if self.IP6_METRIC is not None: namespaceprefix_ = self.IP6_METRIC_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_METRIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_METRIC>%s</%sIP6_METRIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_METRIC), input_name='IP6_METRIC')), namespaceprefix_ , eol_)) if self.METHOD is not None: namespaceprefix_ = self.METHOD_nsprefix_ + ':' if (UseCapturedNS_ and self.METHOD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMETHOD>%s</%sMETHOD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.METHOD), input_name='METHOD')), namespaceprefix_ , eol_)) if self.METRIC is not None: namespaceprefix_ = self.METRIC_nsprefix_ + ':' if (UseCapturedNS_ and self.METRIC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMETRIC>%s</%sMETRIC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.METRIC), input_name='METRIC')), namespaceprefix_ , eol_)) if self.NETWORK_ADDRESS is not None: namespaceprefix_ = self.NETWORK_ADDRESS_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_ADDRESS_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETWORK_ADDRESS>%s</%sNETWORK_ADDRESS>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NETWORK_ADDRESS), input_name='NETWORK_ADDRESS')), namespaceprefix_ , eol_)) if self.NETWORK_MASK is not None: namespaceprefix_ = self.NETWORK_MASK_nsprefix_ + ':' if (UseCapturedNS_ and self.NETWORK_MASK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNETWORK_MASK>%s</%sNETWORK_MASK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NETWORK_MASK), input_name='NETWORK_MASK')), namespaceprefix_ , eol_)) if self.SEARCH_DOMAIN is not None: namespaceprefix_ = self.SEARCH_DOMAIN_nsprefix_ + ':' if (UseCapturedNS_ and self.SEARCH_DOMAIN_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSEARCH_DOMAIN>%s</%sSEARCH_DOMAIN>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.SEARCH_DOMAIN), input_name='SEARCH_DOMAIN')), namespaceprefix_ , eol_)) if self.VCENTER_FROM_WILD is not None: namespaceprefix_ = self.VCENTER_FROM_WILD_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_FROM_WILD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_FROM_WILD>%s</%sVCENTER_FROM_WILD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_FROM_WILD), input_name='VCENTER_FROM_WILD')), namespaceprefix_ , eol_)) if self.VCENTER_INSTANCE_ID is not None: namespaceprefix_ = self.VCENTER_INSTANCE_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_INSTANCE_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_INSTANCE_ID>%s</%sVCENTER_INSTANCE_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_INSTANCE_ID), input_name='VCENTER_INSTANCE_ID')), namespaceprefix_ , eol_)) if self.VCENTER_NET_REF is not None: namespaceprefix_ = self.VCENTER_NET_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_NET_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_NET_REF>%s</%sVCENTER_NET_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_NET_REF), input_name='VCENTER_NET_REF')), namespaceprefix_ , eol_)) if self.VCENTER_PORTGROUP_TYPE is not None: namespaceprefix_ = self.VCENTER_PORTGROUP_TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_PORTGROUP_TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_PORTGROUP_TYPE>%s</%sVCENTER_PORTGROUP_TYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_PORTGROUP_TYPE), input_name='VCENTER_PORTGROUP_TYPE')), namespaceprefix_ , eol_)) if self.VCENTER_TEMPLATE_REF is not None: namespaceprefix_ = self.VCENTER_TEMPLATE_REF_nsprefix_ + ':' if (UseCapturedNS_ and self.VCENTER_TEMPLATE_REF_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVCENTER_TEMPLATE_REF>%s</%sVCENTER_TEMPLATE_REF>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VCENTER_TEMPLATE_REF), input_name='VCENTER_TEMPLATE_REF')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'DNS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'DNS') value_ = self.gds_validate_string(value_, node, 'DNS') self.DNS = value_ self.DNS_nsprefix_ = child_.prefix elif nodeName_ == 'GATEWAY': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GATEWAY') value_ = self.gds_validate_string(value_, node, 'GATEWAY') self.GATEWAY = value_ self.GATEWAY_nsprefix_ = child_.prefix elif nodeName_ == 'GATEWAY6': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GATEWAY6') value_ = self.gds_validate_string(value_, node, 'GATEWAY6') self.GATEWAY6 = value_ self.GATEWAY6_nsprefix_ = child_.prefix elif nodeName_ == 'GUEST_MTU' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GUEST_MTU') ival_ = self.gds_validate_integer(ival_, node, 'GUEST_MTU') self.GUEST_MTU = ival_ self.GUEST_MTU_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_METHOD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_METHOD') value_ = self.gds_validate_string(value_, node, 'IP6_METHOD') self.IP6_METHOD = value_ self.IP6_METHOD_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_METRIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_METRIC') value_ = self.gds_validate_string(value_, node, 'IP6_METRIC') self.IP6_METRIC = value_ self.IP6_METRIC_nsprefix_ = child_.prefix elif nodeName_ == 'METHOD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'METHOD') value_ = self.gds_validate_string(value_, node, 'METHOD') self.METHOD = value_ self.METHOD_nsprefix_ = child_.prefix elif nodeName_ == 'METRIC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'METRIC') value_ = self.gds_validate_string(value_, node, 'METRIC') self.METRIC = value_ self.METRIC_nsprefix_ = child_.prefix elif nodeName_ == 'NETWORK_ADDRESS': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NETWORK_ADDRESS') value_ = self.gds_validate_string(value_, node, 'NETWORK_ADDRESS') self.NETWORK_ADDRESS = value_ self.NETWORK_ADDRESS_nsprefix_ = child_.prefix elif nodeName_ == 'NETWORK_MASK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NETWORK_MASK') value_ = self.gds_validate_string(value_, node, 'NETWORK_MASK') self.NETWORK_MASK = value_ self.NETWORK_MASK_nsprefix_ = child_.prefix elif nodeName_ == 'SEARCH_DOMAIN': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'SEARCH_DOMAIN') value_ = self.gds_validate_string(value_, node, 'SEARCH_DOMAIN') self.SEARCH_DOMAIN = value_ self.SEARCH_DOMAIN_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_FROM_WILD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_FROM_WILD') value_ = self.gds_validate_string(value_, node, 'VCENTER_FROM_WILD') self.VCENTER_FROM_WILD = value_ self.VCENTER_FROM_WILD_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_INSTANCE_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_INSTANCE_ID') value_ = self.gds_validate_string(value_, node, 'VCENTER_INSTANCE_ID') self.VCENTER_INSTANCE_ID = value_ self.VCENTER_INSTANCE_ID_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_NET_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_NET_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_NET_REF') self.VCENTER_NET_REF = value_ self.VCENTER_NET_REF_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_PORTGROUP_TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_PORTGROUP_TYPE') value_ = self.gds_validate_string(value_, node, 'VCENTER_PORTGROUP_TYPE') self.VCENTER_PORTGROUP_TYPE = value_ self.VCENTER_PORTGROUP_TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'VCENTER_TEMPLATE_REF': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VCENTER_TEMPLATE_REF') value_ = self.gds_validate_string(value_, node, 'VCENTER_TEMPLATE_REF') self.VCENTER_TEMPLATE_REF = value_ self.VCENTER_TEMPLATE_REF_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType127') self.anytypeobjs_.append(content_) # end class TEMPLATEType127 class AR_POOLType128(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, AR=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if AR is None: self.AR = [] else: self.AR = AR self.AR_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, AR_POOLType128) if subclass is not None: return subclass(*args_, **kwargs_) if AR_POOLType128.subclass: return AR_POOLType128.subclass(*args_, **kwargs_) else: return AR_POOLType128(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_AR(self): return self.AR def set_AR(self, AR): self.AR = AR def add_AR(self, value): self.AR.append(value) def insert_AR_at(self, index, value): self.AR.insert(index, value) def replace_AR_at(self, index, value): self.AR[index] = value def has__content(self): if ( self.AR ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AR_POOLType128', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('AR_POOLType128') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'AR_POOLType128': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='AR_POOLType128') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='AR_POOLType128', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='AR_POOLType128'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='AR_POOLType128', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for AR_ in self.AR: namespaceprefix_ = self.AR_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_nsprefix_) else '' AR_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='AR', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'AR': obj_ = ARType129.