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# cython: binding=True # cython: auto_pickle=False # cython: language_level=2 """ The ``lxml.etree`` module implements the extended ElementTree API for XML. """ from __future__ import absolute_import __docformat__ = u"restructuredtext en" __all__ = [ 'AttributeBasedElementClassLookup', 'C14NError', 'C14NWriterTarget', 'CDATA', 'Comment', 'CommentBase', 'CustomElementClassLookup', 'DEBUG', 'DTD', 'DTDError', 'DTDParseError', 'DTDValidateError', 'DocumentInvalid', 'ETCompatXMLParser', 'ETXPath', 'Element', 'ElementBase', 'ElementClassLookup', 'ElementDefaultClassLookup', 'ElementNamespaceClassLookup', 'ElementTree', 'Entity', 'EntityBase', 'Error', 'ErrorDomains', 'ErrorLevels', 'ErrorTypes', 'Extension', 'FallbackElementClassLookup', 'FunctionNamespace', 'HTML', 'HTMLParser', 'LIBXML_COMPILED_VERSION', 'LIBXML_VERSION', 'LIBXSLT_COMPILED_VERSION', 'LIBXSLT_VERSION', 'LXML_VERSION', 'LxmlError', 'LxmlRegistryError', 'LxmlSyntaxError', 'NamespaceRegistryError', 'PI', 'PIBase', 'ParseError', 'ParserBasedElementClassLookup', 'ParserError', 'ProcessingInstruction', 'PyErrorLog', 'PythonElementClassLookup', 'QName', 'RelaxNG', 'RelaxNGError', 'RelaxNGErrorTypes', 'RelaxNGParseError', 'RelaxNGValidateError', 'Resolver', 'Schematron', 'SchematronError', 'SchematronParseError', 'SchematronValidateError', 'SerialisationError', 'SubElement', 'TreeBuilder', 'XInclude', 'XIncludeError', 'XML', 'XMLDTDID', 'XMLID', 'XMLParser', 'XMLSchema', 'XMLSchemaError', 'XMLSchemaParseError', 'XMLSchemaValidateError', 'XMLSyntaxError', 'XMLTreeBuilder', 'XPath', 'XPathDocumentEvaluator', 'XPathError', 'XPathEvalError', 'XPathEvaluator', 'XPathFunctionError', 'XPathResultError', 'XPathSyntaxError', 'XSLT', 'XSLTAccessControl', 'XSLTApplyError', 'XSLTError', 'XSLTExtension', 'XSLTExtensionError', 'XSLTParseError', 'XSLTSaveError', 'canonicalize', 'cleanup_namespaces', 'clear_error_log', 'dump', 'fromstring', 'fromstringlist', 'get_default_parser', 'iselement', 'iterparse', 'iterwalk', 'parse', 'parseid', 'register_namespace', 'set_default_parser', 'set_element_class_lookup', 'strip_attributes', 'strip_elements', 'strip_tags', 'tostring', 'tostringlist', 'tounicode', 'use_global_python_log' ] cimport cython from lxml cimport python from lxml.includes cimport tree, config from lxml.includes.tree cimport xmlDoc, xmlNode, xmlAttr, xmlNs, _isElement, _getNs from lxml.includes.tree cimport const_xmlChar, xmlChar, _xcstr from lxml.python cimport _cstr, _isString from lxml.includes cimport xpath from lxml.includes cimport c14n # Cython's standard declarations cimport cpython.mem cimport cpython.ref from libc cimport limits, stdio, stdlib from libc cimport string as cstring_h # not to be confused with stdlib 'string' from libc.string cimport const_char cdef object os_path_abspath from os.path import abspath as os_path_abspath cdef object BytesIO, StringIO from io import BytesIO, StringIO cdef object OrderedDict from collections import OrderedDict cdef object _elementpath from lxml import _elementpath cdef object sys import sys cdef object re import re cdef object partial from functools import partial cdef object islice from itertools import islice cdef object ITER_EMPTY = iter(()) cdef object MutableMapping try: from collections.abc import MutableMapping # Py3.3+ except ImportError: from collections import MutableMapping # Py2.7 class _ImmutableMapping(MutableMapping): def __getitem__(self, key): raise KeyError, key def __setitem__(self, key, value): raise KeyError, key def __delitem__(self, key): raise KeyError, key def __contains__(self, key): return False def __len__(self): return 0 def __iter__(self): return ITER_EMPTY iterkeys = itervalues = iteritems = __iter__ cdef object IMMUTABLE_EMPTY_MAPPING = _ImmutableMapping() del _ImmutableMapping # the rules # --------- # any libxml C argument/variable is prefixed with c_ # any non-public function/class is prefixed with an underscore # instance creation is always through factories # what to do with libxml2/libxslt error messages? # 0 : drop # 1 : use log DEF __DEBUG = 1 # maximum number of lines in the libxml2/xslt log if __DEBUG == 1 DEF __MAX_LOG_SIZE = 100 # make the compiled-in debug state publicly available DEBUG = __DEBUG # A struct to store a cached qualified tag name+href pair. # While we can borrow the c_name from the document dict, # PyPy requires us to store a Python reference for the # namespace in order to keep the byte buffer alive. cdef struct qname: const_xmlChar* c_name python.PyObject* href # global per-thread setup tree.xmlThrDefIndentTreeOutput(1) tree.xmlThrDefLineNumbersDefaultValue(1) _initThreadLogging() # initialize parser (and threading) xmlparser.xmlInitParser() # filename encoding cdef bytes _FILENAME_ENCODING = (sys.getfilesystemencoding() or sys.getdefaultencoding() or 'ascii').encode("UTF-8") cdef char* _C_FILENAME_ENCODING = _cstr(_FILENAME_ENCODING) # set up some default namespace prefixes cdef dict _DEFAULT_NAMESPACE_PREFIXES = { b"http://www.w3.org/XML/1998/namespace": b'xml', b"http://www.w3.org/1999/xhtml": b"html", b"http://www.w3.org/1999/XSL/Transform": b"xsl", b"http://www.w3.org/1999/02/22-rdf-syntax-ns#": b"rdf", b"http://schemas.xmlsoap.org/wsdl/": b"wsdl", # xml schema b"http://www.w3.org/2001/XMLSchema": b"xs", b"http://www.w3.org/2001/XMLSchema-instance": b"xsi", # dublin core b"http://purl.org/dc/elements/1.1/": b"dc", # objectify b"http://codespeak.net/lxml/objectify/pytype" : b"py", } # To avoid runtime encoding overhead, we keep a Unicode copy # of the uri-prefix mapping as (str, str) items view (list in Py2). cdef object _DEFAULT_NAMESPACE_PREFIXES_ITEMS = [] cdef _update_default_namespace_prefixes_items(): cdef bytes ns, prefix global _DEFAULT_NAMESPACE_PREFIXES_ITEMS _DEFAULT_NAMESPACE_PREFIXES_ITEMS = { ns.decode('utf-8') : prefix.decode('utf-8') for ns, prefix in _DEFAULT_NAMESPACE_PREFIXES.items() }.items() _update_default_namespace_prefixes_items() cdef object _check_internal_prefix = re.compile(b"ns\d+$").match def register_namespace(prefix, uri): u"""Registers a namespace prefix that newly created Elements in that namespace will use. The registry is global, and any existing mapping for either the given prefix or the namespace URI will be removed. """ prefix_utf, uri_utf = _utf8(prefix), _utf8(uri) if _check_internal_prefix(prefix_utf): raise ValueError("Prefix format reserved for internal use") _tagValidOrRaise(prefix_utf) _uriValidOrRaise(uri_utf) if (uri_utf == b"http://www.w3.org/XML/1998/namespace" and prefix_utf != b'xml' or prefix_utf == b'xml' and uri_utf != b"http://www.w3.org/XML/1998/namespace"): raise ValueError("Cannot change the 'xml' prefix of the XML namespace") for k, v in list(_DEFAULT_NAMESPACE_PREFIXES.items()): if k == uri_utf or v == prefix_utf: del _DEFAULT_NAMESPACE_PREFIXES[k] _DEFAULT_NAMESPACE_PREFIXES[uri_utf] = prefix_utf _update_default_namespace_prefixes_items() # Error superclass for ElementTree compatibility cdef class Error(Exception): pass # module level superclass for all exceptions cdef class LxmlError(Error): """Main exception base class for lxml. All other exceptions inherit from this one. """ def __init__(self, message, error_log=None): super(_Error, self).__init__(message) if error_log is None: self.error_log = __copyGlobalErrorLog() else: self.error_log = error_log.copy() cdef object _Error = Error # superclass for all syntax errors class LxmlSyntaxError(LxmlError, SyntaxError): """Base class for all syntax errors. """ cdef class C14NError(LxmlError): """Error during C14N serialisation. """ # version information cdef __unpackDottedVersion(version): version_list = [] l = (version.decode("ascii").replace(u'-', u'.').split(u'.') + [0]*4)[:4] for item in l: try: item = int(item) except ValueError: if item.startswith(u'dev'): count = item[3:] item = -300 elif item.startswith(u'alpha'): count = item[5:] item = -200 elif item.startswith(u'beta'): count = item[4:] item = -100 else: count = 0 if count: item += int(count) version_list.append(item) return tuple(version_list) cdef __unpackIntVersion(int c_version): return ( ((c_version / (100*100)) % 100), ((c_version / 100) % 100), (c_version % 100) ) cdef int _LIBXML_VERSION_INT try: _LIBXML_VERSION_INT = int( re.match(u'[0-9]+', (<unsigned char*>tree.xmlParserVersion).decode("ascii")).group(0)) except Exception: print u"Unknown libxml2 version: %s" % (<unsigned char*>tree.xmlParserVersion).decode("latin1") _LIBXML_VERSION_INT = 0 LIBXML_VERSION = __unpackIntVersion(_LIBXML_VERSION_INT) LIBXML_COMPILED_VERSION = __unpackIntVersion(tree.LIBXML_VERSION) LXML_VERSION = __unpackDottedVersion(tree.LXML_VERSION_STRING) __version__ = tree.LXML_VERSION_STRING.decode("ascii") # class for temporary storage of Python references, # used e.g. for XPath results @cython.final @cython.internal cdef class _TempStore: cdef list _storage def __init__(self): self._storage = [] cdef int add(self, obj) except -1: self._storage.append(obj) return 0 cdef int clear(self) except -1: del self._storage[:] return 0 # class for temporarily storing exceptions raised in extensions @cython.internal cdef class _ExceptionContext: cdef object _exc_info cdef int clear(self) except -1: self._exc_info = None return 0 cdef void _store_raised(self): try: self._exc_info = sys.exc_info() except BaseException as e: self._store_exception(e) finally: return # and swallow any further exceptions cdef int _store_exception(self, exception) except -1: self._exc_info = (exception, None, None) return 0 cdef bint _has_raised(self) except -1: return self._exc_info is not None cdef int _raise_if_stored(self) except -1: if self._exc_info is None: return 0 type, value, traceback = self._exc_info self._exc_info = None if value is None and traceback is None: raise type else: raise type, value, traceback # type of a function that steps from node to node ctypedef public xmlNode* (*_node_to_node_function)(xmlNode*) ################################################################################ # Include submodules include "proxy.pxi" # Proxy handling (element backpointers/memory/etc.) include "apihelpers.pxi" # Private helper functions include "xmlerror.pxi" # Error and log handling ################################################################################ # Public Python API @cython.final @cython.freelist(8) cdef public class _Document [ type LxmlDocumentType, object LxmlDocument ]: u"""Internal base class to reference a libxml document. When instances of this class are garbage collected, the libxml document is cleaned up. """ cdef int _ns_counter cdef bytes _prefix_tail cdef xmlDoc* _c_doc cdef _BaseParser _parser def __dealloc__(self): # if there are no more references to the document, it is safe # to clean the whole thing up, as all nodes have a reference to # the document tree.xmlFreeDoc(self._c_doc) @cython.final cdef getroot(self): # return an element proxy for the document root cdef xmlNode* c_node c_node = tree.xmlDocGetRootElement(self._c_doc) if c_node is NULL: return None return _elementFactory(self, c_node) @cython.final cdef bint hasdoctype(self): # DOCTYPE gets parsed into internal subset (xmlDTD*) return self._c_doc is not NULL and self._c_doc.intSubset is not NULL @cython.final cdef getdoctype(self): # get doctype info: root tag, public/system ID (or None if not known) cdef tree.xmlDtd* c_dtd cdef xmlNode* c_root_node public_id = None sys_url = None c_dtd = self._c_doc.intSubset if c_dtd is not NULL: if c_dtd.ExternalID is not NULL: public_id = funicode(c_dtd.ExternalID) if c_dtd.SystemID is not NULL: sys_url = funicode(c_dtd.SystemID) c_dtd = self._c_doc.extSubset if c_dtd is not NULL: if not public_id and c_dtd.ExternalID is not NULL: public_id = funicode(c_dtd.ExternalID) if not sys_url and c_dtd.SystemID is not NULL: sys_url = funicode(c_dtd.SystemID) c_root_node = tree.xmlDocGetRootElement(self._c_doc) if c_root_node is NULL: root_name = None else: root_name = funicode(c_root_node.name) return root_name, public_id, sys_url @cython.final cdef getxmlinfo(self): # return XML version and encoding (or None if not known) cdef xmlDoc* c_doc = self._c_doc if c_doc.version is NULL: version = None else: version = funicode(c_doc.version) if c_doc.encoding is NULL: encoding = None else: encoding = funicode(c_doc.encoding) return version, encoding @cython.final cdef isstandalone(self): # returns True for "standalone=true", # False for "standalone=false", None if not provided if self._c_doc.standalone == -1: return None else: return <bint>(self._c_doc.standalone == 1) @cython.final cdef bytes buildNewPrefix(self): # get a new unique prefix ("nsX") for this document cdef bytes ns if self._ns_counter < len(_PREFIX_CACHE): ns = _PREFIX_CACHE[self._ns_counter] else: ns = python.PyBytes_FromFormat("ns%d", self._ns_counter) if self._prefix_tail is not None: ns += self._prefix_tail self._ns_counter += 1 if self._ns_counter < 0: # overflow! self._ns_counter = 0 if self._prefix_tail is None: self._prefix_tail = b"A" else: self._prefix_tail += b"A" return ns @cython.final cdef xmlNs* _findOrBuildNodeNs(self, xmlNode* c_node, const_xmlChar* c_href, const_xmlChar* c_prefix, bint is_attribute) except NULL: u"""Get or create namespace structure for a node. Reuses the prefix if possible. """ cdef xmlNs* c_ns cdef xmlNs* c_doc_ns cdef python.PyObject* dict_result if c_node.type != tree.XML_ELEMENT_NODE: assert c_node.type == tree.XML_ELEMENT_NODE, \ u"invalid node type %d, expected %d" % ( c_node.type, tree.XML_ELEMENT_NODE) # look for existing ns declaration c_ns = _searchNsByHref(c_node, c_href, is_attribute) if c_ns is not NULL: if is_attribute and c_ns.prefix is NULL: # do not put namespaced attributes into the default # namespace as this would break serialisation pass else: return c_ns # none found => determine a suitable new prefix if c_prefix is NULL: dict_result = python.PyDict_GetItem( _DEFAULT_NAMESPACE_PREFIXES, <unsigned char*>c_href) if dict_result is not NULL: prefix = <object>dict_result else: prefix = self.buildNewPrefix() c_prefix = _xcstr(prefix) # make sure the prefix is not in use already while tree.xmlSearchNs(self._c_doc, c_node, c_prefix) is not NULL: prefix = self.buildNewPrefix() c_prefix = _xcstr(prefix) # declare the namespace and return it c_ns = tree.xmlNewNs(c_node, c_href, c_prefix) if c_ns is NULL: raise MemoryError() return c_ns @cython.final cdef int _setNodeNs(self, xmlNode* c_node, const_xmlChar* c_href) except -1: u"Lookup namespace structure and set it for the node." c_ns = self._findOrBuildNodeNs(c_node, c_href, NULL, 0) tree.xmlSetNs(c_node, c_ns) cdef tuple __initPrefixCache(): cdef int i return tuple([ python.PyBytes_FromFormat("ns%d", i) for i in range(30) ]) cdef tuple _PREFIX_CACHE = __initPrefixCache() cdef _Document _documentFactory(xmlDoc* c_doc, _BaseParser parser): cdef _Document result result = _Document.