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.AR.append(obj_) obj_.original_tagname_ = 'AR' # end class AR_POOLType128 class ARType129(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, AR_ID=None, GLOBAL_PREFIX=None, IP=None, MAC=None, PARENT_NETWORK_AR_ID=None, SIZE=None, TYPE=None, ULA_PREFIX=None, VN_MAD=None, MAC_END=None, IP_END=None, IP6_ULA=None, IP6_ULA_END=None, IP6_GLOBAL=None, IP6_GLOBAL_END=None, IP6=None, IP6_END=None, PORT_START=None, PORT_SIZE=None, USED_LEASES=None, LEASES=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.AR_ID = AR_ID self.AR_ID_nsprefix_ = None self.GLOBAL_PREFIX = GLOBAL_PREFIX self.GLOBAL_PREFIX_nsprefix_ = None self.IP = IP self.IP_nsprefix_ = None self.MAC = MAC self.MAC_nsprefix_ = None self.PARENT_NETWORK_AR_ID = PARENT_NETWORK_AR_ID self.PARENT_NETWORK_AR_ID_nsprefix_ = None self.SIZE = SIZE self.SIZE_nsprefix_ = None self.TYPE = TYPE self.TYPE_nsprefix_ = None self.ULA_PREFIX = ULA_PREFIX self.ULA_PREFIX_nsprefix_ = None self.VN_MAD = VN_MAD self.VN_MAD_nsprefix_ = None self.MAC_END = MAC_END self.MAC_END_nsprefix_ = None self.IP_END = IP_END self.IP_END_nsprefix_ = None self.IP6_ULA = IP6_ULA self.IP6_ULA_nsprefix_ = None self.IP6_ULA_END = IP6_ULA_END self.IP6_ULA_END_nsprefix_ = None self.IP6_GLOBAL = IP6_GLOBAL self.IP6_GLOBAL_nsprefix_ = None self.IP6_GLOBAL_END = IP6_GLOBAL_END self.IP6_GLOBAL_END_nsprefix_ = None self.IP6 = IP6 self.IP6_nsprefix_ = None self.IP6_END = IP6_END self.IP6_END_nsprefix_ = None self.PORT_START = PORT_START self.PORT_START_nsprefix_ = None self.PORT_SIZE = PORT_SIZE self.PORT_SIZE_nsprefix_ = None self.USED_LEASES = USED_LEASES self.USED_LEASES_nsprefix_ = None self.LEASES = LEASES self.LEASES_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ARType129) if subclass is not None: return subclass(*args_, **kwargs_) if ARType129.subclass: return ARType129.subclass(*args_, **kwargs_) else: return ARType129(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_AR_ID(self): return self.AR_ID def set_AR_ID(self, AR_ID): self.AR_ID = AR_ID def get_GLOBAL_PREFIX(self): return self.GLOBAL_PREFIX def set_GLOBAL_PREFIX(self, GLOBAL_PREFIX): self.GLOBAL_PREFIX = GLOBAL_PREFIX def get_IP(self): return self.IP def set_IP(self, IP): self.IP = IP def get_MAC(self): return self.MAC def set_MAC(self, MAC): self.MAC = MAC def get_PARENT_NETWORK_AR_ID(self): return self.PARENT_NETWORK_AR_ID def set_PARENT_NETWORK_AR_ID(self, PARENT_NETWORK_AR_ID): self.PARENT_NETWORK_AR_ID = PARENT_NETWORK_AR_ID def get_SIZE(self): return self.SIZE def set_SIZE(self, SIZE): self.SIZE = SIZE def get_TYPE(self): return self.TYPE def set_TYPE(self, TYPE): self.TYPE = TYPE def get_ULA_PREFIX(self): return self.ULA_PREFIX def set_ULA_PREFIX(self, ULA_PREFIX): self.ULA_PREFIX = ULA_PREFIX def get_VN_MAD(self): return self.VN_MAD def set_VN_MAD(self, VN_MAD): self.VN_MAD = VN_MAD def get_MAC_END(self): return self.MAC_END def set_MAC_END(self, MAC_END): self.MAC_END = MAC_END def get_IP_END(self): return self.IP_END def set_IP_END(self, IP_END): self.IP_END = IP_END def get_IP6_ULA(self): return self.IP6_ULA def set_IP6_ULA(self, IP6_ULA): self.IP6_ULA = IP6_ULA def get_IP6_ULA_END(self): return self.IP6_ULA_END def set_IP6_ULA_END(self, IP6_ULA_END): self.IP6_ULA_END = IP6_ULA_END def get_IP6_GLOBAL(self): return self.IP6_GLOBAL def set_IP6_GLOBAL(self, IP6_GLOBAL): self.IP6_GLOBAL = IP6_GLOBAL def get_IP6_GLOBAL_END(self): return self.IP6_GLOBAL_END def set_IP6_GLOBAL_END(self, IP6_GLOBAL_END): self.IP6_GLOBAL_END = IP6_GLOBAL_END def get_IP6(self): return self.IP6 def set_IP6(self, IP6): self.IP6 = IP6 def get_IP6_END(self): return self.IP6_END def set_IP6_END(self, IP6_END): self.IP6_END = IP6_END def get_PORT_START(self): return self.PORT_START def set_PORT_START(self, PORT_START): self.PORT_START = PORT_START def get_PORT_SIZE(self): return self.PORT_SIZE def set_PORT_SIZE(self, PORT_SIZE): self.PORT_SIZE = PORT_SIZE def get_USED_LEASES(self): return self.USED_LEASES def set_USED_LEASES(self, USED_LEASES): self.USED_LEASES = USED_LEASES def get_LEASES(self): return self.LEASES def set_LEASES(self, LEASES): self.LEASES = LEASES def has__content(self): if ( self.AR_ID is not None or self.GLOBAL_PREFIX is not None or self.IP is not None or self.MAC is not None or self.PARENT_NETWORK_AR_ID is not None or self.SIZE is not None or self.TYPE is not None or self.ULA_PREFIX is not None or self.VN_MAD is not None or self.MAC_END is not None or self.IP_END is not None or self.IP6_ULA is not None or self.IP6_ULA_END is not None or self.IP6_GLOBAL is not None or self.IP6_GLOBAL_END is not None or self.IP6 is not None or self.IP6_END is not None or self.PORT_START is not None or self.PORT_SIZE is not None or self.USED_LEASES is not None or self.LEASES is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ARType129', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ARType129') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ARType129': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ARType129') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ARType129', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ARType129'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ARType129', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.AR_ID is not None: namespaceprefix_ = self.AR_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.AR_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sAR_ID>%s</%sAR_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.AR_ID), input_name='AR_ID')), namespaceprefix_ , eol_)) if self.GLOBAL_PREFIX is not None: namespaceprefix_ = self.GLOBAL_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.GLOBAL_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGLOBAL_PREFIX>%s</%sGLOBAL_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.GLOBAL_PREFIX), input_name='GLOBAL_PREFIX')), namespaceprefix_ , eol_)) if self.IP is not None: namespaceprefix_ = self.IP_nsprefix_ + ':' if (UseCapturedNS_ and self.IP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP>%s</%sIP>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP), input_name='IP')), namespaceprefix_ , eol_)) if self.MAC is not None: namespaceprefix_ = self.MAC_nsprefix_ + ':' if (UseCapturedNS_ and self.MAC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAC>%s</%sMAC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MAC), input_name='MAC')), namespaceprefix_ , eol_)) if self.PARENT_NETWORK_AR_ID is not None: namespaceprefix_ = self.PARENT_NETWORK_AR_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.PARENT_NETWORK_AR_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPARENT_NETWORK_AR_ID>%s</%sPARENT_NETWORK_AR_ID>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PARENT_NETWORK_AR_ID), input_name='PARENT_NETWORK_AR_ID')), namespaceprefix_ , eol_)) if self.SIZE is not None: namespaceprefix_ = self.SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSIZE>%s</%sSIZE>%s' % (namespaceprefix_ , self.gds_format_integer(self.SIZE, input_name='SIZE'), namespaceprefix_ , eol_)) if self.TYPE is not None: namespaceprefix_ = self.TYPE_nsprefix_ + ':' if (UseCapturedNS_ and self.TYPE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTYPE>%s</%sTYPE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.TYPE), input_name='TYPE')), namespaceprefix_ , eol_)) if self.ULA_PREFIX is not None: namespaceprefix_ = self.ULA_PREFIX_nsprefix_ + ':' if (UseCapturedNS_ and self.ULA_PREFIX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sULA_PREFIX>%s</%sULA_PREFIX>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ULA_PREFIX), input_name='ULA_PREFIX')), namespaceprefix_ , eol_)) if self.VN_MAD is not None: namespaceprefix_ = self.VN_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVN_MAD>%s</%sVN_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VN_MAD), input_name='VN_MAD')), namespaceprefix_ , eol_)) if self.MAC_END is not None: namespaceprefix_ = self.MAC_END_nsprefix_ + ':' if (UseCapturedNS_ and self.MAC_END_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAC_END>%s</%sMAC_END>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MAC_END), input_name='MAC_END')), namespaceprefix_ , eol_)) if self.IP_END is not None: namespaceprefix_ = self.IP_END_nsprefix_ + ':' if (UseCapturedNS_ and self.IP_END_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP_END>%s</%sIP_END>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP_END), input_name='IP_END')), namespaceprefix_ , eol_)) if self.IP6_ULA is not None: namespaceprefix_ = self.IP6_ULA_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_ULA_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_ULA>%s</%sIP6_ULA>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_ULA), input_name='IP6_ULA')), namespaceprefix_ , eol_)) if self.IP6_ULA_END is not None: namespaceprefix_ = self.IP6_ULA_END_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_ULA_END_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_ULA_END>%s</%sIP6_ULA_END>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_ULA_END), input_name='IP6_ULA_END')), namespaceprefix_ , eol_)) if self.IP6_GLOBAL is not None: namespaceprefix_ = self.IP6_GLOBAL_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_GLOBAL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_GLOBAL>%s</%sIP6_GLOBAL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_GLOBAL), input_name='IP6_GLOBAL')), namespaceprefix_ , eol_)) if self.IP6_GLOBAL_END is not None: namespaceprefix_ = self.IP6_GLOBAL_END_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_GLOBAL_END_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_GLOBAL_END>%s</%sIP6_GLOBAL_END>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_GLOBAL_END), input_name='IP6_GLOBAL_END')), namespaceprefix_ , eol_)) if self.IP6 is not None: namespaceprefix_ = self.IP6_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6>%s</%sIP6>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6), input_name='IP6')), namespaceprefix_ , eol_)) if self.IP6_END is not None: namespaceprefix_ = self.IP6_END_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_END_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_END>%s</%sIP6_END>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_END), input_name='IP6_END')), namespaceprefix_ , eol_)) if self.PORT_START is not None: namespaceprefix_ = self.PORT_START_nsprefix_ + ':' if (UseCapturedNS_ and self.PORT_START_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPORT_START>%s</%sPORT_START>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PORT_START), input_name='PORT_START')), namespaceprefix_ , eol_)) if self.PORT_SIZE is not None: namespaceprefix_ = self.PORT_SIZE_nsprefix_ + ':' if (UseCapturedNS_ and self.PORT_SIZE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sPORT_SIZE>%s</%sPORT_SIZE>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.PORT_SIZE), input_name='PORT_SIZE')), namespaceprefix_ , eol_)) if self.USED_LEASES is not None: namespaceprefix_ = self.USED_LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.USED_LEASES_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sUSED_LEASES>%s</%sUSED_LEASES>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.USED_LEASES), input_name='USED_LEASES')), namespaceprefix_ , eol_)) if self.LEASES is not None: namespaceprefix_ = self.LEASES_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASES_nsprefix_) else '' self.LEASES.