__new__(_Document) result._c_doc = c_doc result._ns_counter = 0 result._prefix_tail = None if parser is None: parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() result._parser = parser return result cdef object _find_invalid_public_id_characters = re.compile( ur"[^\x20\x0D\x0Aa-zA-Z0-9'()+,./:=?;!*#@$_%-]+").search cdef class DocInfo: u"Document information provided by parser and DTD." cdef _Document _doc def __cinit__(self, tree): u"Create a DocInfo object for an ElementTree object or root Element." self._doc = _documentOrRaise(tree) root_name, public_id, system_url = self._doc.getdoctype() if not root_name and (public_id or system_url): raise ValueError, u"Could not find root node" @property def root_name(self): """Returns the name of the root node as defined by the DOCTYPE.""" root_name, public_id, system_url = self._doc.getdoctype() return root_name @cython.final cdef tree.xmlDtd* _get_c_dtd(self): """"Return the DTD. Create it if it does not yet exist.""" cdef xmlDoc* c_doc = self._doc._c_doc cdef xmlNode* c_root_node cdef const_xmlChar* c_name if c_doc.intSubset: return c_doc.intSubset c_root_node = tree.xmlDocGetRootElement(c_doc) c_name = c_root_node.name if c_root_node else NULL return tree.xmlCreateIntSubset(c_doc, c_name, NULL, NULL) def clear(self): u"""Removes DOCTYPE and internal subset from the document.""" cdef xmlDoc* c_doc = self._doc._c_doc cdef tree.xmlNode* c_dtd = <xmlNode*>c_doc.intSubset if c_dtd is NULL: return tree.xmlUnlinkNode(c_dtd) tree.xmlFreeNode(c_dtd) property public_id: u"""Public ID of the DOCTYPE. Mutable. May be set to a valid string or None. If a DTD does not exist, setting this variable (even to None) will create one. """ def __get__(self): root_name, public_id, system_url = self._doc.getdoctype() return public_id def __set__(self, value): cdef xmlChar* c_value = NULL if value is not None: match = _find_invalid_public_id_characters(value) if match: raise ValueError, f'Invalid character(s) {match.group(0)!r} in public_id.' value = _utf8(value) c_value = tree.xmlStrdup(_xcstr(value)) if not c_value: raise MemoryError() c_dtd = self._get_c_dtd() if not c_dtd: tree.xmlFree(c_value) raise MemoryError() if c_dtd.ExternalID: tree.xmlFree(<void*>c_dtd.ExternalID) c_dtd.ExternalID = c_value property system_url: u"""System ID of the DOCTYPE. Mutable. May be set to a valid string or None. If a DTD does not exist, setting this variable (even to None) will create one. """ def __get__(self): root_name, public_id, system_url = self._doc.getdoctype() return system_url def __set__(self, value): cdef xmlChar* c_value = NULL if value is not None: bvalue = _utf8(value) # sys_url may be any valid unicode string that can be # enclosed in single quotes or quotes. if b"'" in bvalue and b'"' in bvalue: raise ValueError( 'System URL may not contain both single (\') and double quotes (").') c_value = tree.xmlStrdup(_xcstr(bvalue)) if not c_value: raise MemoryError() c_dtd = self._get_c_dtd() if not c_dtd: tree.xmlFree(c_value) raise MemoryError() if c_dtd.SystemID: tree.xmlFree(<void*>c_dtd.SystemID) c_dtd.SystemID = c_value @property def xml_version(self): """Returns the XML version as declared by the document.""" xml_version, encoding = self._doc.getxmlinfo() return xml_version @property def encoding(self): """Returns the encoding name as declared by the document.""" xml_version, encoding = self._doc.getxmlinfo() return encoding @property def standalone(self): """Returns the standalone flag as declared by the document. The possible values are True (``standalone='yes'``), False (``standalone='no'`` or flag not provided in the declaration), and None (unknown or no declaration found). Note that a normal truth test on this value will always tell if the ``standalone`` flag was set to ``'yes'`` or not. """ return self._doc.isstandalone() property URL: u"The source URL of the document (or None if unknown)." def __get__(self): if self._doc._c_doc.URL is NULL: return None return _decodeFilename(self._doc._c_doc.URL) def __set__(self, url): url = _encodeFilename(url) c_oldurl = self._doc._c_doc.URL if url is None: self._doc._c_doc.URL = NULL else: self._doc._c_doc.URL = tree.xmlStrdup(_xcstr(url)) if c_oldurl is not NULL: tree.xmlFree(<void*>c_oldurl) @property def doctype(self): """Returns a DOCTYPE declaration string for the document.""" root_name, public_id, system_url = self._doc.getdoctype() if system_url: # If '"' in system_url, we must escape it with single # quotes, otherwise escape with double quotes. If url # contains both a single quote and a double quote, XML # standard is being violated. if '"' in system_url: quoted_system_url = f"'{system_url}'" else: quoted_system_url = f'"{system_url}"' if public_id: if system_url: return f'<!DOCTYPE {root_name} PUBLIC "{public_id}" {quoted_system_url}>' else: return f'<!DOCTYPE {root_name} PUBLIC "{public_id}">' elif system_url: return f'<!DOCTYPE {root_name} SYSTEM {quoted_system_url}>' elif self._doc.hasdoctype(): return f'<!DOCTYPE {root_name}>' else: return u'' @property def internalDTD(self): """Returns a DTD validator based on the internal subset of the document.""" return _dtdFactory(self._doc._c_doc.intSubset) @property def externalDTD(self): """Returns a DTD validator based on the external subset of the document.""" return _dtdFactory(self._doc._c_doc.extSubset) @cython.no_gc_clear cdef public class _Element [ type LxmlElementType, object LxmlElement ]: u"""Element class. References a document object and a libxml node. By pointing to a Document instance, a reference is kept to _Document as long as there is some pointer to a node in it. """ cdef _Document _doc cdef xmlNode* _c_node cdef object _tag def _init(self): u"""_init(self) Called after object initialisation. Custom subclasses may override this if they recursively call _init() in the superclasses. """ @cython.linetrace(False) @cython.profile(False) def __dealloc__(self): #print "trying to free node:", <int>self._c_node #displayNode(self._c_node, 0) if self._c_node is not NULL: _unregisterProxy(self) attemptDeallocation(self._c_node) # MANIPULATORS def __setitem__(self, x, value): u"""__setitem__(self, x, value) Replaces the given subelement index or slice. """ cdef xmlNode* c_node = NULL cdef xmlNode* c_next cdef xmlDoc* c_source_doc cdef _Element element cdef bint left_to_right cdef Py_ssize_t slicelength = 0, step = 0 _assertValidNode(self) if value is None: raise ValueError, u"cannot assign None" if isinstance(x, slice): # slice assignment _findChildSlice(<slice>x, self._c_node, &c_node, &step, &slicelength) if step > 0: left_to_right = 1 else: left_to_right = 0 step = -step _replaceSlice(self, c_node, slicelength, step, left_to_right, value) return else: # otherwise: normal item assignment element = value _assertValidNode(element) c_node = _findChild(self._c_node, x) if c_node is NULL: raise IndexError, u"list index out of range" c_source_doc = element._c_node.doc c_next = element._c_node.next _removeText(c_node.next) tree.xmlReplaceNode(c_node, element._c_node) _moveTail(c_next, element._c_node) moveNodeToDocument(self._doc, c_source_doc, element._c_node) if not attemptDeallocation(c_node): moveNodeToDocument(self._doc, c_node.doc, c_node) def __delitem__(self, x): u"""__delitem__(self, x) Deletes the given subelement or a slice. """ cdef xmlNode* c_node = NULL cdef xmlNode* c_next cdef Py_ssize_t step = 0, slicelength = 0 _assertValidNode(self) if isinstance(x, slice): # slice deletion if _isFullSlice(<slice>x): c_node = self._c_node.children if c_node is not NULL: if not _isElement(c_node): c_node = _nextElement(c_node) while c_node is not NULL: c_next = _nextElement(c_node) _removeNode(self._doc, c_node) c_node = c_next else: _findChildSlice(<slice>x, self._c_node, &c_node, &step, &slicelength) _deleteSlice(self._doc, c_node, slicelength, step) else: # item deletion c_node = _findChild(self._c_node, x) if c_node is NULL: raise IndexError, f"index out of range: {x}" _removeNode(self._doc, c_node) def __deepcopy__(self, memo): u"__deepcopy__(self, memo)" return self.__copy__() def __copy__(self): u"__copy__(self)" cdef xmlDoc* c_doc cdef xmlNode* c_node cdef _Document new_doc _assertValidNode(self) c_doc = _copyDocRoot(self._doc._c_doc, self._c_node) # recursive new_doc = _documentFactory(c_doc, self._doc._parser) root = new_doc.getroot() if root is not None: return root # Comment/PI c_node = c_doc.children while c_node is not NULL and c_node.type != self._c_node.type: c_node = c_node.next if c_node is NULL: return None return _elementFactory(new_doc, c_node) def set(self, key, value): u"""set(self, key, value) Sets an element attribute. In HTML documents (not XML or XHTML), the value None is allowed and creates an attribute without value (just the attribute name). """ _assertValidNode(self) _setAttributeValue(self, key, value) def append(self, _Element element not None): u"""append(self, element) Adds a subelement to the end of this element. """ _assertValidNode(self) _assertValidNode(element) _appendChild(self, element) def addnext(self, _Element element not None): u"""addnext(self, element) Adds the element as a following sibling directly after this element. This is normally used to set a processing instruction or comment after the root node of a document. Note that tail text is automatically discarded when adding at the root level. """ _assertValidNode(self) _assertValidNode(element) if self._c_node.parent != NULL and not _isElement(self._c_node.parent): if element._c_node.type != tree.XML_PI_NODE: if element._c_node.type != tree.XML_COMMENT_NODE: raise TypeError, u"Only processing instructions and comments can be siblings of the root element" element.tail = None _appendSibling(self, element) def addprevious(self, _Element element not None): u"""addprevious(self, element) Adds the element as a preceding sibling directly before this element. This is normally used to set a processing instruction or comment before the root node of a document. Note that tail text is automatically discarded when adding at the root level. """ _assertValidNode(self) _assertValidNode(element) if self._c_node.parent != NULL and not _isElement(self._c_node.parent): if element._c_node.type != tree.XML_PI_NODE: if element._c_node.type != tree.XML_COMMENT_NODE: raise TypeError, u"Only processing instructions and comments can be siblings of the root element" element.tail = None _prependSibling(self, element) def extend(self, elements): u"""extend(self, elements) Extends the current children by the elements in the iterable. """ cdef _Element element _assertValidNode(self) for element in elements: if element is None: raise TypeError, u"Node must not be None" _assertValidNode(element) _appendChild(self, element) def clear(self, bint keep_tail=False): u"""clear(self, keep_tail=False) Resets an element. This function removes all subelements, clears all attributes and sets the text and tail properties to None. Pass ``keep_tail=True`` to leave the tail text untouched. """ cdef xmlAttr* c_attr cdef xmlAttr* c_attr_next cdef xmlNode* c_node cdef xmlNode* c_node_next _assertValidNode(self) c_node = self._c_node # remove self.text and self.tail _removeText(c_node.children) if not keep_tail: _removeText(c_node.next) # remove all attributes c_attr = c_node.properties if c_attr: c_node.properties = NULL tree.xmlFreePropList(c_attr) # remove all subelements c_node = c_node.children if c_node and not _isElement(c_node): c_node = _nextElement(c_node) while c_node is not NULL: c_node_next = _nextElement(c_node) _removeNode(self._doc, c_node) c_node = c_node_next def insert(self, index: int, _Element element not None): u"""insert(self, index, element) Inserts a subelement at the given position in this element """ cdef xmlNode* c_node cdef xmlNode* c_next cdef xmlDoc* c_source_doc _assertValidNode(self) _assertValidNode(element) c_node = _findChild(self._c_node, index) if c_node is NULL: _appendChild(self, element) return c_source_doc = element._c_node.doc c_next = element._c_node.next tree.xmlAddPrevSibling(c_node, element._c_node) _moveTail(c_next, element._c_node) moveNodeToDocument(self._doc, c_source_doc, element._c_node) def remove(self, _Element element not None): u"""remove(self, element) Removes a matching subelement. Unlike the find methods, this method compares elements based on identity, not on tag value or contents. """ cdef xmlNode* c_node cdef xmlNode* c_next _assertValidNode(self) _assertValidNode(element) c_node = element._c_node if c_node.parent is not self._c_node: raise ValueError, u"Element is not a child of this node." c_next = element._c_node.next tree.xmlUnlinkNode(c_node) _moveTail(c_next, c_node) # fix namespace declarations moveNodeToDocument(self._doc, c_node.doc, c_node) def replace(self, _Element old_element not None, _Element new_element not None): u"""replace(self, old_element, new_element) Replaces a subelement with the element passed as second argument. """ cdef xmlNode* c_old_node cdef xmlNode* c_old_next cdef xmlNode* c_new_node cdef xmlNode* c_new_next cdef xmlDoc* c_source_doc _assertValidNode(self) _assertValidNode(old_element) _assertValidNode(new_element) c_old_node = old_element._c_node if c_old_node.parent is not self._c_node: raise ValueError, u"Element is not a child of this node." c_old_next = c_old_node.next c_new_node = new_element._c_node c_new_next = c_new_node.next c_source_doc = c_new_node.doc tree.xmlReplaceNode(c_old_node, c_new_node) _moveTail(c_new_next, c_new_node) _moveTail(c_old_next, c_old_node) moveNodeToDocument(self._doc, c_source_doc, c_new_node) # fix namespace declarations moveNodeToDocument(self._doc, c_old_node.doc, c_old_node) # PROPERTIES property tag: u"""Element tag """ def __get__(self): if self._tag is not None: return self._tag _assertValidNode(self) self._tag = _namespacedName(self._c_node) return self._tag def __set__(self, value): cdef _BaseParser parser _assertValidNode(self) ns, name = _getNsTag(value) parser = self._doc._parser if parser is not None and parser._for_html: _htmlTagValidOrRaise(name) else: _tagValidOrRaise(name) self._tag = value tree.xmlNodeSetName(self._c_node, _xcstr(name)) if ns is None: self._c_node.ns = NULL else: self._doc._setNodeNs(self._c_node, _xcstr(ns)) @property def attrib(self): """Element attribute dictionary. Where possible, use get(), set(), keys(), values() and items() to access element attributes. """ return _Attrib.__new__(_Attrib, self) property text: u"""Text before the first subelement. This is either a string or the value None, if there was no text. """ def __get__(self): _assertValidNode(self) return _collectText(self._c_node.children) def __set__(self, value): _assertValidNode(self) if isinstance(value, QName): value = _resolveQNameText(self, value).decode('utf8') _setNodeText(self._c_node, value) # using 'del el.text' is the wrong thing to do #def __del__(self): # _setNodeText(self._c_node, None) property tail: u"""Text after this element's end tag, but before the next sibling element's start tag. This is either a string or the value None, if there was no text. """ def __get__(self): _assertValidNode(self) return _collectText(self._c_node.next) def __set__(self, value): _assertValidNode(self) _setTailText(self._c_node, value) # using 'del el.tail' is the wrong thing to do #def __del__(self): # _setTailText(self._c_node, None) # not in ElementTree, read-only @property def prefix(self): """Namespace prefix or None. """ if self._c_node.ns is not NULL: if self._c_node.ns.prefix is not NULL: return funicode(self._c_node.ns.prefix) return None # not in ElementTree, read-only property sourceline: u"""Original line number as found by the parser or None if unknown. """ def __get__(self): cdef long line _assertValidNode(self) line = tree.xmlGetLineNo(self._c_node) return line if line > 0 else None def __set__(self, line): _assertValidNode(self) if line <= 0: self._c_node.line = 0 else: self._c_node.line = line # not in ElementTree, read-only @property def nsmap(self): """Namespace prefix->URI mapping known in the context of this Element. This includes all namespace declarations of the parents. Note that changing the returned dict has no effect on the Element. """ _assertValidNode(self) return _build_nsmap(self._c_node) # not in ElementTree, read-only property base: u"""The base URI of the Element (xml:base or HTML base URL). None if the base URI is unknown. Note that the value depends on the URL of the document that holds the Element if there is no xml:base attribute on the Element or its ancestors. Setting this property will set an xml:base attribute on the Element, regardless of the document type (XML or HTML). """ def __get__(self): _assertValidNode(self) c_base = tree.xmlNodeGetBase(self._doc._c_doc, self._c_node) if c_base is NULL: if self._doc._c_doc.URL is NULL: return None return _decodeFilename(self._doc._c_doc.URL) try: base = _decodeFilename(c_base) finally: tree.xmlFree(c_base) return base def __set__(self, url): _assertValidNode(self) if url is None: c_base = <const_xmlChar*>NULL else: url = _encodeFilename(url) c_base = _xcstr(url) tree.xmlNodeSetBase(self._c_node, c_base) # ACCESSORS def __repr__(self): u"__repr__(self)" return "<Element %s at 0x%x>" % (strrepr(self.tag), id(self)) def __getitem__(self, x): u"""Returns the subelement at the given position or the requested slice. """ cdef xmlNode* c_node = NULL cdef Py_ssize_t step = 0, slicelength = 0 cdef Py_ssize_t c, i cdef _node_to_node_function next_element cdef list result _assertValidNode(self) if isinstance(x, slice): # slicing if _isFullSlice(<slice>x): return _collectChildren(self) _findChildSlice(<slice>x, self._c_node, &c_node, &step, &slicelength) if c_node is NULL: return [] if step > 0: next_element = _nextElement else: step = -step next_element = _previousElement result = [] c = 0 while c_node is not NULL and c < slicelength: result.append(_elementFactory(self._doc, c_node)) c += 1 for i in range(step): c_node = next_element(c_node) if c_node is NULL: break return result else: # indexing c_node = _findChild(self._c_node, x) if c_node is NULL: raise IndexError, u"list index out of range" return _elementFactory(self._doc, c_node) def __len__(self): u"""__len__(self) Returns the number of subelements. """ _assertValidNode(self) return _countElements(self._c_node.children) def __nonzero__(self): #u"__nonzero__(self)" # currently fails in Py3.1 import warnings warnings.warn( u"The behavior of this method will change in future versions. " u"Use specific 'len(elem)' or 'elem is not None' test instead.", FutureWarning ) # emulate old behaviour _assertValidNode(self) return _hasChild(self._c_node) def __contains__(self, element): u"__contains__(self, element)" cdef xmlNode* c_node _assertValidNode(self) if not isinstance(element, _Element): return 0 c_node = (<_Element>element)._c_node return c_node is not NULL and c_node.parent is self._c_node def __iter__(self): u"__iter__(self)" return ElementChildIterator(self) def __reversed__(self): u"__reversed__(self)" return ElementChildIterator(self, reversed=True) def index(self, _Element child not None, start: int = None, stop: int = None): u"""index(self, child, start=None, stop=None) Find the position of the child within the parent. This method is not part of the original ElementTree API. """ cdef Py_ssize_t k, l cdef Py_ssize_t c_start, c_stop cdef xmlNode* c_child cdef xmlNode* c_start_node _assertValidNode(self) _assertValidNode(child) c_child = child._c_node if c_child.parent is not self._c_node: raise ValueError, u"Element is not a child of this node." # handle the unbounded search straight away (normal case) if stop is None and (start is None or start == 0): k = 0 c_child = c_child.prev while c_child is not NULL: if _isElement(c_child): k += 1 c_child = c_child.prev return k # check indices if start is None: c_start = 0 else: c_start = start if stop is None: c_stop = 0 else: c_stop = stop if c_stop == 0 or \ c_start >= c_stop and (c_stop > 0 or c_start < 0): raise ValueError, u"list.index(x): x not in slice" # for negative slice indices, check slice before searching index if c_start < 0 or c_stop < 0: # start from right, at most up to leftmost(c_start, c_stop) if c_start < c_stop: k = -c_start else: k = -c_stop c_start_node = self._c_node.last l = 1 while c_start_node != c_child and l < k: if _isElement(c_start_node): l += 1 c_start_node = c_start_node.prev if c_start_node == c_child: # found! before slice end? if c_stop < 0 and l <= -c_stop: raise ValueError, u"list.index(x): x not in slice" elif c_start < 0: raise ValueError, u"list.index(x): x not in slice" # now determine the index backwards from child c_child = c_child.prev k = 0 if c_stop > 0: # we can optimize: stop after c_stop elements if not found while c_child != NULL and k < c_stop: if _isElement(c_child): k += 1 c_child = c_child.prev if k < c_stop: return k else: # traverse all while c_child != NULL: if _isElement(c_child): k = k + 1 c_child = c_child.prev if c_start > 0: if k >= c_start: return k else: return k if c_start != 0 or c_stop != 0: raise ValueError, u"list.index(x): x not in slice" else: raise ValueError, u"list.index(x): x not in list" def get(self, key, default=None): u"""get(self, key, default=None) Gets an element attribute. """ _assertValidNode(self) return _getAttributeValue(self, key, default) def keys(self): u"""keys(self) Gets a list of attribute names. The names are returned in an arbitrary order (just like for an ordinary Python dictionary). """ _assertValidNode(self) return _collectAttributes(self._c_node, 1) def values(self): u"""values(self) Gets element attribute values as a sequence of strings. The attributes are returned in an arbitrary order. """ _assertValidNode(self) return _collectAttributes(self._c_node, 2) def items(self): u"""items(self) Gets element attributes, as a sequence. The attributes are returned in an arbitrary order. """ _assertValidNode(self) return _collectAttributes(self._c_node, 3) def getchildren(self): u"""getchildren(self) Returns all direct children. The elements are returned in document order. :deprecated: Note that this method has been deprecated as of ElementTree 1.3 and lxml 2.0. New code should use ``list(element)`` or simply iterate over elements. """ _assertValidNode(self) return _collectChildren(self) def getparent(self): u"""getparent(self) Returns the parent of this element or None for the root element. """ cdef xmlNode* c_node #_assertValidNode(self) # not needed c_node = _parentElement(self._c_node) if c_node is NULL: return None return _elementFactory(self._doc, c_node) def getnext(self): u"""getnext(self) Returns the following sibling of this element or None. """ cdef xmlNode* c_node #_assertValidNode(self) # not needed c_node = _nextElement(self._c_node) if c_node is NULL: return None return _elementFactory(self._doc, c_node) def getprevious(self): u"""getprevious(self) Returns the preceding sibling of this element or None. """ cdef xmlNode* c_node #_assertValidNode(self) # not needed c_node = _previousElement(self._c_node) if c_node is NULL: return None return _elementFactory(self._doc, c_node) def itersiblings(self, tag=None, *tags, preceding=False): u"""itersiblings(self, tag=None, *tags, preceding=False) Iterate over the following or preceding siblings of this element. The direction is determined by the 'preceding' keyword which defaults to False, i.e. forward iteration over the following siblings. When True, the iterator yields the preceding siblings in reverse document order, i.e. starting right before the current element and going backwards. Can be restricted to find only elements with specific tags, see `iter`. """ if preceding: if self._c_node and not self._c_node.prev: return ITER_EMPTY elif self._c_node and not self._c_node.next: return ITER_EMPTY if tag is not None: tags += (tag,) return SiblingsIterator(self, tags, preceding=preceding) def iterancestors(self, tag=None, *tags): u"""iterancestors(self, tag=None, *tags) Iterate over the ancestors of this element (from parent to parent). Can be restricted to find only elements with specific tags, see `iter`. """ if self._c_node and not self._c_node.parent: return ITER_EMPTY if tag is not None: tags += (tag,) return AncestorsIterator(self, tags) def iterdescendants(self, tag=None, *tags): u"""iterdescendants(self, tag=None, *tags) Iterate over the descendants of this element in document order. As opposed to ``el.iter()``, this iterator does not yield the element itself. The returned elements can be restricted to find only elements with specific tags, see `iter`. """ if self._c_node and not self._c_node.children: return ITER_EMPTY if tag is not None: tags += (tag,) return ElementDepthFirstIterator(self, tags, inclusive=False) def iterchildren(self, tag=None, *tags, reversed=False): u"""iterchildren(self, tag=None, *tags, reversed=False) Iterate over the children of this element. As opposed to using normal iteration on this element, the returned elements can be reversed with the 'reversed' keyword and restricted to find only elements with specific tags, see `iter`. """ if