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LEASES', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'AR_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'AR_ID') value_ = self.gds_validate_string(value_, node, 'AR_ID') self.AR_ID = value_ self.AR_ID_nsprefix_ = child_.prefix elif nodeName_ == 'GLOBAL_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'GLOBAL_PREFIX') value_ = self.gds_validate_string(value_, node, 'GLOBAL_PREFIX') self.GLOBAL_PREFIX = value_ self.GLOBAL_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'IP': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP') value_ = self.gds_validate_string(value_, node, 'IP') self.IP = value_ self.IP_nsprefix_ = child_.prefix elif nodeName_ == 'MAC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MAC') value_ = self.gds_validate_string(value_, node, 'MAC') self.MAC = value_ self.MAC_nsprefix_ = child_.prefix elif nodeName_ == 'PARENT_NETWORK_AR_ID': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PARENT_NETWORK_AR_ID') value_ = self.gds_validate_string(value_, node, 'PARENT_NETWORK_AR_ID') self.PARENT_NETWORK_AR_ID = value_ self.PARENT_NETWORK_AR_ID_nsprefix_ = child_.prefix elif nodeName_ == 'SIZE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'SIZE') ival_ = self.gds_validate_integer(ival_, node, 'SIZE') self.SIZE = ival_ self.SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'TYPE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'TYPE') value_ = self.gds_validate_string(value_, node, 'TYPE') self.TYPE = value_ self.TYPE_nsprefix_ = child_.prefix elif nodeName_ == 'ULA_PREFIX': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ULA_PREFIX') value_ = self.gds_validate_string(value_, node, 'ULA_PREFIX') self.ULA_PREFIX = value_ self.ULA_PREFIX_nsprefix_ = child_.prefix elif nodeName_ == 'VN_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VN_MAD') value_ = self.gds_validate_string(value_, node, 'VN_MAD') self.VN_MAD = value_ self.VN_MAD_nsprefix_ = child_.prefix elif nodeName_ == 'MAC_END': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MAC_END') value_ = self.gds_validate_string(value_, node, 'MAC_END') self.MAC_END = value_ self.MAC_END_nsprefix_ = child_.prefix elif nodeName_ == 'IP_END': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP_END') value_ = self.gds_validate_string(value_, node, 'IP_END') self.IP_END = value_ self.IP_END_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_ULA': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_ULA') value_ = self.gds_validate_string(value_, node, 'IP6_ULA') self.IP6_ULA = value_ self.IP6_ULA_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_ULA_END': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_ULA_END') value_ = self.gds_validate_string(value_, node, 'IP6_ULA_END') self.IP6_ULA_END = value_ self.IP6_ULA_END_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_GLOBAL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_GLOBAL') value_ = self.gds_validate_string(value_, node, 'IP6_GLOBAL') self.IP6_GLOBAL = value_ self.IP6_GLOBAL_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_GLOBAL_END': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_GLOBAL_END') value_ = self.gds_validate_string(value_, node, 'IP6_GLOBAL_END') self.IP6_GLOBAL_END = value_ self.IP6_GLOBAL_END_nsprefix_ = child_.prefix elif nodeName_ == 'IP6': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6') value_ = self.gds_validate_string(value_, node, 'IP6') self.IP6 = value_ self.IP6_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_END': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_END') value_ = self.gds_validate_string(value_, node, 'IP6_END') self.IP6_END = value_ self.IP6_END_nsprefix_ = child_.prefix elif nodeName_ == 'PORT_START': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PORT_START') value_ = self.gds_validate_string(value_, node, 'PORT_START') self.PORT_START = value_ self.PORT_START_nsprefix_ = child_.prefix elif nodeName_ == 'PORT_SIZE': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'PORT_SIZE') value_ = self.gds_validate_string(value_, node, 'PORT_SIZE') self.PORT_SIZE = value_ self.PORT_SIZE_nsprefix_ = child_.prefix elif nodeName_ == 'USED_LEASES': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'USED_LEASES') value_ = self.gds_validate_string(value_, node, 'USED_LEASES') self.USED_LEASES = value_ self.USED_LEASES_nsprefix_ = child_.prefix elif nodeName_ == 'LEASES': obj_ = LEASESType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LEASES = obj_ obj_.original_tagname_ = 'LEASES' # end class ARType129 class LEASESType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LEASE=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if LEASE is None: self.LEASE = [] else: self.LEASE = LEASE self.LEASE_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LEASESType) if subclass is not None: return subclass(*args_, **kwargs_) if LEASESType.subclass: return LEASESType.subclass(*args_, **kwargs_) else: return LEASESType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LEASE(self): return self.LEASE def set_LEASE(self, LEASE): self.LEASE = LEASE def add_LEASE(self, value): self.LEASE.append(value) def insert_LEASE_at(self, index, value): self.LEASE.insert(index, value) def replace_LEASE_at(self, index, value): self.LEASE[index] = value def has__content(self): if ( self.LEASE ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LEASESType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LEASESType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LEASESType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LEASESType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LEASESType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LEASESType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LEASESType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for LEASE_ in self.LEASE: namespaceprefix_ = self.LEASE_nsprefix_ + ':' if (UseCapturedNS_ and self.LEASE_nsprefix_) else '' LEASE_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='LEASE', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LEASE': obj_ = LEASEType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.LEASE.append(obj_) obj_.original_tagname_ = 'LEASE' # end class LEASESType class LEASEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, IP=None, IP6=None, IP6_GLOBAL=None, IP6_LINK=None, IP6_ULA=None, MAC=None, VM=None, VNET=None, VROUTER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.IP = IP self.IP_nsprefix_ = None self.IP6 = IP6 self.IP6_nsprefix_ = None self.IP6_GLOBAL = IP6_GLOBAL self.IP6_GLOBAL_nsprefix_ = None self.IP6_LINK = IP6_LINK self.IP6_LINK_nsprefix_ = None self.IP6_ULA = IP6_ULA self.IP6_ULA_nsprefix_ = None self.MAC = MAC self.MAC_nsprefix_ = None self.VM = VM self.VM_nsprefix_ = None self.VNET = VNET self.VNET_nsprefix_ = None self.VROUTER = VROUTER self.VROUTER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LEASEType) if subclass is not None: return subclass(*args_, **kwargs_) if LEASEType.subclass: return LEASEType.subclass(*args_, **kwargs_) else: return LEASEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_IP(self): return self.IP def set_IP(self, IP): self.IP = IP def get_IP6(self): return self.IP6 def set_IP6(self, IP6): self.IP6 = IP6 def get_IP6_GLOBAL(self): return self.IP6_GLOBAL def set_IP6_GLOBAL(self, IP6_GLOBAL): self.IP6_GLOBAL = IP6_GLOBAL def get_IP6_LINK(self): return self.IP6_LINK def set_IP6_LINK(self, IP6_LINK): self.IP6_LINK = IP6_LINK def get_IP6_ULA(self): return self.IP6_ULA def set_IP6_ULA(self, IP6_ULA): self.IP6_ULA = IP6_ULA def get_MAC(self): return self.MAC def set_MAC(self, MAC): self.MAC = MAC def get_VM(self): return self.VM def set_VM(self, VM): self.VM = VM def get_VNET(self): return self.VNET def set_VNET(self, VNET): self.VNET = VNET def get_VROUTER(self): return self.VROUTER def set_VROUTER(self, VROUTER): self.VROUTER = VROUTER def has__content(self): if ( self.IP is not None or self.IP6 is not None or self.IP6_GLOBAL is not None or self.IP6_LINK is not None or self.IP6_ULA is not None or self.MAC is not None or self.VM is not None or self.VNET is not None or self.VROUTER is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LEASEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LEASEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LEASEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LEASEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LEASEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LEASEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LEASEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.IP is not None: namespaceprefix_ = self.IP_nsprefix_ + ':' if (UseCapturedNS_ and self.IP_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP>%s</%sIP>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP), input_name='IP')), namespaceprefix_ , eol_)) if self.IP6 is not None: namespaceprefix_ = self.IP6_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6>%s</%sIP6>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6), input_name='IP6')), namespaceprefix_ , eol_)) if self.IP6_GLOBAL is not None: namespaceprefix_ = self.IP6_GLOBAL_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_GLOBAL_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_GLOBAL>%s</%sIP6_GLOBAL>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_GLOBAL), input_name='IP6_GLOBAL')), namespaceprefix_ , eol_)) if self.IP6_LINK is not None: namespaceprefix_ = self.IP6_LINK_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_LINK_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_LINK>%s</%sIP6_LINK>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_LINK), input_name='IP6_LINK')), namespaceprefix_ , eol_)) if self.IP6_ULA is not None: namespaceprefix_ = self.IP6_ULA_nsprefix_ + ':' if (UseCapturedNS_ and self.IP6_ULA_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sIP6_ULA>%s</%sIP6_ULA>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.IP6_ULA), input_name='IP6_ULA')), namespaceprefix_ , eol_)) if self.MAC is not None: namespaceprefix_ = self.MAC_nsprefix_ + ':' if (UseCapturedNS_ and self.MAC_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sMAC>%s</%sMAC>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.MAC), input_name='MAC')), namespaceprefix_ , eol_)) if self.VM is not None: namespaceprefix_ = self.VM_nsprefix_ + ':' if (UseCapturedNS_ and self.VM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVM>%s</%sVM>%s' % (namespaceprefix_ , self.gds_format_integer(self.VM, input_name='VM'), namespaceprefix_ , eol_)) if self.VNET is not None: namespaceprefix_ = self.VNET_nsprefix_ + ':' if (UseCapturedNS_ and self.VNET_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVNET>%s</%sVNET>%s' % (namespaceprefix_ , self.gds_format_integer(self.VNET, input_name='VNET'), namespaceprefix_ , eol_)) if self.VROUTER is not None: namespaceprefix_ = self.VROUTER_nsprefix_ + ':' if (UseCapturedNS_ and self.VROUTER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVROUTER>%s</%sVROUTER>%s' % (namespaceprefix_ , self.gds_format_integer(self.VROUTER, input_name='VROUTER'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'IP': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP') value_ = self.gds_validate_string(value_, node, 'IP') self.IP = value_ self.IP_nsprefix_ = child_.prefix elif nodeName_ == 'IP6': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6') value_ = self.gds_validate_string(value_, node, 'IP6') self.IP6 = value_ self.IP6_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_GLOBAL': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_GLOBAL') value_ = self.gds_validate_string(value_, node, 'IP6_GLOBAL') self.IP6_GLOBAL = value_ self.IP6_GLOBAL_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_LINK': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_LINK') value_ = self.gds_validate_string(value_, node, 'IP6_LINK') self.IP6_LINK = value_ self.IP6_LINK_nsprefix_ = child_.prefix elif nodeName_ == 'IP6_ULA': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'IP6_ULA') value_ = self.gds_validate_string(value_, node, 'IP6_ULA') self.IP6_ULA = value_ self.IP6_ULA_nsprefix_ = child_.prefix elif nodeName_ == 'MAC': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'MAC') value_ = self.gds_validate_string(value_, node, 'MAC') self.MAC = value_ self.MAC_nsprefix_ = child_.prefix elif nodeName_ == 'VM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VM') ival_ = self.gds_validate_integer(ival_, node, 'VM') self.VM = ival_ self.VM_nsprefix_ = child_.prefix elif nodeName_ == 'VNET' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VNET') ival_ = self.gds_validate_integer(ival_, node, 'VNET') self.VNET = ival_ self.VNET_nsprefix_ = child_.prefix elif nodeName_ == 'VROUTER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VROUTER') ival_ = self.gds_validate_integer(ival_, node, 'VROUTER') self.VROUTER = ival_ self.VROUTER_nsprefix_ = child_.prefix # end class LEASEType class LOCKType130(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType130) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType130.subclass: return LOCKType130.subclass(*args_, **kwargs_) else: return LOCKType130(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType130', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType130') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType130': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType130') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType130', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType130'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType130', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType130 class PERMISSIONSType131(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType131) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType131.subclass: return PERMISSIONSType131.subclass(*args_, **kwargs_) else: return PERMISSIONSType131(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType131', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType131') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType131': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType131') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType131', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType131'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType131', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType131 class TEMPLATEType132(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, VN_MAD=None, anytypeobjs_=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.VN_MAD = VN_MAD self.VN_MAD_nsprefix_ = None if anytypeobjs_ is None: self.anytypeobjs_ = [] else: self.anytypeobjs_ = anytypeobjs_ def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType132) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType132.subclass: return TEMPLATEType132.subclass(*args_, **kwargs_) else: return TEMPLATEType132(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_VN_MAD(self): return self.VN_MAD def set_VN_MAD(self, VN_MAD): self.VN_MAD = VN_MAD def get_anytypeobjs_(self): return self.anytypeobjs_ def set_anytypeobjs_(self, anytypeobjs_): self.anytypeobjs_ = anytypeobjs_ def add_anytypeobjs_(self, value): self.anytypeobjs_.append(value) def insert_anytypeobjs_(self, index, value): self._anytypeobjs_[index] = value def has__content(self): if ( self.VN_MAD is not None or self.anytypeobjs_ ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType132', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType132') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType132': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType132') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType132', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType132'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType132', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.VN_MAD is not None: namespaceprefix_ = self.VN_MAD_nsprefix_ + ':' if (UseCapturedNS_ and self.VN_MAD_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVN_MAD>%s</%sVN_MAD>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.VN_MAD), input_name='VN_MAD')), namespaceprefix_ , eol_)) if not fromsubclass_: for obj_ in self.anytypeobjs_: showIndent(outfile, level, pretty_print) outfile.write(str(obj_)) outfile.write('\n') def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'VN_MAD': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'VN_MAD') value_ = self.gds_validate_string(value_, node, 'VN_MAD') self.VN_MAD = value_ self.VN_MAD_nsprefix_ = child_.prefix else: content_ = self.gds_build_any(child_, 'TEMPLATEType132') self.anytypeobjs_.append(content_) # end class TEMPLATEType132 class PERMISSIONSType133(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, OWNER_U=None, OWNER_M=None, OWNER_A=None, GROUP_U=None, GROUP_M=None, GROUP_A=None, OTHER_U=None, OTHER_M=None, OTHER_A=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.OWNER_U = OWNER_U self.OWNER_U_nsprefix_ = None self.OWNER_M = OWNER_M self.OWNER_M_nsprefix_ = None self.OWNER_A = OWNER_A self.OWNER_A_nsprefix_ = None self.GROUP_U = GROUP_U self.GROUP_U_nsprefix_ = None self.GROUP_M = GROUP_M self.GROUP_M_nsprefix_ = None self.GROUP_A = GROUP_A self.GROUP_A_nsprefix_ = None self.OTHER_U = OTHER_U self.OTHER_U_nsprefix_ = None self.OTHER_M = OTHER_M self.OTHER_M_nsprefix_ = None self.OTHER_A = OTHER_A self.OTHER_A_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, PERMISSIONSType133) if subclass is not None: return subclass(*args_, **kwargs_) if PERMISSIONSType133.subclass: return PERMISSIONSType133.subclass(*args_, **kwargs_) else: return PERMISSIONSType133(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_OWNER_U(self): return self.OWNER_U def set_OWNER_U(self, OWNER_U): self.OWNER_U = OWNER_U def get_OWNER_M(self): return self.OWNER_M def set_OWNER_M(self, OWNER_M): self.OWNER_M = OWNER_M def get_OWNER_A(self): return self.OWNER_A def set_OWNER_A(self, OWNER_A): self.OWNER_A = OWNER_A def get_GROUP_U(self): return self.GROUP_U def set_GROUP_U(self, GROUP_U): self.GROUP_U = GROUP_U def get_GROUP_M(self): return self.GROUP_M def set_GROUP_M(self, GROUP_M): self.GROUP_M = GROUP_M def get_GROUP_A(self): return self.GROUP_A def set_GROUP_A(self, GROUP_A): self.GROUP_A = GROUP_A def get_OTHER_U(self): return self.OTHER_U def set_OTHER_U(self, OTHER_U): self.OTHER_U = OTHER_U def get_OTHER_M(self): return self.OTHER_M def set_OTHER_M(self, OTHER_M): self.OTHER_M = OTHER_M def get_OTHER_A(self): return self.OTHER_A def set_OTHER_A(self, OTHER_A): self.OTHER_A = OTHER_A def has__content(self): if ( self.OWNER_U is not None or self.OWNER_M is not None or self.OWNER_A is not None or self.GROUP_U is not None or self.GROUP_M is not None or self.GROUP_A is not None or self.OTHER_U is not None or self.OTHER_M is not None or self.OTHER_A is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType133', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('PERMISSIONSType133') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'PERMISSIONSType133': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='PERMISSIONSType133') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='PERMISSIONSType133', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='PERMISSIONSType133'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='PERMISSIONSType133', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.OWNER_U is not None: namespaceprefix_ = self.OWNER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_U>%s</%sOWNER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_U, input_name='OWNER_U'), namespaceprefix_ , eol_)) if self.OWNER_M is not None: namespaceprefix_ = self.OWNER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_M>%s</%sOWNER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_M, input_name='OWNER_M'), namespaceprefix_ , eol_)) if self.OWNER_A is not None: namespaceprefix_ = self.OWNER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER_A>%s</%sOWNER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER_A, input_name='OWNER_A'), namespaceprefix_ , eol_)) if self.GROUP_U is not None: namespaceprefix_ = self.GROUP_U_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_U>%s</%sGROUP_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_U, input_name='GROUP_U'), namespaceprefix_ , eol_)) if self.GROUP_M is not None: namespaceprefix_ = self.GROUP_M_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_M>%s</%sGROUP_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_M, input_name='GROUP_M'), namespaceprefix_ , eol_)) if self.GROUP_A is not None: namespaceprefix_ = self.GROUP_A_nsprefix_ + ':' if (UseCapturedNS_ and self.GROUP_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sGROUP_A>%s</%sGROUP_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.GROUP_A, input_name='GROUP_A'), namespaceprefix_ , eol_)) if self.OTHER_U is not None: namespaceprefix_ = self.OTHER_U_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_U_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_U>%s</%sOTHER_U>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_U, input_name='OTHER_U'), namespaceprefix_ , eol_)) if self.OTHER_M is not None: namespaceprefix_ = self.OTHER_M_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_M_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_M>%s</%sOTHER_M>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_M, input_name='OTHER_M'), namespaceprefix_ , eol_)) if self.OTHER_A is not None: namespaceprefix_ = self.OTHER_A_nsprefix_ + ':' if (UseCapturedNS_ and self.OTHER_A_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOTHER_A>%s</%sOTHER_A>%s' % (namespaceprefix_ , self.gds_format_integer(self.OTHER_A, input_name='OTHER_A'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'OWNER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_U') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_U') self.OWNER_U = ival_ self.OWNER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_M') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_M') self.OWNER_M = ival_ self.OWNER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER_A') ival_ = self.gds_validate_integer(ival_, node, 'OWNER_A') self.OWNER_A = ival_ self.OWNER_A_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_U') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_U') self.GROUP_U = ival_ self.GROUP_U_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_M') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_M') self.GROUP_M = ival_ self.GROUP_M_nsprefix_ = child_.prefix elif nodeName_ == 'GROUP_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'GROUP_A') ival_ = self.gds_validate_integer(ival_, node, 'GROUP_A') self.GROUP_A = ival_ self.GROUP_A_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_U' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_U') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_U') self.OTHER_U = ival_ self.OTHER_U_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_M' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_M') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_M') self.OTHER_M = ival_ self.OTHER_M_nsprefix_ = child_.prefix elif nodeName_ == 'OTHER_A' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OTHER_A') ival_ = self.gds_validate_integer(ival_, node, 'OTHER_A') self.OTHER_A = ival_ self.OTHER_A_nsprefix_ = child_.prefix # end class PERMISSIONSType133 class LOCKType134(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, LOCKED=None, OWNER=None, TIME=None, REQ_ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.LOCKED = LOCKED self.LOCKED_nsprefix_ = None self.OWNER = OWNER self.OWNER_nsprefix_ = None self.TIME = TIME self.TIME_nsprefix_ = None self.REQ_ID = REQ_ID self.REQ_ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, LOCKType134) if subclass is not None: return subclass(*args_, **kwargs_) if LOCKType134.subclass: return LOCKType134.subclass(*args_, **kwargs_) else: return LOCKType134(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_LOCKED(self): return self.LOCKED def set_LOCKED(self, LOCKED): self.LOCKED = LOCKED def get_OWNER(self): return self.OWNER def set_OWNER(self, OWNER): self.OWNER = OWNER def get_TIME(self): return self.TIME def set_TIME(self, TIME): self.TIME = TIME def get_REQ_ID(self): return self.REQ_ID def set_REQ_ID(self, REQ_ID): self.REQ_ID = REQ_ID def has__content(self): if ( self.LOCKED is not None or self.OWNER is not None or self.TIME is not None or self.REQ_ID is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType134', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('LOCKType134') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'LOCKType134': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='LOCKType134') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='LOCKType134', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='LOCKType134'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='LOCKType134', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.LOCKED is not None: namespaceprefix_ = self.LOCKED_nsprefix_ + ':' if (UseCapturedNS_ and self.LOCKED_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOCKED>%s</%sLOCKED>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOCKED, input_name='LOCKED'), namespaceprefix_ , eol_)) if self.OWNER is not None: namespaceprefix_ = self.OWNER_nsprefix_ + ':' if (UseCapturedNS_ and self.OWNER_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sOWNER>%s</%sOWNER>%s' % (namespaceprefix_ , self.gds_format_integer(self.OWNER, input_name='OWNER'), namespaceprefix_ , eol_)) if self.TIME is not None: namespaceprefix_ = self.TIME_nsprefix_ + ':' if (UseCapturedNS_ and self.TIME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTIME>%s</%sTIME>%s' % (namespaceprefix_ , self.gds_format_integer(self.TIME, input_name='TIME'), namespaceprefix_ , eol_)) if self.REQ_ID is not None: namespaceprefix_ = self.REQ_ID_nsprefix_ + ':' if (UseCapturedNS_ and self.REQ_ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sREQ_ID>%s</%sREQ_ID>%s' % (namespaceprefix_ , self.gds_format_integer(self.REQ_ID, input_name='REQ_ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'LOCKED' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOCKED') ival_ = self.gds_validate_integer(ival_, node, 'LOCKED') self.LOCKED = ival_ self.LOCKED_nsprefix_ = child_.prefix elif nodeName_ == 'OWNER' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'OWNER') ival_ = self.gds_validate_integer(ival_, node, 'OWNER') self.OWNER = ival_ self.OWNER_nsprefix_ = child_.prefix elif nodeName_ == 'TIME' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TIME') ival_ = self.gds_validate_integer(ival_, node, 'TIME') self.TIME = ival_ self.TIME_nsprefix_ = child_.prefix elif nodeName_ == 'REQ_ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'REQ_ID') ival_ = self.gds_validate_integer(ival_, node, 'REQ_ID') self.REQ_ID = ival_ self.REQ_ID_nsprefix_ = child_.prefix # end class LOCKType134 class VMSType135(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if ID is None: self.ID = [] else: self.ID = ID self.ID_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, VMSType135) if subclass is not None: return subclass(*args_, **kwargs_) if VMSType135.subclass: return VMSType135.subclass(*args_, **kwargs_) else: return VMSType135(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def add_ID(self, value): self.ID.append(value) def insert_ID_at(self, index, value): self.ID.insert(index, value) def replace_ID_at(self, index, value): self.ID[index] = value def has__content(self): if ( self.ID ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType135', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('VMSType135') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'VMSType135': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='VMSType135') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='VMSType135', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='VMSType135'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='VMSType135', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for ID_ in self.ID: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(ID_, input_name='ID'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID.append(ival_) self.ID_nsprefix_ = child_.prefix # end class VMSType135 class ZONEType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ID=None, NAME=None, STATE=None, TEMPLATE=None, SERVER_POOL=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.TEMPLATE = TEMPLATE self.TEMPLATE_nsprefix_ = None self.SERVER_POOL = SERVER_POOL self.SERVER_POOL_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, ZONEType) if subclass is not None: return subclass(*args_, **kwargs_) if ZONEType.subclass: return ZONEType.subclass(*args_, **kwargs_) else: return ZONEType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_TEMPLATE(self): return self.TEMPLATE def set_TEMPLATE(self, TEMPLATE): self.TEMPLATE = TEMPLATE def get_SERVER_POOL(self): return self.SERVER_POOL def set_SERVER_POOL(self, SERVER_POOL): self.SERVER_POOL = SERVER_POOL def has__content(self): if ( self.ID is not None or self.NAME is not None or self.STATE is not None or self.TEMPLATE is not None or self.SERVER_POOL is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONEType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('ZONEType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'ZONEType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='ZONEType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='ZONEType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='ZONEType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='ZONEType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.TEMPLATE is not None: namespaceprefix_ = self.TEMPLATE_nsprefix_ + ':' if (UseCapturedNS_ and self.TEMPLATE_nsprefix_) else '' self.TEMPLATE.export(outfile, level, namespaceprefix_, namespacedef_='', name_='TEMPLATE', pretty_print=pretty_print) if self.SERVER_POOL is not None: namespaceprefix_ = self.SERVER_POOL_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_POOL_nsprefix_) else '' self.SERVER_POOL.