self._c_node and not self._c_node.children: return ITER_EMPTY if tag is not None: tags += (tag,) return ElementChildIterator(self, tags, reversed=reversed) def getroottree(self): u"""getroottree(self) Return an ElementTree for the root node of the document that contains this element. This is the same as following element.getparent() up the tree until it returns None (for the root element) and then build an ElementTree for the last parent that was returned.""" _assertValidDoc(self._doc) return _elementTreeFactory(self._doc, None) def getiterator(self, tag=None, *tags): u"""getiterator(self, tag=None, *tags) Returns a sequence or iterator of all elements in the subtree in document order (depth first pre-order), starting with this element. Can be restricted to find only elements with specific tags, see `iter`. :deprecated: Note that this method is deprecated as of ElementTree 1.3 and lxml 2.0. It returns an iterator in lxml, which diverges from the original ElementTree behaviour. If you want an efficient iterator, use the ``element.iter()`` method instead. You should only use this method in new code if you require backwards compatibility with older versions of lxml or ElementTree. """ if tag is not None: tags += (tag,) return ElementDepthFirstIterator(self, tags) def iter(self, tag=None, *tags): u"""iter(self, tag=None, *tags) Iterate over all elements in the subtree in document order (depth first pre-order), starting with this element. Can be restricted to find only elements with specific tags: pass ``"{ns}localname"`` as tag. Either or both of ``ns`` and ``localname`` can be ``*`` for a wildcard; ``ns`` can be empty for no namespace. ``"localname"`` is equivalent to ``"{}localname"`` (i.e. no namespace) but ``"*"`` is ``"{*}*"`` (any or no namespace), not ``"{}*"``. You can also pass the Element, Comment, ProcessingInstruction and Entity factory functions to look only for the specific element type. Passing multiple tags (or a sequence of tags) instead of a single tag will let the iterator return all elements matching any of these tags, in document order. """ if tag is not None: tags += (tag,) return ElementDepthFirstIterator(self, tags) def itertext(self, tag=None, *tags, with_tail=True): u"""itertext(self, tag=None, *tags, with_tail=True) Iterates over the text content of a subtree. You can pass tag names to restrict text content to specific elements, see `iter`. You can set the ``with_tail`` keyword argument to ``False`` to skip over tail text. """ if tag is not None: tags += (tag,) return ElementTextIterator(self, tags, with_tail=with_tail) def makeelement(self, _tag, attrib=None, nsmap=None, **_extra): u"""makeelement(self, _tag, attrib=None, nsmap=None, **_extra) Creates a new element associated with the same document. """ _assertValidDoc(self._doc) return _makeElement(_tag, NULL, self._doc, None, None, None, attrib, nsmap, _extra) def find(self, path, namespaces=None): u"""find(self, path, namespaces=None) Finds the first matching subelement, by tag name or path. The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ if isinstance(path, QName): path = (<QName>path).text return _elementpath.find(self, path, namespaces) def findtext(self, path, default=None, namespaces=None): u"""findtext(self, path, default=None, namespaces=None) Finds text for the first matching subelement, by tag name or path. The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ if isinstance(path, QName): path = (<QName>path).text return _elementpath.findtext(self, path, default, namespaces) def findall(self, path, namespaces=None): u"""findall(self, path, namespaces=None) Finds all matching subelements, by tag name or path. The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ if isinstance(path, QName): path = (<QName>path).text return _elementpath.findall(self, path, namespaces) def iterfind(self, path, namespaces=None): u"""iterfind(self, path, namespaces=None) Iterates over all matching subelements, by tag name or path. The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ if isinstance(path, QName): path = (<QName>path).text return _elementpath.iterfind(self, path, namespaces) def xpath(self, _path, *, namespaces=None, extensions=None, smart_strings=True, **_variables): u"""xpath(self, _path, namespaces=None, extensions=None, smart_strings=True, **_variables) Evaluate an xpath expression using the element as context node. """ evaluator = XPathElementEvaluator(self, namespaces=namespaces, extensions=extensions, smart_strings=smart_strings) return evaluator(_path, **_variables) def cssselect(self, expr, *, translator='xml'): """ Run the CSS expression on this element and its children, returning a list of the results. Equivalent to lxml.cssselect.CSSSelect(expr)(self) -- note that pre-compiling the expression can provide a substantial speedup. """ # Do the import here to make the dependency optional. from lxml.cssselect import CSSSelector return CSSSelector(expr, translator=translator)(self) cdef extern from "includes/etree_defs.h": # macro call to 't->tp_new()' for fast instantiation cdef object NEW_ELEMENT "PY_NEW" (object t) @cython.linetrace(False) cdef _Element _elementFactory(_Document doc, xmlNode* c_node): cdef _Element result result = getProxy(c_node) if result is not None: return result if c_node is NULL: return None element_class = LOOKUP_ELEMENT_CLASS( ELEMENT_CLASS_LOOKUP_STATE, doc, c_node) if hasProxy(c_node): # prevent re-entry race condition - we just called into Python return getProxy(c_node) result = NEW_ELEMENT(element_class) if hasProxy(c_node): # prevent re-entry race condition - we just called into Python result._c_node = NULL return getProxy(c_node) _registerProxy(result, doc, c_node) if element_class is not _Element: result._init() return result @cython.internal cdef class __ContentOnlyElement(_Element): cdef int _raiseImmutable(self) except -1: raise TypeError, u"this element does not have children or attributes" def set(self, key, value): u"set(self, key, value)" self._raiseImmutable() def append(self, value): u"append(self, value)" self._raiseImmutable() def insert(self, index, value): u"insert(self, index, value)" self._raiseImmutable() def __setitem__(self, index, value): u"__setitem__(self, index, value)" self._raiseImmutable() @property def attrib(self): return IMMUTABLE_EMPTY_MAPPING property text: def __get__(self): _assertValidNode(self) return funicodeOrEmpty(self._c_node.content) def __set__(self, value): cdef tree.xmlDict* c_dict _assertValidNode(self) if value is None: c_text = <const_xmlChar*>NULL else: value = _utf8(value) c_text = _xcstr(value) tree.xmlNodeSetContent(self._c_node, c_text) # ACCESSORS def __getitem__(self, x): u"__getitem__(self, x)" if isinstance(x, slice): return [] else: raise IndexError, u"list index out of range" def __len__(self): u"__len__(self)" return 0 def get(self, key, default=None): u"get(self, key, default=None)" return None def keys(self): u"keys(self)" return [] def items(self): u"items(self)" return [] def values(self): u"values(self)" return [] cdef class _Comment(__ContentOnlyElement): @property def tag(self): return Comment def __repr__(self): return "<!--%s-->" % strrepr(self.text) cdef class _ProcessingInstruction(__ContentOnlyElement): @property def tag(self): return ProcessingInstruction property target: # not in ElementTree def __get__(self): _assertValidNode(self) return funicode(self._c_node.name) def __set__(self, value): _assertValidNode(self) value = _utf8(value) c_text = _xcstr(value) tree.xmlNodeSetName(self._c_node, c_text) def __repr__(self): text = self.text if text: return "<?%s %s?>" % (strrepr(self.target), strrepr(text)) else: return "<?%s?>" % strrepr(self.target) def get(self, key, default=None): u"""get(self, key, default=None) Try to parse pseudo-attributes from the text content of the processing instruction, search for one with the given key as name and return its associated value. Note that this is only a convenience method for the most common case that all text content is structured in attribute-like name-value pairs with properly quoted values. It is not guaranteed to work for all possible text content. """ return self.attrib.get(key, default) @property def attrib(self): """Returns a dict containing all pseudo-attributes that can be parsed from the text content of this processing instruction. Note that modifying the dict currently has no effect on the XML node, although this is not guaranteed to stay this way. """ return { attr : (value1 or value2) for attr, value1, value2 in _FIND_PI_ATTRIBUTES(u' ' + self.text) } cdef object _FIND_PI_ATTRIBUTES = re.compile(ur'\s+(\w+)\s*=\s*(?:\'([^\']*)\'|"([^"]*)")', re.U).findall cdef class _Entity(__ContentOnlyElement): @property def tag(self): return Entity property name: # not in ElementTree def __get__(self): _assertValidNode(self) return funicode(self._c_node.name) def __set__(self, value): _assertValidNode(self) value_utf = _utf8(value) if b'&' in value_utf or b';' in value_utf: raise ValueError, f"Invalid entity name '{value}'" tree.xmlNodeSetName(self._c_node, _xcstr(value_utf)) @property def text(self): # FIXME: should this be None or '&[VALUE];' or the resolved # entity value ? _assertValidNode(self) return f'&{funicode(self._c_node.name)};' def __repr__(self): return "&%s;" % strrepr(self.name) cdef class QName: u"""QName(text_or_uri_or_element, tag=None) QName wrapper for qualified XML names. Pass a tag name by itself or a namespace URI and a tag name to create a qualified name. Alternatively, pass an Element to extract its tag name. ``None`` as first argument is ignored in order to allow for generic 2-argument usage. The ``text`` property holds the qualified name in ``{namespace}tagname`` notation. The ``namespace`` and ``localname`` properties hold the respective parts of the tag name. You can pass QName objects wherever a tag name is expected. Also, setting Element text from a QName will resolve the namespace prefix on assignment and set a qualified text value. This is helpful in XML languages like SOAP or XML-Schema that use prefixed tag names in their text content. """ cdef readonly unicode text cdef readonly unicode localname cdef readonly unicode namespace def __init__(self, text_or_uri_or_element, tag=None): if text_or_uri_or_element is None: # Allow None as no namespace. text_or_uri_or_element, tag = tag, None if not _isString(text_or_uri_or_element): if isinstance(text_or_uri_or_element, _Element): text_or_uri_or_element = (<_Element>text_or_uri_or_element).tag if not _isString(text_or_uri_or_element): raise ValueError, f"Invalid input tag of type {type(text_or_uri_or_element)!r}" elif isinstance(text_or_uri_or_element, QName): text_or_uri_or_element = (<QName>text_or_uri_or_element).text elif text_or_uri_or_element is not None: text_or_uri_or_element = unicode(text_or_uri_or_element) else: raise ValueError, f"Invalid input tag of type {type(text_or_uri_or_element)!r}" ns_utf, tag_utf = _getNsTag(text_or_uri_or_element) if tag is not None: # either ('ns', 'tag') or ('{ns}oldtag', 'newtag') if ns_utf is None: ns_utf = tag_utf # case 1: namespace ended up as tag name tag_utf = _utf8(tag) _tagValidOrRaise(tag_utf) self.localname = (<bytes>tag_utf).decode('utf8') if ns_utf is None: self.namespace = None self.text = self.localname else: self.namespace = (<bytes>ns_utf).decode('utf8') self.text = u"{%s}%s" % (self.namespace, self.localname) def __str__(self): return self.text def __hash__(self): return hash(self.text) def __richcmp__(self, other, int op): try: if type(other) is QName: other = (<QName>other).text elif not isinstance(other, unicode): other = unicode(other) except (ValueError, UnicodeDecodeError): return NotImplemented return python.PyObject_RichCompare(self.text, other, op) cdef public class _ElementTree [ type LxmlElementTreeType, object LxmlElementTree ]: cdef _Document _doc cdef _Element _context_node # Note that _doc is only used to store the original document if we do not # have a _context_node. All methods should prefer self._context_node._doc # to honour tree restructuring. _doc can happily be None! @cython.final cdef int _assertHasRoot(self) except -1: u"""We have to take care here: the document may not have a root node! This can happen if ElementTree() is called without any argument and the caller 'forgets' to call parse() afterwards, so this is a bug in the caller program. """ assert self._context_node is not None, \ u"ElementTree not initialized, missing root" return 0 def parse(self, source, _BaseParser parser=None, *, base_url=None): u"""parse(self, source, parser=None, base_url=None) Updates self with the content of source and returns its root. """ cdef _Document doc = None try: doc = _parseDocument(source, parser, base_url) except _TargetParserResult as result_container: # raises a TypeError if we don't get an _Element self._context_node = result_container.result else: self._context_node = doc.getroot() self._doc = None if self._context_node is not None else doc return self._context_node def _setroot(self, _Element root not None): u"""_setroot(self, root) Relocate the ElementTree to a new root node. """ _assertValidNode(root) if root._c_node.type != tree.XML_ELEMENT_NODE: raise TypeError, u"Only elements can be the root of an ElementTree" self._context_node = root self._doc = None def getroot(self): u"""getroot(self) Gets the root element for this tree. """ return self._context_node def __copy__(self): return _elementTreeFactory(self._doc, self._context_node) def __deepcopy__(self, memo): cdef _Element root cdef _Document doc cdef xmlDoc* c_doc if self._context_node is not None: root = self._context_node.__copy__() assert root is not None _assertValidNode(root) _copyNonElementSiblings(self._context_node._c_node, root._c_node) return _elementTreeFactory(None, root) elif self._doc is not None: _assertValidDoc(self._doc) c_doc = tree.xmlCopyDoc(self._doc._c_doc, 1) if c_doc is NULL: raise MemoryError() doc = _documentFactory(c_doc, self._doc._parser) return _elementTreeFactory(doc, None) else: # so what ... return self # not in ElementTree @property def docinfo(self) -> DocInfo: """Information about the document provided by parser and DTD.""" self._assertHasRoot() return DocInfo(self._context_node._doc) # not in ElementTree, read-only @property def parser(self): """The parser that was used to parse the document in this ElementTree. """ if self._context_node is not None and \ self._context_node._doc is not None: return self._context_node._doc._parser if self._doc is not None: return self._doc._parser return None def write(self, file, *, encoding=None, method="xml", bint pretty_print=False, xml_declaration=None, bint with_tail=True, standalone=None, doctype=None, compression=0, bint exclusive=False, inclusive_ns_prefixes=None, bint with_comments=True, bint strip_text=False, docstring=None): u"""write(self, file, encoding=None, method="xml", pretty_print=False, xml_declaration=None, with_tail=True, standalone=None, doctype=None, compression=0, exclusive=False, inclusive_ns_prefixes=None, with_comments=True, strip_text=False) Write the tree to a filename, file or file-like object. Defaults to ASCII encoding and writing a declaration as needed. The keyword argument 'method' selects the output method: 'xml', 'html', 'text' or 'c14n'. Default is 'xml'. With ``method="c14n"`` (C14N version 1), the options ``exclusive``, ``with_comments`` and ``inclusive_ns_prefixes`` request exclusive C14N, include comments, and list the inclusive prefixes respectively. With ``method="c14n2"`` (C14N version 2), the ``with_comments`` and ``strip_text`` options control the output of comments and text space according to C14N 2.0. Passing a boolean value to the ``standalone`` option will output an XML declaration with the corresponding ``standalone`` flag. The ``doctype`` option allows passing in a plain string that will be serialised before the XML tree. Note that passing in non well-formed content here will make the XML output non well-formed. Also, an existing doctype in the document tree will not be removed when serialising an ElementTree instance. The ``compression`` option enables GZip compression level 1-9. The ``inclusive_ns_prefixes`` should be a list of namespace strings (i.e. ['xs', 'xsi']) that will be promoted to the top-level element during exclusive C14N serialisation. This parameter is ignored if exclusive mode=False. If exclusive=True and no list is provided, a namespace will only be rendered if it is used by the immediate parent or one of its attributes and its prefix and values have not already been rendered by an ancestor of the namespace node's parent element. """ cdef bint write_declaration cdef int is_standalone self._assertHasRoot() _assertValidNode(self._context_node) if compression is None or compression < 0: compression = 0 # C14N serialisation if method in ('c14n', 'c14n2'): if encoding is not None: raise ValueError("Cannot specify encoding with C14N") if xml_declaration: raise ValueError("Cannot enable XML declaration in C14N") if method == 'c14n': _tofilelikeC14N(file, self._context_node, exclusive, with_comments, compression, inclusive_ns_prefixes) else: # c14n2 with _open_utf8_file(file, compression=compression) as f: target = C14NWriterTarget( f.write, with_comments=with_comments, strip_text=strip_text) _tree_to_target(self, target) return if not with_comments: raise ValueError("Can only discard comments in C14N serialisation") # suppress decl. in default case (purely for ElementTree compatibility) if xml_declaration is not None: write_declaration = xml_declaration if encoding is None: encoding = 'ASCII' else: encoding = encoding.upper() elif encoding is None: encoding = 'ASCII' write_declaration = 0 else: encoding = encoding.upper() write_declaration = encoding not in ( 'US-ASCII', 'ASCII', 'UTF8', 'UTF-8') if standalone is None: is_standalone = -1 elif standalone: write_declaration = 1 is_standalone = 1 else: write_declaration = 1 is_standalone = 0 if docstring is not None and doctype is None: import warnings warnings.warn( "The 'docstring' option is deprecated. Use 'doctype' instead.", DeprecationWarning) doctype = docstring _tofilelike(file, self._context_node, encoding, doctype, method, write_declaration, 1, pretty_print, with_tail, is_standalone, compression) def getpath(self, _Element element not None): u"""getpath(self, element) Returns a structural, absolute XPath expression to find the element. For namespaced elements, the expression uses prefixes from the document, which therefore need to be provided in order to make any use of the expression in XPath. Also see the method getelementpath(self, element), which returns a self-contained ElementPath expression. """ cdef _Document doc cdef _Element root cdef xmlDoc* c_doc _assertValidNode(element) if self._context_node is not None: root = self._context_node doc = root._doc elif self._doc is not None: doc = self._doc root = doc.getroot() else: raise ValueError, u"Element is not in this tree." _assertValidDoc(doc) _assertValidNode(root) if element._doc is not doc: raise ValueError, u"Element is not in this tree." c_doc = _fakeRootDoc(doc._c_doc, root._c_node) c_path = tree.xmlGetNodePath(element._c_node) _destroyFakeDoc(doc._c_doc, c_doc) if c_path is NULL: raise MemoryError() path = funicode(c_path) tree.xmlFree(c_path) return path def getelementpath(self, _Element element not None): u"""getelementpath(self, element) Returns a structural, absolute ElementPath expression to find the element. This path can be used in the .find() method to look up the element, provided that the elements along the path and their list of immediate children were not modified in between. ElementPath has the advantage over an XPath expression (as returned by the .getpath() method) that it does not require additional prefix declarations. It is always self-contained. """ cdef _Element root cdef Py_ssize_t count _assertValidNode(element) if element._c_node.type != tree.XML_ELEMENT_NODE: raise ValueError, u"input is not an Element" if self._context_node is not None: root = self._context_node elif self._doc is not None: root = self._doc.getroot() else: raise ValueError, u"Element is not in this tree" _assertValidNode(root) if element._doc is not root._doc: raise ValueError, u"Element is not in this tree" path = [] c_element = element._c_node while c_element is not root._c_node: c_name = c_element.name c_href = _getNs(c_element) tag = _namespacedNameFromNsName(c_href, c_name) if c_href is NULL: c_href = <const_xmlChar*>b'' # no namespace (NULL is wildcard) # use tag[N] if there are preceding siblings with the same tag count = 0 c_node = c_element.prev while c_node is not NULL: if c_node.type == tree.XML_ELEMENT_NODE: if _tagMatches(c_node, c_href, c_name): count += 1 c_node = c_node.prev if count: tag = f'{tag}[{count+1}]' else: # use tag[1] if there are following siblings with the same tag c_node = c_element.next while c_node is not NULL: if c_node.type == tree.XML_ELEMENT_NODE: if _tagMatches(c_node, c_href, c_name): tag += '[1]' break c_node = c_node.next path.append(tag) c_element = c_element.parent if c_element is NULL or c_element.type != tree.XML_ELEMENT_NODE: raise ValueError, u"Element is not in this tree." if not path: return '.' path.reverse() return '/'.join(path) def getiterator(self, tag=None, *tags): u"""getiterator(self, *tags, tag=None) Returns a sequence or iterator of all elements in document order (depth first pre-order), starting with the root element. Can be restricted to find only elements with specific tags, see `_Element.iter`. :deprecated: Note that this method is deprecated as of ElementTree 1.3 and lxml 2.0. It returns an iterator in lxml, which diverges from the original ElementTree behaviour. If you want an efficient iterator, use the ``tree.iter()`` method instead. You should only use this method in new code if you require backwards compatibility with older versions of lxml or ElementTree. """ root = self.getroot() if root is None: return ITER_EMPTY if tag is not None: tags += (tag,) return root.getiterator(*tags) def iter(self, tag=None, *tags): u"""iter(self, tag=None, *tags) Creates an iterator for the root element. The iterator loops over all elements in this tree, in document order. Note that siblings of the root element (comments or processing instructions) are not returned by the iterator. Can be restricted to find only elements with specific tags, see `_Element.iter`. """ root = self.getroot() if root is None: return ITER_EMPTY if tag is not None: tags += (tag,) return root.iter(*tags) def find(self, path, namespaces=None): u"""find(self, path, namespaces=None) Finds the first toplevel element with given tag. Same as ``tree.getroot().find(path)``. The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ self._assertHasRoot() root = self.getroot() if _isString(path): if path[:1] == "/": path = "." + path return root.find(path, namespaces) def findtext(self, path, default=None, namespaces=None): u"""findtext(self, path, default=None, namespaces=None) Finds the text for the first element matching the ElementPath expression. Same as getroot().findtext(path) The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ self._assertHasRoot() root = self.getroot() if _isString(path): if path[:1] == "/": path = "." + path return root.findtext(path, default, namespaces) def findall(self, path, namespaces=None): u"""findall(self, path, namespaces=None) Finds all elements matching the ElementPath expression. Same as getroot().findall(path). The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ self._assertHasRoot() root = self.getroot() if _isString(path): if path[:1] == "/": path = "." + path return root.findall(path, namespaces) def iterfind(self, path, namespaces=None): u"""iterfind(self, path, namespaces=None) Iterates over all elements matching the ElementPath expression. Same as getroot().iterfind(path). The optional ``namespaces`` argument accepts a prefix-to-namespace mapping that allows the usage of XPath prefixes in the path expression. """ self._assertHasRoot() root = self.getroot() if _isString(path): if path[:1] == "/": path = "." + path return root.iterfind(path, namespaces) def xpath(self, _path, *, namespaces=None, extensions=None, smart_strings=True, **_variables): u"""xpath(self, _path, namespaces=None, extensions=None, smart_strings=True, **_variables) XPath evaluate in context of document. ``namespaces`` is an optional dictionary with prefix to namespace URI mappings, used by XPath. ``extensions`` defines additional extension functions. Returns a list (nodeset), or bool, float or string. In case of a list result, return Element for element nodes, string for text and attribute values. Note: if you are going to apply multiple XPath expressions against the same document, it is more efficient to use XPathEvaluator directly. """ self._assertHasRoot() evaluator = XPathDocumentEvaluator(self, namespaces=namespaces, extensions=extensions, smart_strings=smart_strings) return evaluator(_path, **_variables) def xslt(self, _xslt, extensions=None, access_control=None, **_kw): u"""xslt(self, _xslt, extensions=None, access_control=None, **_kw) Transform this document using other document. xslt is a tree that should be XSLT keyword parameters are XSLT transformation parameters. Returns the transformed tree. Note: if you are going to apply the same XSLT stylesheet against multiple documents, it is more efficient to use the XSLT class directly. """ self._assertHasRoot() style = XSLT(_xslt, extensions=extensions, access_control=access_control) return style(self, **_kw) def relaxng(self, relaxng): u"""relaxng(self, relaxng) Validate this document using other document. The relaxng argument is a tree that should contain a Relax NG schema. Returns True or False, depending on whether validation succeeded. Note: if you are going to apply the same Relax NG schema against multiple documents, it is more efficient to use the RelaxNG class directly. """ self._assertHasRoot() schema = RelaxNG(relaxng) return schema.validate(self) def xmlschema(self, xmlschema): u"""xmlschema(self, xmlschema) Validate this document using other document. The xmlschema argument is a tree that should contain an XML Schema. Returns True or False, depending on whether validation succeeded. Note: If you are going to apply the same XML Schema against multiple documents, it is more efficient to use the XMLSchema class directly. """ self._assertHasRoot() schema = XMLSchema(xmlschema) return schema.validate(self) def xinclude(self): u"""xinclude(self) Process the XInclude nodes in this document and include the referenced XML fragments. There