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SERVER_POOL', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'TEMPLATE': obj_ = TEMPLATEType136.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.TEMPLATE = obj_ obj_.original_tagname_ = 'TEMPLATE' elif nodeName_ == 'SERVER_POOL': obj_ = SERVER_POOLType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SERVER_POOL = obj_ obj_.original_tagname_ = 'SERVER_POOL' # end class ZONEType class TEMPLATEType136(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ENDPOINT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ENDPOINT = ENDPOINT self.ENDPOINT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType136) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType136.subclass: return TEMPLATEType136.subclass(*args_, **kwargs_) else: return TEMPLATEType136(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ENDPOINT(self): return self.ENDPOINT def set_ENDPOINT(self, ENDPOINT): self.ENDPOINT = ENDPOINT def has__content(self): if ( self.ENDPOINT is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType136', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType136') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType136': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType136') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType136', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType136'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType136', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ENDPOINT is not None: namespaceprefix_ = self.ENDPOINT_nsprefix_ + ':' if (UseCapturedNS_ and self.ENDPOINT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENDPOINT>%s</%sENDPOINT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ENDPOINT), input_name='ENDPOINT')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ENDPOINT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ENDPOINT') value_ = self.gds_validate_string(value_, node, 'ENDPOINT') self.ENDPOINT = value_ self.ENDPOINT_nsprefix_ = child_.prefix # end class TEMPLATEType136 class SERVER_POOLType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, SERVER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if SERVER is None: self.SERVER = [] else: self.SERVER = SERVER self.SERVER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SERVER_POOLType) if subclass is not None: return subclass(*args_, **kwargs_) if SERVER_POOLType.subclass: return SERVER_POOLType.subclass(*args_, **kwargs_) else: return SERVER_POOLType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_SERVER(self): return self.SERVER def set_SERVER(self, SERVER): self.SERVER = SERVER def add_SERVER(self, value): self.SERVER.append(value) def insert_SERVER_at(self, index, value): self.SERVER.insert(index, value) def replace_SERVER_at(self, index, value): self.SERVER[index] = value def has__content(self): if ( self.SERVER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVER_POOLType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SERVER_POOLType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SERVER_POOLType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SERVER_POOLType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SERVER_POOLType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SERVER_POOLType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVER_POOLType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for SERVER_ in self.SERVER: namespaceprefix_ = self.SERVER_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_nsprefix_) else '' SERVER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SERVER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'SERVER': obj_ = SERVERType.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SERVER.append(obj_) obj_.original_tagname_ = 'SERVER' # end class SERVER_POOLType class SERVERType(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ENDPOINT=None, ID=None, NAME=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ENDPOINT = ENDPOINT self.ENDPOINT_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SERVERType) if subclass is not None: return subclass(*args_, **kwargs_) if SERVERType.subclass: return SERVERType.subclass(*args_, **kwargs_) else: return SERVERType(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ENDPOINT(self): return self.ENDPOINT def set_ENDPOINT(self, ENDPOINT): self.ENDPOINT = ENDPOINT def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def has__content(self): if ( self.ENDPOINT is not None or self.ID is not None or self.NAME is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVERType', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SERVERType') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SERVERType': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SERVERType') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SERVERType', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SERVERType'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVERType', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ENDPOINT is not None: namespaceprefix_ = self.ENDPOINT_nsprefix_ + ':' if (UseCapturedNS_ and self.ENDPOINT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENDPOINT>%s</%sENDPOINT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ENDPOINT), input_name='ENDPOINT')), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ENDPOINT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ENDPOINT') value_ = self.gds_validate_string(value_, node, 'ENDPOINT') self.ENDPOINT = value_ self.ENDPOINT_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix # end class SERVERType class TEMPLATEType137(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ENDPOINT=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ENDPOINT = ENDPOINT self.ENDPOINT_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, TEMPLATEType137) if subclass is not None: return subclass(*args_, **kwargs_) if TEMPLATEType137.subclass: return TEMPLATEType137.subclass(*args_, **kwargs_) else: return TEMPLATEType137(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ENDPOINT(self): return self.ENDPOINT def set_ENDPOINT(self, ENDPOINT): self.ENDPOINT = ENDPOINT def has__content(self): if ( self.ENDPOINT is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType137', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('TEMPLATEType137') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'TEMPLATEType137': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='TEMPLATEType137') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='TEMPLATEType137', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='TEMPLATEType137'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='TEMPLATEType137', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ENDPOINT is not None: namespaceprefix_ = self.ENDPOINT_nsprefix_ + ':' if (UseCapturedNS_ and self.ENDPOINT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENDPOINT>%s</%sENDPOINT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ENDPOINT), input_name='ENDPOINT')), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ENDPOINT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ENDPOINT') value_ = self.gds_validate_string(value_, node, 'ENDPOINT') self.ENDPOINT = value_ self.ENDPOINT_nsprefix_ = child_.prefix # end class TEMPLATEType137 class SERVER_POOLType138(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, SERVER=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None if SERVER is None: self.SERVER = [] else: self.SERVER = SERVER self.SERVER_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SERVER_POOLType138) if subclass is not None: return subclass(*args_, **kwargs_) if SERVER_POOLType138.subclass: return SERVER_POOLType138.subclass(*args_, **kwargs_) else: return SERVER_POOLType138(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_SERVER(self): return self.SERVER def set_SERVER(self, SERVER): self.SERVER = SERVER def add_SERVER(self, value): self.SERVER.append(value) def insert_SERVER_at(self, index, value): self.SERVER.insert(index, value) def replace_SERVER_at(self, index, value): self.SERVER[index] = value def has__content(self): if ( self.SERVER ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVER_POOLType138', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SERVER_POOLType138') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SERVER_POOLType138': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SERVER_POOLType138') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SERVER_POOLType138', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SERVER_POOLType138'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVER_POOLType138', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' for SERVER_ in self.SERVER: namespaceprefix_ = self.SERVER_nsprefix_ + ':' if (UseCapturedNS_ and self.SERVER_nsprefix_) else '' SERVER_.export(outfile, level, namespaceprefix_, namespacedef_='', name_='SERVER', pretty_print=pretty_print) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'SERVER': obj_ = SERVERType139.factory(parent_object_=self) obj_.build(child_, gds_collector_=gds_collector_) self.SERVER.append(obj_) obj_.original_tagname_ = 'SERVER' # end class SERVER_POOLType138 class SERVERType139(GeneratedsSuper): __hash__ = GeneratedsSuper.