is support for loading files through the file system, HTTP and FTP. Note that XInclude does not support custom resolvers in Python space due to restrictions of libxml2 <= 2.6.29. """ self._assertHasRoot() XInclude()(self._context_node) def write_c14n(self, file, *, bint exclusive=False, bint with_comments=True, compression=0, inclusive_ns_prefixes=None): u"""write_c14n(self, file, exclusive=False, with_comments=True, compression=0, inclusive_ns_prefixes=None) C14N write of document. Always writes UTF-8. The ``compression`` option enables GZip compression level 1-9. The ``inclusive_ns_prefixes`` should be a list of namespace strings (i.e. ['xs', 'xsi']) that will be promoted to the top-level element during exclusive C14N serialisation. This parameter is ignored if exclusive mode=False. If exclusive=True and no list is provided, a namespace will only be rendered if it is used by the immediate parent or one of its attributes and its prefix and values have not already been rendered by an ancestor of the namespace node's parent element. NOTE: This method is deprecated as of lxml 4.4 and will be removed in a future release. Use ``.write(f, method="c14n")`` instead. """ self._assertHasRoot() _assertValidNode(self._context_node) if compression is None or compression < 0: compression = 0 _tofilelikeC14N(file, self._context_node, exclusive, with_comments, compression, inclusive_ns_prefixes) cdef _ElementTree _elementTreeFactory(_Document doc, _Element context_node): return _newElementTree(doc, context_node, _ElementTree) cdef _ElementTree _newElementTree(_Document doc, _Element context_node, object baseclass): cdef _ElementTree result result = baseclass() if context_node is None and doc is not None: context_node = doc.getroot() if context_node is None: _assertValidDoc(doc) result._doc = doc else: _assertValidNode(context_node) result._context_node = context_node return result @cython.final @cython.freelist(16) cdef class _Attrib: u"""A dict-like proxy for the ``Element.attrib`` property. """ cdef _Element _element def __cinit__(self, _Element element not None): _assertValidNode(element) self._element = element # MANIPULATORS def __setitem__(self, key, value): _assertValidNode(self._element) _setAttributeValue(self._element, key, value) def __delitem__(self, key): _assertValidNode(self._element) _delAttribute(self._element, key) def update(self, sequence_or_dict): _assertValidNode(self._element) if isinstance(sequence_or_dict, (dict, _Attrib)): sequence_or_dict = sequence_or_dict.items() for key, value in sequence_or_dict: _setAttributeValue(self._element, key, value) def pop(self, key, *default): if len(default) > 1: raise TypeError, f"pop expected at most 2 arguments, got {len(default)+1}" _assertValidNode(self._element) result = _getAttributeValue(self._element, key, None) if result is None: if not default: raise KeyError, key result = default[0] else: _delAttribute(self._element, key) return result def clear(self): _assertValidNode(self._element) c_attrs = self._element._c_node.properties if c_attrs: self._element._c_node.properties = NULL tree.xmlFreePropList(c_attrs) # ACCESSORS def __repr__(self): _assertValidNode(self._element) return repr(dict( _collectAttributes(self._element._c_node, 3) )) def __copy__(self): _assertValidNode(self._element) return dict(_collectAttributes(self._element._c_node, 3)) def __deepcopy__(self, memo): _assertValidNode(self._element) return dict(_collectAttributes(self._element._c_node, 3)) def __getitem__(self, key): _assertValidNode(self._element) result = _getAttributeValue(self._element, key, None) if result is None: raise KeyError, key return result def __bool__(self): _assertValidNode(self._element) cdef xmlAttr* c_attr = self._element._c_node.properties while c_attr is not NULL: if c_attr.type == tree.XML_ATTRIBUTE_NODE: return 1 c_attr = c_attr.next return 0 def __len__(self): _assertValidNode(self._element) cdef xmlAttr* c_attr = self._element._c_node.properties cdef Py_ssize_t c = 0 while c_attr is not NULL: if c_attr.type == tree.XML_ATTRIBUTE_NODE: c += 1 c_attr = c_attr.next return c def get(self, key, default=None): _assertValidNode(self._element) return _getAttributeValue(self._element, key, default) def keys(self): _assertValidNode(self._element) return _collectAttributes(self._element._c_node, 1) def __iter__(self): _assertValidNode(self._element) return iter(_collectAttributes(self._element._c_node, 1)) def iterkeys(self): _assertValidNode(self._element) return iter(_collectAttributes(self._element._c_node, 1)) def values(self): _assertValidNode(self._element) return _collectAttributes(self._element._c_node, 2) def itervalues(self): _assertValidNode(self._element) return iter(_collectAttributes(self._element._c_node, 2)) def items(self): _assertValidNode(self._element) return _collectAttributes(self._element._c_node, 3) def iteritems(self): _assertValidNode(self._element) return iter(_collectAttributes(self._element._c_node, 3)) def has_key(self, key): _assertValidNode(self._element) return key in self def __contains__(self, key): _assertValidNode(self._element) cdef xmlNode* c_node ns, tag = _getNsTag(key) c_node = self._element._c_node c_href = <const_xmlChar*>NULL if ns is None else _xcstr(ns) return 1 if tree.xmlHasNsProp(c_node, _xcstr(tag), c_href) else 0 def __richcmp__(self, other, int op): try: one = dict(self.items()) if not isinstance(other, dict): other = dict(other) except (TypeError, ValueError): return NotImplemented return python.PyObject_RichCompare(one, other, op) MutableMapping.register(_Attrib) @cython.final @cython.internal cdef class _AttribIterator: u"""Attribute iterator - for internal use only! """ # XML attributes must not be removed while running! cdef _Element _node cdef xmlAttr* _c_attr cdef int _keysvalues # 1 - keys, 2 - values, 3 - items (key, value) def __iter__(self): return self def __next__(self): cdef xmlAttr* c_attr if self._node is None: raise StopIteration c_attr = self._c_attr while c_attr is not NULL and c_attr.type != tree.XML_ATTRIBUTE_NODE: c_attr = c_attr.next if c_attr is NULL: self._node = None raise StopIteration self._c_attr = c_attr.next if self._keysvalues == 1: return _namespacedName(<xmlNode*>c_attr) elif self._keysvalues == 2: return _attributeValue(self._node._c_node, c_attr) else: return (_namespacedName(<xmlNode*>c_attr), _attributeValue(self._node._c_node, c_attr)) cdef object _attributeIteratorFactory(_Element element, int keysvalues): cdef _AttribIterator attribs if element._c_node.properties is NULL: return ITER_EMPTY attribs = _AttribIterator() attribs._node = element attribs._c_attr = element._c_node.properties attribs._keysvalues = keysvalues return attribs cdef public class _ElementTagMatcher [ object LxmlElementTagMatcher, type LxmlElementTagMatcherType ]: """ Dead but public. :) """ cdef object _pystrings cdef int _node_type cdef char* _href cdef char* _name cdef _initTagMatch(self, tag): self._href = NULL self._name = NULL if tag is None: self._node_type = 0 elif tag is Comment: self._node_type = tree.XML_COMMENT_NODE elif tag is ProcessingInstruction: self._node_type = tree.XML_PI_NODE elif tag is Entity: self._node_type = tree.XML_ENTITY_REF_NODE elif tag is Element: self._node_type = tree.XML_ELEMENT_NODE else: self._node_type = tree.XML_ELEMENT_NODE self._pystrings = _getNsTag(tag) if self._pystrings[0] is not None: self._href = _cstr(self._pystrings[0]) self._name = _cstr(self._pystrings[1]) if self._name[0] == c'*' and self._name[1] == c'\0': self._name = NULL cdef public class _ElementIterator(_ElementTagMatcher) [ object LxmlElementIterator, type LxmlElementIteratorType ]: """ Dead but public. :) """ # we keep Python references here to control GC cdef _Element _node cdef _node_to_node_function _next_element def __iter__(self): return self cdef void _storeNext(self, _Element node): cdef xmlNode* c_node c_node = self._next_element(node._c_node) while c_node is not NULL and \ self._node_type != 0 and \ (<tree.xmlElementType>self._node_type != c_node.type or not _tagMatches(c_node, <const_xmlChar*>self._href, <const_xmlChar*>self._name)): c_node = self._next_element(c_node) if c_node is NULL: self._node = None else: # Python ref: self._node = _elementFactory(node._doc, c_node) def __next__(self): cdef xmlNode* c_node cdef _Element current_node if self._node is None: raise StopIteration # Python ref: current_node = self._node self._storeNext(current_node) return current_node @cython.final @cython.internal cdef class _MultiTagMatcher: """ Match an xmlNode against a list of tags. """ cdef list _py_tags cdef qname* _cached_tags cdef size_t _tag_count cdef size_t _cached_size cdef _Document _cached_doc cdef int _node_types def __cinit__(self, tags): self._py_tags = [] self.initTagMatch(tags) def __dealloc__(self): self._clear() cdef bint rejectsAll(self): return not self._tag_count and not self._node_types cdef bint rejectsAllAttributes(self): return not self._tag_count cdef bint matchesType(self, int node_type): if node_type == tree.XML_ELEMENT_NODE and self._tag_count: return True return self._node_types & (1 << node_type) cdef void _clear(self): cdef size_t i, count count = self._tag_count self._tag_count = 0 if self._cached_tags: for i in xrange(count): cpython.ref.Py_XDECREF(self._cached_tags[i].href) python.lxml_free(self._cached_tags) self._cached_tags = NULL cdef initTagMatch(self, tags): self._cached_doc = None del self._py_tags[:] self._clear() if tags is None or tags == (): # no selection in tags argument => match anything self._node_types = ( 1 << tree.XML_COMMENT_NODE | 1 << tree.XML_PI_NODE | 1 << tree.XML_ENTITY_REF_NODE | 1 << tree.XML_ELEMENT_NODE) else: self._node_types = 0 self._storeTags(tags, set()) cdef _storeTags(self, tag, set seen): if tag is Comment: self._node_types |= 1 << tree.XML_COMMENT_NODE elif tag is ProcessingInstruction: self._node_types |= 1 << tree.XML_PI_NODE elif tag is Entity: self._node_types |= 1 << tree.XML_ENTITY_REF_NODE elif tag is Element: self._node_types |= 1 << tree.XML_ELEMENT_NODE elif python._isString(tag): if tag in seen: return seen.add(tag) if tag in ('*', '{*}*'): self._node_types |= 1 << tree.XML_ELEMENT_NODE else: href, name = _getNsTag(tag) if name == b'*': name = None if href is None: href = b'' # no namespace elif href == b'*': href = None # wildcard: any namespace, including none self._py_tags.append((href, name)) elif isinstance(tag, QName): self._storeTags(tag.text, seen) else: # support a sequence of tags for item in tag: self._storeTags(item, seen) cdef inline int cacheTags(self, _Document doc, bint force_into_dict=False) except -1: """ Look up the tag names in the doc dict to enable string pointer comparisons. """ cdef size_t dict_size = tree.xmlDictSize(doc._c_doc.dict) if doc is self._cached_doc and dict_size == self._cached_size: # doc and dict didn't change => names already cached return 0 self._tag_count = 0 if not self._py_tags: self._cached_doc = doc self._cached_size = dict_size return 0 if not self._cached_tags: self._cached_tags = <qname*>python.lxml_malloc(len(self._py_tags), sizeof(qname)) if not self._cached_tags: self._cached_doc = None raise MemoryError() self._tag_count = <size_t>_mapTagsToQnameMatchArray( doc._c_doc, self._py_tags, self._cached_tags, force_into_dict) self._cached_doc = doc self._cached_size = dict_size return 0 cdef inline bint matches(self, xmlNode* c_node): cdef qname* c_qname if self._node_types & (1 << c_node.type): return True elif c_node.type == tree.XML_ELEMENT_NODE: for c_qname in self._cached_tags[:self._tag_count]: if _tagMatchesExactly(c_node, c_qname): return True return False cdef inline bint matchesNsTag(self, const_xmlChar* c_href, const_xmlChar* c_name): cdef qname* c_qname if self._node_types & (1 << tree.XML_ELEMENT_NODE): return True for c_qname in self._cached_tags[:self._tag_count]: if _nsTagMatchesExactly(c_href, c_name, c_qname): return True return False cdef inline bint matchesAttribute(self, xmlAttr* c_attr): """Attribute matches differ from Element matches in that they do not care about node types. """ cdef qname* c_qname for c_qname in self._cached_tags[:self._tag_count]: if _tagMatchesExactly(<xmlNode*>c_attr, c_qname): return True return False cdef class _ElementMatchIterator: cdef _Element _node cdef _node_to_node_function _next_element cdef _MultiTagMatcher _matcher @cython.final cdef _initTagMatcher(self, tags): self._matcher = _MultiTagMatcher.__new__(_MultiTagMatcher, tags) def __iter__(self): return self @cython.final cdef int _storeNext(self, _Element node) except -1: self._matcher.cacheTags(node._doc) c_node = self._next_element(node._c_node) while c_node is not NULL and not self._matcher.matches(c_node): c_node = self._next_element(c_node) # store Python ref to next node to make sure it's kept alive self._node = _elementFactory(node._doc, c_node) if c_node is not NULL else None return 0 def __next__(self): cdef _Element current_node = self._node if current_node is None: raise StopIteration self._storeNext(current_node) return current_node cdef class ElementChildIterator(_ElementMatchIterator): u"""ElementChildIterator(self, node, tag=None, reversed=False) Iterates over the children of an element. """ def __cinit__(self, _Element node not None, tag=None, *, bint reversed=False): cdef xmlNode* c_node _assertValidNode(node) self._initTagMatcher(tag) if reversed: c_node = _findChildBackwards(node._c_node, 0) self._next_element = _previousElement else: c_node = _findChildForwards(node._c_node, 0) self._next_element = _nextElement self._matcher.cacheTags(node._doc) while c_node is not NULL and not self._matcher.matches(c_node): c_node = self._next_element(c_node) # store Python ref to next node to make sure it's kept alive self._node = _elementFactory(node._doc, c_node) if c_node is not NULL else None cdef class SiblingsIterator(_ElementMatchIterator): u"""SiblingsIterator(self, node, tag=None, preceding=False) Iterates over the siblings of an element. You can pass the boolean keyword ``preceding`` to specify the direction. """ def __cinit__(self, _Element node not None, tag=None, *, bint preceding=False): _assertValidNode(node) self._initTagMatcher(tag) if preceding: self._next_element = _previousElement else: self._next_element = _nextElement self._storeNext(node) cdef class AncestorsIterator(_ElementMatchIterator): u"""AncestorsIterator(self, node, tag=None) Iterates over the ancestors of an element (from parent to parent). """ def __cinit__(self, _Element node not None, tag=None): _assertValidNode(node) self._initTagMatcher(tag) self._next_element = _parentElement self._storeNext(node) cdef class ElementDepthFirstIterator: u"""ElementDepthFirstIterator(self, node, tag=None, inclusive=True) Iterates over an element and its sub-elements in document order (depth first pre-order). Note that this also includes comments, entities and processing instructions. To filter them out, check if the ``tag`` property of the returned element is a string (i.e. not None and not a factory function), or pass the ``Element`` factory for the ``tag`` argument to receive only Elements. If the optional ``tag`` argument is not None, the iterator returns only the elements that match the respective name and namespace. The optional boolean argument 'inclusive' defaults to True and can be set to False to exclude the start element itself. Note that the behaviour of this iterator is completely undefined if the tree it traverses is modified during iteration. """ # we keep Python references here to control GC # keep the next Element after the one we return, and the (s)top node cdef _Element _next_node cdef _Element _top_node cdef _MultiTagMatcher _matcher def __cinit__(self, _Element node not None, tag=None, *, bint inclusive=True): _assertValidNode(node) self._top_node = node self._next_node = node self._matcher = _MultiTagMatcher.__new__(_MultiTagMatcher, tag) self._matcher.cacheTags(node._doc) if not inclusive or not self._matcher.matches(node._c_node): # find start node (this cannot raise StopIteration, self._next_node != None) next(self) def __iter__(self): return self def __next__(self): cdef xmlNode* c_node cdef _Element current_node = self._next_node if current_node is None: raise StopIteration c_node = current_node._c_node self._matcher.cacheTags(current_node._doc) if not self._matcher._tag_count: # no tag name was found in the dict => not in document either # try to match by node type c_node = self._nextNodeAnyTag(c_node) else: c_node = self._nextNodeMatchTag(c_node) if c_node is NULL: self._next_node = None else: self._next_node = _elementFactory(current_node._doc, c_node) return current_node @cython.final cdef xmlNode* _nextNodeAnyTag(self, xmlNode* c_node): cdef int node_types = self._matcher._node_types if not node_types: return NULL tree.BEGIN_FOR_EACH_ELEMENT_FROM(self._top_node._c_node, c_node, 0) if node_types & (1 << c_node.type): return c_node tree.END_FOR_EACH_ELEMENT_FROM(c_node) return NULL @cython.final cdef xmlNode* _nextNodeMatchTag(self, xmlNode* c_node): tree.BEGIN_FOR_EACH_ELEMENT_FROM(self._top_node._c_node, c_node, 0) if self._matcher.matches(c_node): return c_node tree.END_FOR_EACH_ELEMENT_FROM(c_node) return NULL cdef class ElementTextIterator: u"""ElementTextIterator(self, element, tag=None, with_tail=True) Iterates over the text content of a subtree. You can pass the ``tag`` keyword argument to restrict text content to a specific tag name. You can set the ``with_tail`` keyword argument to ``False`` to skip over tail text (e.g. if you know that it's only whitespace from pretty-printing). """ cdef object _events cdef _Element _start_element def __cinit__(self, _Element element not None, tag=None, *, bint with_tail=True): _assertValidNode(element) if with_tail: events = (u"start", u"comment", u"pi", u"end") else: events = (u"start", u"comment", u"pi") self._start_element = element self._events = iterwalk(element, events=events, tag=tag) def __iter__(self): return self def __next__(self): cdef _Element element result = None while result is None: event, element = next(self._events) # raises StopIteration if event == u"start": result = element.text elif element is not self._start_element: result = element.tail return result cdef xmlNode* _createElement(xmlDoc* c_doc, object name_utf) except NULL: cdef xmlNode* c_node c_node = tree.xmlNewDocNode(c_doc, NULL, _xcstr(name_utf), NULL) return c_node cdef xmlNode* _createComment(xmlDoc* c_doc, const_xmlChar* text): cdef xmlNode* c_node c_node = tree.xmlNewDocComment(c_doc, text) return c_node cdef xmlNode* _createPI(xmlDoc* c_doc, const_xmlChar* target, const_xmlChar* text): cdef xmlNode* c_node c_node = tree.xmlNewDocPI(c_doc, target, text) return c_node cdef xmlNode* _createEntity(xmlDoc* c_doc, const_xmlChar* name): cdef xmlNode* c_node c_node = tree.xmlNewReference(c_doc, name) return c_node # module-level API for ElementTree def Element(_tag, attrib=None, nsmap=None, **_extra): u"""Element(_tag, attrib=None, nsmap=None, **_extra) Element factory. This function returns an object implementing the Element interface. Also look at the `_Element.makeelement()` and `_BaseParser.makeelement()` methods, which provide a faster way to create an Element within a specific document or parser context. """ return _makeElement(_tag, NULL, None, None, None, None, attrib, nsmap, _extra) def Comment(text=None): u"""Comment(text=None) Comment element factory. This factory function creates a special element that will be serialized as an XML comment. """ cdef _Document doc cdef xmlNode* c_node cdef xmlDoc* c_doc if text is None: text = b'' else: text = _utf8(text) if b'--' in text or text.endswith(b'-'): raise ValueError("Comment may not contain '--' or end with '-'") c_doc = _newXMLDoc() doc = _documentFactory(c_doc, None) c_node = _createComment(c_doc, _xcstr(text)) tree.xmlAddChild(<xmlNode*>c_doc, c_node) return _elementFactory(doc, c_node) def ProcessingInstruction(target, text=None): u"""ProcessingInstruction(target, text=None) ProcessingInstruction element factory. This factory function creates a special element that will be serialized as an XML processing instruction. """ cdef _Document doc cdef xmlNode* c_node cdef xmlDoc* c_doc target = _utf8(target) _tagValidOrRaise(target) if target.lower() == b'xml': raise ValueError, f"Invalid PI name '{target}'" if text is None: text = b'' else: text = _utf8(text) if b'?>' in text: raise ValueError, "PI text must not contain '?>'" c_doc = _newXMLDoc() doc = _documentFactory(c_doc, None) c_node = _createPI(c_doc, _xcstr(target), _xcstr(text)) tree.xmlAddChild(<xmlNode*>c_doc, c_node) return _elementFactory(doc, c_node) PI = ProcessingInstruction cdef class CDATA: u"""CDATA(data) CDATA factory. This factory creates an opaque data object that can be used to set Element text. The usual way to use it is:: >>> el = Element('content') >>> el.text = CDATA('a string') >>> print(el.text) a string >>> print(tostring(el, encoding="unicode")) <content><![CDATA[a string]]></content> """ cdef bytes _utf8_data def __cinit__(self, data): _utf8_data = _utf8(data) if b']]>' in _utf8_data: raise ValueError, "']]>' not allowed inside CDATA" self._utf8_data = _utf8_data def Entity(name): u"""Entity(name) Entity factory. This factory function creates a special element that will be serialized as an XML entity reference or character reference. Note, however, that entities will not be automatically declared in the document. A document that uses entity references requires a DTD to define the entities. """ cdef _Document doc cdef xmlNode* c_node cdef xmlDoc* c_doc name_utf = _utf8(name) c_name = _xcstr(name_utf) if c_name[0] == c'#': if not _characterReferenceIsValid(c_name + 1): raise ValueError, f"Invalid character reference: '{name}'" elif not _xmlNameIsValid(c_name): raise ValueError, f"Invalid entity reference: '{name}'" c_doc = _newXMLDoc() doc = _documentFactory(c_doc, None) c_node = _createEntity(c_doc, c_name) tree.xmlAddChild(<xmlNode*>c_doc, c_node) return _elementFactory(doc, c_node) def SubElement(_Element _parent not None, _tag, attrib=None, nsmap=None, **_extra): u"""SubElement(_parent, _tag, attrib=None, nsmap=None, **_extra) Subelement factory. This function creates an element instance, and appends it to an existing element. """ return _makeSubElement(_parent, _tag, None, None, attrib, nsmap, _extra) def ElementTree(_Element element=None, *, file=None, _BaseParser parser=None): u"""ElementTree(element=None, file=None, parser=None) ElementTree wrapper class. """ cdef xmlNode* c_next cdef xmlNode* c_node cdef xmlNode* c_node_copy cdef xmlDoc* c_doc cdef _ElementTree etree cdef _Document doc if element is not None: doc = element._doc elif file is not None: try: doc = _parseDocument(file, parser, None) except _TargetParserResult as result_container: return result_container.result else: c_doc = _newXMLDoc() doc = _documentFactory(c_doc, parser) return _elementTreeFactory(doc, element) def HTML(text, _BaseParser parser=None, *, base_url=None): u"""HTML(text, parser=None, base_url=None) Parses an HTML document from a string constant. Returns the root node (or the result returned by a parser target). This function can be used to embed "HTML literals" in Python code. To override the parser with a different ``HTMLParser`` you can pass it to the ``parser`` keyword argument. The ``base_url`` keyword argument allows to set the original base URL of the document to support relative Paths when looking up external entities (DTD, XInclude, ...). """ cdef _Document doc if parser is None: parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() if not isinstance(parser, HTMLParser): parser = __DEFAULT_HTML_PARSER try: doc = _parseMemoryDocument(text, base_url, parser) return doc.getroot() except _TargetParserResult as result_container: return result_container.result def XML(text, _BaseParser parser=None, *, base_url=None): u"""XML(text, parser=None, base_url=None) Parses an XML document or fragment from a string constant. Returns the root node (or the result returned by a parser target). This function can be used to embed "XML literals" in Python code, like in >>> root = XML("<root><test/></root>") >>> print(root.tag) root To override the parser with a different ``XMLParser`` you can pass it to the ``parser`` keyword argument. The ``base_url`` keyword argument allows to set the original base URL of the document to support relative Paths when looking up external entities (DTD, XInclude, ...). """ cdef _Document doc if parser is None: parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() if not isinstance(parser, XMLParser): parser = __DEFAULT_XML_PARSER try: doc = _parseMemoryDocument(text, base_url, parser) return doc.getroot() except _TargetParserResult as result_container: return result_container.result def fromstring(text, _BaseParser parser=None, *, base_url=None): u"""fromstring(text, parser=None, base_url=None) Parses an XML document or fragment from a string. Returns the root node (or the result returned by a parser target). To override the default parser with a different parser you can pass it to the ``parser`` keyword argument. The ``base_url`` keyword argument allows to set the original base URL of the document to support relative Paths when looking up external entities (DTD, XInclude, ...). """ cdef _Document doc try: doc = _parseMemoryDocument(text, base_url, parser) return doc.getroot() except _TargetParserResult as result_container: return result_container.result def fromstringlist(strings, _BaseParser parser=None): u"""fromstringlist(strings, parser=None) Parses an XML document from a sequence of strings. Returns the root node (or the result returned by a parser target). To override the default parser with a different parser you can pass it to the ``parser`` keyword argument. """ cdef _Document doc if isinstance(strings, (bytes, unicode)): raise ValueError("passing a single string into fromstringlist() is not" " efficient, use fromstring() instead") if parser is None: parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() feed = parser.feed for data in strings: feed(data) return parser.close() def iselement(element): u"""iselement(element) Checks if an object appears to be a valid element object. """ return isinstance(element, _Element) and (<_Element>element)._c_node is not NULL def indent(tree, space=" ", *, Py_ssize_t level=0): """indent(tree, space=" ", level=0) Indent an XML document by inserting newlines and indentation space after elements. *tree* is the ElementTree or Element to modify. The (root) element itself will not be changed, but the tail text of all elements in its subtree will be