__hash__ subclass = None superclass = None def __init__(self, ENDPOINT=None, ID=None, NAME=None, STATE=None, TERM=None, VOTEDFOR=None, COMMIT=None, LOG_INDEX=None, FEDLOG_INDEX=None, gds_collector_=None, **kwargs_): self.gds_collector_ = gds_collector_ self.gds_elementtree_node_ = None self.original_tagname_ = None self.parent_object_ = kwargs_.get('parent_object_') self.ns_prefix_ = None self.ENDPOINT = ENDPOINT self.ENDPOINT_nsprefix_ = None self.ID = ID self.ID_nsprefix_ = None self.NAME = NAME self.NAME_nsprefix_ = None self.STATE = STATE self.STATE_nsprefix_ = None self.TERM = TERM self.TERM_nsprefix_ = None self.VOTEDFOR = VOTEDFOR self.VOTEDFOR_nsprefix_ = None self.COMMIT = COMMIT self.COMMIT_nsprefix_ = None self.LOG_INDEX = LOG_INDEX self.LOG_INDEX_nsprefix_ = None self.FEDLOG_INDEX = FEDLOG_INDEX self.FEDLOG_INDEX_nsprefix_ = None def factory(*args_, **kwargs_): if CurrentSubclassModule_ is not None: subclass = getSubclassFromModule_( CurrentSubclassModule_, SERVERType139) if subclass is not None: return subclass(*args_, **kwargs_) if SERVERType139.subclass: return SERVERType139.subclass(*args_, **kwargs_) else: return SERVERType139(*args_, **kwargs_) factory = staticmethod(factory) def get_ns_prefix_(self): return self.ns_prefix_ def set_ns_prefix_(self, ns_prefix): self.ns_prefix_ = ns_prefix def get_ENDPOINT(self): return self.ENDPOINT def set_ENDPOINT(self, ENDPOINT): self.ENDPOINT = ENDPOINT def get_ID(self): return self.ID def set_ID(self, ID): self.ID = ID def get_NAME(self): return self.NAME def set_NAME(self, NAME): self.NAME = NAME def get_STATE(self): return self.STATE def set_STATE(self, STATE): self.STATE = STATE def get_TERM(self): return self.TERM def set_TERM(self, TERM): self.TERM = TERM def get_VOTEDFOR(self): return self.VOTEDFOR def set_VOTEDFOR(self, VOTEDFOR): self.VOTEDFOR = VOTEDFOR def get_COMMIT(self): return self.COMMIT def set_COMMIT(self, COMMIT): self.COMMIT = COMMIT def get_LOG_INDEX(self): return self.LOG_INDEX def set_LOG_INDEX(self, LOG_INDEX): self.LOG_INDEX = LOG_INDEX def get_FEDLOG_INDEX(self): return self.FEDLOG_INDEX def set_FEDLOG_INDEX(self, FEDLOG_INDEX): self.FEDLOG_INDEX = FEDLOG_INDEX def has__content(self): if ( self.ENDPOINT is not None or self.ID is not None or self.NAME is not None or self.STATE is not None or self.TERM is not None or self.VOTEDFOR is not None or self.COMMIT is not None or self.LOG_INDEX is not None or self.FEDLOG_INDEX is not None ): return True else: return False def export(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVERType139', pretty_print=True): imported_ns_def_ = GenerateDSNamespaceDefs_.get('SERVERType139') if imported_ns_def_ is not None: namespacedef_ = imported_ns_def_ if pretty_print: eol_ = '\n' else: eol_ = '' if self.original_tagname_ is not None and name_ == 'SERVERType139': name_ = self.original_tagname_ if UseCapturedNS_ and self.ns_prefix_: namespaceprefix_ = self.ns_prefix_ + ':' showIndent(outfile, level, pretty_print) outfile.write('<%s%s%s' % (namespaceprefix_, name_, namespacedef_ and ' ' + namespacedef_ or '', )) already_processed = set() self._exportAttributes(outfile, level, already_processed, namespaceprefix_, name_='SERVERType139') if self.has__content(): outfile.write('>%s' % (eol_, )) self._exportChildren(outfile, level + 1, namespaceprefix_, namespacedef_, name_='SERVERType139', pretty_print=pretty_print) showIndent(outfile, level, pretty_print) outfile.write('</%s%s>%s' % (namespaceprefix_, name_, eol_)) else: outfile.write('/>%s' % (eol_, )) def _exportAttributes(self, outfile, level, already_processed, namespaceprefix_='', name_='SERVERType139'): pass def _exportChildren(self, outfile, level, namespaceprefix_='', namespacedef_=' xmlns:None="http://opennebula.org/XMLSchema" ', name_='SERVERType139', fromsubclass_=False, pretty_print=True): if pretty_print: eol_ = '\n' else: eol_ = '' if self.ENDPOINT is not None: namespaceprefix_ = self.ENDPOINT_nsprefix_ + ':' if (UseCapturedNS_ and self.ENDPOINT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sENDPOINT>%s</%sENDPOINT>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.ENDPOINT), input_name='ENDPOINT')), namespaceprefix_ , eol_)) if self.ID is not None: namespaceprefix_ = self.ID_nsprefix_ + ':' if (UseCapturedNS_ and self.ID_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sID>%s</%sID>%s' % (namespaceprefix_ , self.gds_format_integer(self.ID, input_name='ID'), namespaceprefix_ , eol_)) if self.NAME is not None: namespaceprefix_ = self.NAME_nsprefix_ + ':' if (UseCapturedNS_ and self.NAME_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sNAME>%s</%sNAME>%s' % (namespaceprefix_ , self.gds_encode(self.gds_format_string(quote_xml(self.NAME), input_name='NAME')), namespaceprefix_ , eol_)) if self.STATE is not None: namespaceprefix_ = self.STATE_nsprefix_ + ':' if (UseCapturedNS_ and self.STATE_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sSTATE>%s</%sSTATE>%s' % (namespaceprefix_ , self.gds_format_integer(self.STATE, input_name='STATE'), namespaceprefix_ , eol_)) if self.TERM is not None: namespaceprefix_ = self.TERM_nsprefix_ + ':' if (UseCapturedNS_ and self.TERM_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sTERM>%s</%sTERM>%s' % (namespaceprefix_ , self.gds_format_integer(self.TERM, input_name='TERM'), namespaceprefix_ , eol_)) if self.VOTEDFOR is not None: namespaceprefix_ = self.VOTEDFOR_nsprefix_ + ':' if (UseCapturedNS_ and self.VOTEDFOR_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sVOTEDFOR>%s</%sVOTEDFOR>%s' % (namespaceprefix_ , self.gds_format_integer(self.VOTEDFOR, input_name='VOTEDFOR'), namespaceprefix_ , eol_)) if self.COMMIT is not None: namespaceprefix_ = self.COMMIT_nsprefix_ + ':' if (UseCapturedNS_ and self.COMMIT_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sCOMMIT>%s</%sCOMMIT>%s' % (namespaceprefix_ , self.gds_format_integer(self.COMMIT, input_name='COMMIT'), namespaceprefix_ , eol_)) if self.LOG_INDEX is not None: namespaceprefix_ = self.LOG_INDEX_nsprefix_ + ':' if (UseCapturedNS_ and self.LOG_INDEX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sLOG_INDEX>%s</%sLOG_INDEX>%s' % (namespaceprefix_ , self.gds_format_integer(self.LOG_INDEX, input_name='LOG_INDEX'), namespaceprefix_ , eol_)) if self.FEDLOG_INDEX is not None: namespaceprefix_ = self.FEDLOG_INDEX_nsprefix_ + ':' if (UseCapturedNS_ and self.FEDLOG_INDEX_nsprefix_) else '' showIndent(outfile, level, pretty_print) outfile.write('<%sFEDLOG_INDEX>%s</%sFEDLOG_INDEX>%s' % (namespaceprefix_ , self.gds_format_integer(self.FEDLOG_INDEX, input_name='FEDLOG_INDEX'), namespaceprefix_ , eol_)) def build(self, node, gds_collector_=None): self.gds_collector_ = gds_collector_ if SaveElementTreeNode: self.gds_elementtree_node_ = node already_processed = set() self.ns_prefix_ = node.prefix self._buildAttributes(node, node.attrib, already_processed) for child in node: nodeName_ = Tag_pattern_.match(child.tag).groups()[-1] self._buildChildren(child, node, nodeName_, gds_collector_=gds_collector_) return self def _buildAttributes(self, node, attrs, already_processed): pass def _buildChildren(self, child_, node, nodeName_, fromsubclass_=False, gds_collector_=None): if nodeName_ == 'ENDPOINT': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'ENDPOINT') value_ = self.gds_validate_string(value_, node, 'ENDPOINT') self.ENDPOINT = value_ self.ENDPOINT_nsprefix_ = child_.prefix elif nodeName_ == 'ID' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'ID') ival_ = self.gds_validate_integer(ival_, node, 'ID') self.ID = ival_ self.ID_nsprefix_ = child_.prefix elif nodeName_ == 'NAME': value_ = child_.text value_ = self.gds_parse_string(value_, node, 'NAME') value_ = self.gds_validate_string(value_, node, 'NAME') self.NAME = value_ self.NAME_nsprefix_ = child_.prefix elif nodeName_ == 'STATE' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'STATE') ival_ = self.gds_validate_integer(ival_, node, 'STATE') self.STATE = ival_ self.STATE_nsprefix_ = child_.prefix elif nodeName_ == 'TERM' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'TERM') ival_ = self.gds_validate_integer(ival_, node, 'TERM') self.TERM = ival_ self.TERM_nsprefix_ = child_.prefix elif nodeName_ == 'VOTEDFOR' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'VOTEDFOR') ival_ = self.gds_validate_integer(ival_, node, 'VOTEDFOR') self.VOTEDFOR = ival_ self.VOTEDFOR_nsprefix_ = child_.prefix elif nodeName_ == 'COMMIT' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'COMMIT') ival_ = self.gds_validate_integer(ival_, node, 'COMMIT') self.COMMIT = ival_ self.COMMIT_nsprefix_ = child_.prefix elif nodeName_ == 'LOG_INDEX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'LOG_INDEX') ival_ = self.gds_validate_integer(ival_, node, 'LOG_INDEX') self.LOG_INDEX = ival_ self.LOG_INDEX_nsprefix_ = child_.prefix elif nodeName_ == 'FEDLOG_INDEX' and child_.text: sval_ = child_.text ival_ = self.gds_parse_integer(sval_, node, 'FEDLOG_INDEX') ival_ = self.gds_validate_integer(ival_, node, 'FEDLOG_INDEX') self.FEDLOG_INDEX = ival_ self.FEDLOG_INDEX_nsprefix_ = child_.prefix # end class SERVERType139 # # End data representation classes. # GDSClassesMapping = { } USAGE_TEXT = """ Usage: python <Parser>.py [ -s ] <in_xml_file> """ def usage(): print(USAGE_TEXT) sys.exit(1) def get_root_tag(node): tag = Tag_pattern_.match(node.tag).groups()[-1] prefix_tag = TagNamePrefix + tag rootClass = GDSClassesMapping.get(prefix_tag) if rootClass is None: rootClass = globals().get(prefix_tag) return tag, rootClass def get_required_ns_prefix_defs(rootNode): '''Get all name space prefix definitions required in this XML doc. Return a dictionary of definitions and a char string of definitions. ''' nsmap = { prefix: uri for node in rootNode.iter() for (prefix, uri) in node.nsmap.items() if prefix is not None } namespacedefs = ' '.join([ 'xmlns:{}="{}"'.format(prefix, uri) for prefix, uri in nsmap.items() ]) return nsmap, namespacedefs def parse(inFileName, silence=False, print_warnings=True): global CapturedNsmap_ gds_collector = GdsCollector_() parser = None doc = parsexml_(inFileName, parser) rootNode = doc.getroot() rootTag, rootClass = get_root_tag(rootNode) if rootClass is None: rootTag = 'HISTORY_RECORDS' rootClass = HISTORY_RECORDS rootObj = rootClass.factory() rootObj.build(rootNode, gds_collector_=gds_collector) CapturedNsmap_, namespacedefs = get_required_ns_prefix_defs(rootNode) if not SaveElementTreeNode: doc = None rootNode = None ## if not silence: ## sys.stdout.write('<?xml version="1.0" ?