adapted. *space* is the whitespace to insert for each indentation level, two space characters by default. *level* is the initial indentation level. Setting this to a higher value than 0 can be used for indenting subtrees that are more deeply nested inside of a document. """ root = _rootNodeOrRaise(tree) if level < 0: raise ValueError(f"Initial indentation level must be >= 0, got {level}") if _hasChild(root._c_node): space = _utf8(space) indent = b"\n" + level * space _indent_children(root._c_node, 1, space, [indent, indent + space]) cdef int _indent_children(xmlNode* c_node, Py_ssize_t level, bytes one_space, list indentations) except -1: # Reuse indentation strings for speed. if len(indentations) <= level: indentations.append(indentations[-1] + one_space) # Start a new indentation level for the first child. child_indentation = indentations[level] if not _hasNonWhitespaceText(c_node): _setNodeText(c_node, child_indentation) # Recursively indent all children. cdef xmlNode* c_child = _findChildForwards(c_node, 0) while c_child is not NULL: if _hasChild(c_child): _indent_children(c_child, level+1, one_space, indentations) c_next_child = _nextElement(c_child) if not _hasNonWhitespaceTail(c_child): if c_next_child is NULL: # Dedent after the last child. child_indentation = indentations[level-1] _setTailText(c_child, child_indentation) c_child = c_next_child return 0 def dump(_Element elem not None, *, bint pretty_print=True, with_tail=True): u"""dump(elem, pretty_print=True, with_tail=True) Writes an element tree or element structure to sys.stdout. This function should be used for debugging only. """ xml = tostring(elem, pretty_print=pretty_print, with_tail=with_tail, encoding=None if python.IS_PYTHON2 else 'unicode') if not pretty_print: xml += '\n' sys.stdout.write(xml) def tostring(element_or_tree, *, encoding=None, method="xml", xml_declaration=None, bint pretty_print=False, bint with_tail=True, standalone=None, doctype=None, # method='c14n' bint exclusive=False, inclusive_ns_prefixes=None, # method='c14n2' bint with_comments=True, bint strip_text=False, ): u"""tostring(element_or_tree, encoding=None, method="xml", xml_declaration=None, pretty_print=False, with_tail=True, standalone=None, doctype=None, exclusive=False, inclusive_ns_prefixes=None, with_comments=True, strip_text=False, ) Serialize an element to an encoded string representation of its XML tree. Defaults to ASCII encoding without XML declaration. This behaviour can be configured with the keyword arguments 'encoding' (string) and 'xml_declaration' (bool). Note that changing the encoding to a non UTF-8 compatible encoding will enable a declaration by default. You can also serialise to a Unicode string without declaration by passing the name ``'unicode'`` as encoding (or the ``str`` function in Py3 or ``unicode`` in Py2). This changes the return value from a byte string to an unencoded unicode string. The keyword argument 'pretty_print' (bool) enables formatted XML. The keyword argument 'method' selects the output method: 'xml', 'html', plain 'text' (text content without tags), 'c14n' or 'c14n2'. Default is 'xml'. With ``method="c14n"`` (C14N version 1), the options ``exclusive``, ``with_comments`` and ``inclusive_ns_prefixes`` request exclusive C14N, include comments, and list the inclusive prefixes respectively. With ``method="c14n2"`` (C14N version 2), the ``with_comments`` and ``strip_text`` options control the output of comments and text space according to C14N 2.0. Passing a boolean value to the ``standalone`` option will output an XML declaration with the corresponding ``standalone`` flag. The ``doctype`` option allows passing in a plain string that will be serialised before the XML tree. Note that passing in non well-formed content here will make the XML output non well-formed. Also, an existing doctype in the document tree will not be removed when serialising an ElementTree instance. You can prevent the tail text of the element from being serialised by passing the boolean ``with_tail`` option. This has no impact on the tail text of children, which will always be serialised. """ cdef bint write_declaration cdef int is_standalone # C14N serialisation if method in ('c14n', 'c14n2'): if encoding is not None: raise ValueError("Cannot specify encoding with C14N") if xml_declaration: raise ValueError("Cannot enable XML declaration in C14N") if method == 'c14n': return _tostringC14N(element_or_tree, exclusive, with_comments, inclusive_ns_prefixes) else: out = BytesIO() target = C14NWriterTarget( utf8_writer(out).write, with_comments=with_comments, strip_text=strip_text) _tree_to_target(element_or_tree, target) return out.getvalue() if not with_comments: raise ValueError("Can only discard comments in C14N serialisation") if strip_text: raise ValueError("Can only strip text in C14N 2.0 serialisation") if encoding is unicode or (encoding is not None and encoding.lower() == 'unicode'): if xml_declaration: raise ValueError, \ u"Serialisation to unicode must not request an XML declaration" write_declaration = 0 encoding = unicode elif xml_declaration is None: # by default, write an XML declaration only for non-standard encodings write_declaration = encoding is not None and encoding.upper() not in \ (u'ASCII', u'UTF-8', u'UTF8', u'US-ASCII') else: write_declaration = xml_declaration if encoding is None: encoding = u'ASCII' if standalone is None: is_standalone = -1 elif standalone: write_declaration = 1 is_standalone = 1 else: write_declaration = 1 is_standalone = 0 if isinstance(element_or_tree, _Element): return _tostring(<_Element>element_or_tree, encoding, doctype, method, write_declaration, 0, pretty_print, with_tail, is_standalone) elif isinstance(element_or_tree, _ElementTree): return _tostring((<_ElementTree>element_or_tree)._context_node, encoding, doctype, method, write_declaration, 1, pretty_print, with_tail, is_standalone) else: raise TypeError, f"Type '{python._fqtypename(element_or_tree).decode('utf8')}' cannot be serialized." def tostringlist(element_or_tree, *args, **kwargs): u"""tostringlist(element_or_tree, *args, **kwargs) Serialize an element to an encoded string representation of its XML tree, stored in a list of partial strings. This is purely for ElementTree 1.3 compatibility. The result is a single string wrapped in a list. """ return [tostring(element_or_tree, *args, **kwargs)] def tounicode(element_or_tree, *, method=u"xml", bint pretty_print=False, bint with_tail=True, doctype=None): u"""tounicode(element_or_tree, method="xml", pretty_print=False, with_tail=True, doctype=None) Serialize an element to the Python unicode representation of its XML tree. :deprecated: use ``tostring(el, encoding='unicode')`` instead. Note that the result does not carry an XML encoding declaration and is therefore not necessarily suited for serialization to byte streams without further treatment. The boolean keyword argument 'pretty_print' enables formatted XML. The keyword argument 'method' selects the output method: 'xml', 'html' or plain 'text'. You can prevent the tail text of the element from being serialised by passing the boolean ``with_tail`` option. This has no impact on the tail text of children, which will always be serialised. """ if isinstance(element_or_tree, _Element): return _tostring(<_Element>element_or_tree, unicode, doctype, method, 0, 0, pretty_print, with_tail, -1) elif isinstance(element_or_tree, _ElementTree): return _tostring((<_ElementTree>element_or_tree)._context_node, unicode, doctype, method, 0, 1, pretty_print, with_tail, -1) else: raise TypeError, f"Type '{type(element_or_tree)}' cannot be serialized." def parse(source, _BaseParser parser=None, *, base_url=None): u"""parse(source, parser=None, base_url=None) Return an ElementTree object loaded with source elements. If no parser is provided as second argument, the default parser is used. The ``source`` can be any of the following: - a file name/path - a file object - a file-like object - a URL using the HTTP or FTP protocol To parse from a string, use the ``fromstring()`` function instead. Note that it is generally faster to parse from a file path or URL than from an open file object or file-like object. Transparent decompression from gzip compressed sources is supported (unless explicitly disabled in libxml2). The ``base_url`` keyword allows setting a URL for the document when parsing from a file-like object. This is needed when looking up external entities (DTD, XInclude, ...) with relative paths. """ cdef _Document doc try: doc = _parseDocument(source, parser, base_url) return _elementTreeFactory(doc, None) except _TargetParserResult as result_container: return result_container.result def adopt_external_document(capsule, _BaseParser parser=None): """adopt_external_document(capsule, parser=None) Unpack a libxml2 document pointer from a PyCapsule and wrap it in an lxml ElementTree object. This allows external libraries to build XML/HTML trees using libxml2 and then pass them efficiently into lxml for further processing. If a ``parser`` is provided, it will be used for configuring the lxml document. No parsing will be done. The capsule must have the name ``"libxml2:xmlDoc"`` and its pointer value must reference a correct libxml2 document of type ``xmlDoc*``. The creator of the capsule must take care to correctly clean up the document using an appropriate capsule destructor. By default, the libxml2 document will be copied to let lxml safely own the memory of the internal tree that it uses. If the capsule context is non-NULL, it must point to a C string that can be compared using ``strcmp()``. If the context string equals ``"destructor:xmlFreeDoc"``, the libxml2 document will not be copied but the capsule invalidated instead by clearing its destructor and name. That way, lxml takes ownership of the libxml2 document in memory without creating a copy first, and the capsule destructor will not be called. The document will then eventually be cleaned up by lxml using the libxml2 API function ``xmlFreeDoc()`` once it is no longer used. If no copy is made, later modifications of the tree outside of lxml should not be attempted after transferring the ownership. """ cdef xmlDoc* c_doc cdef bint is_owned = False c_doc = <xmlDoc*> python.lxml_unpack_xmldoc_capsule(capsule, &is_owned) doc = _adoptForeignDoc(c_doc, parser, is_owned) return _elementTreeFactory(doc, None) ################################################################################ # Include submodules include "readonlytree.pxi" # Read-only implementation of Element proxies include "classlookup.pxi" # Element class lookup mechanisms include "nsclasses.pxi" # Namespace implementation and registry include "docloader.pxi" # Support for custom document loaders include "parser.pxi" # XML and HTML parsers include "saxparser.pxi" # SAX-like Parser interface and tree builder include "parsertarget.pxi" # ET Parser target include "serializer.pxi" # XML output functions include "iterparse.pxi" # incremental XML parsing include "xmlid.pxi" # XMLID and IDDict include "xinclude.pxi" # XInclude include "cleanup.pxi" # Cleanup and recursive element removal functions ################################################################################ # Include submodules for XPath and XSLT include "extensions.pxi" # XPath/XSLT extension functions include "xpath.pxi" # XPath evaluation include "xslt.pxi" # XSL transformations include "xsltext.pxi" # XSL extension elements ################################################################################ # Validation cdef class DocumentInvalid(LxmlError): """Validation error. Raised by all document validators when their ``assertValid(tree)`` method fails. """ cdef class _Validator: u"Base class for XML validators." cdef _ErrorLog _error_log def __cinit__(self): self._error_log = _ErrorLog() def validate(self, etree): u"""validate(self, etree) Validate the document using this schema. Returns true if document is valid, false if not. """ return self(etree) def assertValid(self, etree): u"""assertValid(self, etree) Raises `DocumentInvalid` if the document does not comply with the schema. """ if not self(etree): raise DocumentInvalid(self._error_log._buildExceptionMessage( u"Document does not comply with schema"), self._error_log) def assert_(self, etree): u"""assert_(self, etree) Raises `AssertionError` if the document does not comply with the schema. """ if not self(etree): raise AssertionError, self._error_log._buildExceptionMessage( u"Document does not comply with schema") cpdef _append_log_message(self, int domain, int type, int level, int line, message, filename): self._error_log._receiveGeneric(domain, type, level, line, message, filename) cpdef _clear_error_log(self): self._error_log.clear() @property def error_log(self): """The log of validation errors and warnings.""" assert self._error_log is not None, "XPath evaluator not initialised" return self._error_log.copy() include "dtd.pxi" # DTD include "relaxng.pxi" # RelaxNG include "xmlschema.pxi" # XMLSchema include "schematron.pxi" # Schematron (requires libxml2 2.6.21+) ################################################################################ # Public C API include "public-api.pxi" ################################################################################ # Other stuff include "debug.pxi"