>\n') ## rootObj.export( ## sys.stdout, 0, name_=rootTag, ## namespacedef_=namespacedefs, ## pretty_print=True) if print_warnings and len(gds_collector.get_messages()) > 0: separator = ('-' * 50) + '\n' sys.stderr.write(separator) sys.stderr.write('----- Warnings -- count: {} -----\n'.format( len(gds_collector.get_messages()), )) gds_collector.write_messages(sys.stderr) sys.stderr.write(separator) return rootObj def parseEtree(inFileName, silence=False, print_warnings=True, mapping=None, reverse_mapping=None, nsmap=None): parser = None doc = parsexml_(inFileName, parser) gds_collector = GdsCollector_() rootNode = doc.getroot() rootTag, rootClass = get_root_tag(rootNode) if rootClass is None: rootTag = 'HISTORY_RECORDS' rootClass = HISTORY_RECORDS rootObj = rootClass.factory() rootObj.build(rootNode, gds_collector_=gds_collector) if mapping is None: mapping = {} if reverse_mapping is None: reverse_mapping = {} rootElement = rootObj.to_etree( None, name_=rootTag, mapping_=mapping, reverse_mapping_=reverse_mapping, nsmap_=nsmap) reverse_node_mapping = rootObj.gds_reverse_node_mapping(mapping) # Enable Python to collect the space used by the DOM. if not SaveElementTreeNode: doc = None rootNode = None ## if not silence: ## content = etree_.tostring( ## rootElement, pretty_print=True, ## xml_declaration=True, encoding="utf-8") ## sys.stdout.write(str(content)) ## sys.stdout.write('\n') if print_warnings and len(gds_collector.get_messages()) > 0: separator = ('-' * 50) + '\n' sys.stderr.write(separator) sys.stderr.write('----- Warnings -- count: {} -----\n'.format( len(gds_collector.get_messages()), )) gds_collector.write_messages(sys.stderr) sys.stderr.write(separator) return rootObj, rootElement, mapping, reverse_node_mapping def parseString(inString, silence=False, print_warnings=True): '''Parse a string, create the object tree, and export it. Arguments: - inString -- A string. This XML fragment should not start with an XML declaration containing an encoding. - silence -- A boolean. If False, export the object. Returns -- The root object in the tree. ''' parser = None rootNode= parsexmlstring_(inString, parser) gds_collector = GdsCollector_() rootTag, rootClass = get_root_tag(rootNode) if rootClass is None: rootTag = 'HISTORY_RECORDS' rootClass = HISTORY_RECORDS rootObj = rootClass.factory() rootObj.build(rootNode, gds_collector_=gds_collector) if not SaveElementTreeNode: rootNode = None ## if not silence: ## sys.stdout.write('<?xml version="1.0" ?>\n') ## rootObj.export( ## sys.stdout, 0, name_=rootTag, ## namespacedef_='') if print_warnings and len(gds_collector.get_messages()) > 0: separator = ('-' * 50) + '\n' sys.stderr.write(separator) sys.stderr.write('----- Warnings -- count: {} -----\n'.format( len(gds_collector.get_messages()), )) gds_collector.write_messages(sys.stderr) sys.stderr.write(separator) return rootObj def parseLiteral(inFileName, silence=False, print_warnings=True): parser = None doc = parsexml_(inFileName, parser) gds_collector = GdsCollector_() rootNode = doc.getroot() rootTag, rootClass = get_root_tag(rootNode) if rootClass is None: rootTag = 'HISTORY_RECORDS' rootClass = HISTORY_RECORDS rootObj = rootClass.factory() rootObj.build(rootNode, gds_collector_=gds_collector) # Enable Python to collect the space used by the DOM. if not SaveElementTreeNode: doc = None rootNode = None ## if not silence: ## sys.stdout.write('#from supbind import *\n\n') ## sys.stdout.write('import supbind as model_\n\n') ## sys.stdout.write('rootObj = model_.rootClass(\n') ## rootObj.exportLiteral(sys.stdout, 0, name_=rootTag) ## sys.stdout.write(')\n') if print_warnings and len(gds_collector.get_messages()) > 0: separator = ('-' * 50) + '\n' sys.stderr.write(separator) sys.stderr.write('----- Warnings -- count: {} -----\n'.format( len(gds_collector.get_messages()), )) gds_collector.write_messages(sys.stderr) sys.stderr.write(separator) return rootObj def main(): args = sys.argv[1:] if len(args) == 1: parse(args[0]) else: usage() if __name__ == '__main__': #import pdb; pdb.set_trace() main() RenameMappings_ = { } # # Mapping of namespaces to types defined in them # and the file in which each is defined. # simpleTypes are marked "ST" and complexTypes "CT". NamespaceToDefMappings_ = {'http://opennebula.org/XMLSchema': [('LOCK', '../../../share/doc/xsd/shared.xsd', 'CT'), ('PERMISSIONS', '../../../share/doc/xsd/shared.xsd', 'CT'), ('IDS', '../../../share/doc/xsd/shared.xsd', 'CT'), ('SCHED_ACTION', '../../../share/doc/xsd/shared.xsd', 'CT')]} __all__ = [ "ACLType", "ACL_POOL", "ADMINSType", "ADMINSType14", "APP_CLONESType", "ARType", "ARType129", "AR_POOLType", "AR_POOLType128", "AUTH_MADType", "AUTH_MAD_CONFType", "BACKUPJOB", "BACKUPJOB_POOL", "BACKUPSType", "BACKUPSType110", "BACKUP_CONFIGType", "BACKUP_CONFIGType111", "BACKUP_IDSType", "BACKUP_INCREMENTSType", "CALL_INFO", "CAPACITYType", "CLONESType", "CLUSTER", "CLUSTERSType", "CLUSTERSType114", "CLUSTERSType121", "CLUSTERSType86", "CLUSTERType", "CLUSTER_POOL", "CONTEXT", "COREType", "DATASTORE", "DATASTORESType", "DATASTORESType33", "DATASTORESType88", "DATASTOREType", "DATASTOREType16", "DATASTOREType25", "DATASTOREType51", "DATASTOREType59", "DATASTOREType6", "DATASTOREType69", "DATASTOREType78", "DATASTOREType89", "DATASTORE_MADType", "DATASTORE_POOL", "DATASTORE_QUOTAType", "DATASTORE_QUOTAType15", "DATASTORE_QUOTAType24", "DATASTORE_QUOTAType5", "DATASTORE_QUOTAType50", "DATASTORE_QUOTAType58", "DATASTORE_QUOTAType68", "DATASTORE_QUOTAType77", "DBType", "DEFAULT_COSTType", "DEFAULT_GROUP_QUOTASType", "DEFAULT_GROUP_QUOTASType23", "DEFAULT_USER_QUOTASType", "DEFAULT_USER_QUOTASType76", "DISKType", "DISKType102", "DISK_SIZEType", "DISK_SIZEType100", "DOCUMENT", "DOCUMENT_POOL", "DS_MAD_CONFType", "ERROR_VMSType", "ERROR_VMSType118", "ERROR_VMSType126", "EXECUTION_RESULTType", "EXTRAType", "FEATURES", "FEDERATIONType", "GRAPHICS", "GROUP", "GROUPSType", "GROUPSType66", "GROUPSType85", "GROUPType", "GROUP_POOL", "HISTORY", "HISTORYType", "HISTORYType107", "HISTORY_RECORDS", "HISTORY_RECORDSType", "HISTORY_RECORDSType106", "HM_MADType", "HOOK", "HOOKLOGType", "HOOK_EXECUTION_RECORDType", "HOOK_LOG_CONFType", "HOOK_MESSAGE", "HOOK_POOL", "HOST", "HOSTSType", "HOSTSType87", "HOSTType", "HOST_POOL", "HOST_SHAREType", "HUGEPAGEType", "HUGEPAGEType35", "HYPERV_OPTIONS", "IDS", "IMAGE", "IMAGESType", "IMAGEType", "IMAGEType12", "IMAGEType22", "IMAGEType31", "IMAGEType57", "IMAGEType65", "IMAGEType75", "IMAGEType84", "IMAGE_POOL", "IMAGE_QUOTAType", "IMAGE_QUOTAType11", "IMAGE_QUOTAType21", "IMAGE_QUOTAType30", "IMAGE_QUOTAType56", "IMAGE_QUOTAType64", "IMAGE_QUOTAType74", "IMAGE_QUOTAType83", "IM_MADType", "INCREMENTType", "INPUT", "IPAM_MADType", "LEASESType", "LEASEType", "LOCK", "LOCKType", "LOCKType119", "LOCKType130", "LOCKType134", "LOCKType37", "LOCKType43", "LOCKType92", "LOCKType96", "LOGIN_TOKENType", "LOGIN_TOKENType67", "LOGType", "MARKETPLACE", "MARKETPLACEAPP", "MARKETPLACEAPPSType", "MARKETPLACEAPP_POOL", "MARKETPLACE_POOL", "MARKET_MADType", "MARKET_MAD_CONFType", "MEMORYType", "MEMORYType36", "MONITORING", "MONITORINGType", "MONITORINGType46", "MONITORINGType95", "MONITORINGType99", "MONITORING_DATA", "NETWORKType", "NETWORKType18", "NETWORKType27", "NETWORKType53", "NETWORKType61", "NETWORKType71", "NETWORKType8", "NETWORKType80", "NETWORK_QUOTAType", "NETWORK_QUOTAType17", "NETWORK_QUOTAType26", "NETWORK_QUOTAType52", "NETWORK_QUOTAType60", "NETWORK_QUOTAType7", "NETWORK_QUOTAType70", "NETWORK_QUOTAType79", "NICType", "NICType103", "NIC_ALIASType", "NIC_DEFAULT", "NODEType", "NUMA_NODE", "NUMA_NODESType", "NUMA_NODEType", "OPENNEBULA_CONFIGURATION", "OS", "OUTDATED_VMSType", "OUTDATED_VMSType116", "OUTDATED_VMSType124", "PARAMETERSType", "PARAMETERType", "PCI", "PCIType", "PCI_DEVICESType", "PERMISSIONS", "PERMISSIONSType", "PERMISSIONSType1", "PERMISSIONSType113", "PERMISSIONSType120", "PERMISSIONSType131", "PERMISSIONSType133", "PERMISSIONSType3", "PERMISSIONSType38", "PERMISSIONSType44", "PERMISSIONSType45", "PERMISSIONSType47", "PERMISSIONSType91", "PERMISSIONSType97", "PUBLIC_CLOUDType", "QUOTASType", "QUOTASType49", "RAFT", "RAFTType", "RAW", "ROLESType", "ROLEType", "RULEType", "SCHED_ACTION", "SCHED_ACTIONType", "SECURITY_GROUP", "SECURITY_GROUP_POOL", "SECURITY_GROUP_RULE", "SERVERType", "SERVERType139", "SERVER_POOLType", "SERVER_POOLType138", "SHOWBACKType", "SHOWBACK_RECORDS", "SNAPSHOTSType", "SNAPSHOTSType108", "SNAPSHOTSType41", "SNAPSHOTType", "SNAPSHOTType104", "SNAPSHOTType109", "SNAPSHOTType42", "SPICE_OPTIONS", "SYSTEMType", "TEMPLATEType", "TEMPLATEType101", "TEMPLATEType127", "TEMPLATEType132", "TEMPLATEType136", "TEMPLATEType137", "TEMPLATEType2", "TEMPLATEType32", "TEMPLATEType34", "TEMPLATEType40", "TEMPLATEType48", "TEMPLATEType94", "TEMPLATEType98", "TM_MADType", "TM_MAD_CONFType", "TOPOLOGY", "UPDATED_VMSType", "UPDATED_VMSType115", "UPDATED_VMSType123", "UPDATING_VMSType", "UPDATING_VMSType117", "UPDATING_VMSType125", "USER", "USERSType", "USERSType13", "USERType", "USER_POOL", "USER_TEMPLATEType", "USER_TEMPLATEType105", "VCENTER_RESOURCE_POOL_INFO", "VDC", "VDC_POOL", "VIDEOType", "VLAN_IDSType", "VM", "VMGROUP", "VMSType", "VMSType135", "VMSType39", "VMTEMPLATE", "VMTEMPLATE_POOL", "VMType", "VMType10", "VMType20", "VMType29", "VMType4", "VMType55", "VMType63", "VMType73", "VMType82", "VMType93", "VM_GROUP", "VM_GROUP_POOL", "VM_MADType", "VM_POOL", "VM_QUOTAType", "VM_QUOTAType19", "VM_QUOTAType28", "VM_QUOTAType54", "VM_QUOTAType62", "VM_QUOTAType72", "VM_QUOTAType81", "VM_QUOTAType9", "VNC_PORTSType", "VNET", "VNETSType", "VNETSType90", "VNETType", "VNETType112", "VNET_POOL", "VNTEMPLATE", "VNTEMPLATE_POOL", "VN_MAD_CONFType", "VROUTER", "VROUTERSType", "VROUTERSType122", "VROUTER_POOL", "VXLAN_IDSType", "ZONE", "ZONEType", "ZONE_POOL" ]