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import datetime import re import sys from decimal import Decimal from toml.decoder import InlineTableDict if sys.version_info >= (3,): unicode = str def dump(o, f, encoder=None): """Writes out dict as toml to a file Args: o: Object to dump into toml f: File descriptor where the toml should be stored encoder: The ``TomlEncoder`` to use for constructing the output string Returns: String containing the toml corresponding to dictionary Raises: TypeError: When anything other than file descriptor is passed """ if not f.write: raise TypeError("You can only dump an object to a file descriptor") d = dumps(o, encoder=encoder) f.write(d) return d def dumps(o, encoder=None): """Stringifies input dict as toml Args: o: Object to dump into toml encoder: The ``TomlEncoder`` to use for constructing the output string Returns: String containing the toml corresponding to dict Examples: ```python >>> import toml >>> output = { ... 'a': "I'm a string", ... 'b': ["I'm", "a", "list"], ... 'c': 2400 ... } >>> toml.dumps(output) 'a = "I\'m a string"\nb = [ "I\'m", "a", "list",]\nc = 2400\n' ``` """ retval = "" if encoder is None: encoder = TomlEncoder(o.__class__) addtoretval, sections = encoder.dump_sections(o, "") retval += addtoretval outer_objs = [id(o)] while sections: section_ids = [id(section) for section in sections.values()] for outer_obj in outer_objs: if outer_obj in section_ids: raise ValueError("Circular reference detected") outer_objs += section_ids newsections = encoder.get_empty_table() for section in sections: addtoretval, addtosections = encoder.dump_sections( sections[section], section) if addtoretval or (not addtoretval and not addtosections): if retval and retval[-2:] != "\n\n": retval += "\n" retval += "[" + section + "]\n" if addtoretval: retval += addtoretval for s in addtosections: newsections[section + "." + s] = addtosections[s] sections = newsections return retval def _dump_str(v): if sys.version_info < (3,) and hasattr(v, 'decode') and isinstance(v, str): v = v.decode('utf-8') v = "%r" % v if v[0] == 'u': v = v[1:] singlequote = v.startswith("'") if singlequote or v.startswith('"'): v = v[1:-1] if singlequote: v = v.replace("\\'", "'") v = v.replace('"', '\\"') v = v.split("\\x") while len(v) > 1: i = -1 if not v[0]: v = v[1:] v[0] = v[0].replace("\\\\", "\\") # No, I don't know why != works and == breaks joinx = v[0][i] != "\\" while v[0][:i] and v[0][i] == "\\": joinx = not joinx i -= 1 if joinx: joiner = "x" else: joiner = "u00" v = [v[0] + joiner + v[1]] + v[2:] return unicode('"' + v[0] + '"') def _dump_float(v): return "{}".format(v).replace("e+0", "e+").replace("e-0", "e-") def _dump_time(v): utcoffset = v.utcoffset() if utcoffset is None: return v.isoformat() # The TOML norm specifies that it's local time thus we drop the offset return v.isoformat()[:-6] class TomlEncoder(object): def __init__(self, _dict=dict, preserve=False): self._dict = _dict self.preserve = preserve self.dump_funcs = { str: _dump_str, unicode: _dump_str, list: self.dump_list, bool: lambda v: unicode(v).lower(), int: lambda v: v, float: _dump_float, Decimal: _dump_float, datetime.datetime: lambda v: v.isoformat().replace('+00:00', 'Z'), datetime.time: _dump_time, datetime.date: lambda v: v.isoformat() } def get_empty_table(self): return self._dict() def dump_list(self, v): retval = "[" for u in v: retval += " " + unicode(self.dump_value(u)) + "," retval += "]" return retval def dump_inline_table(self, section): """Preserve inline table in its compact syntax instead of expanding into subsection. https://github.com/toml-lang/toml#user-content-inline-table """ retval = "" if isinstance(section, dict): val_list = [] for k, v in section.items(): val = self.dump_inline_table(v) val_list.append(k + " = " + val) retval += "{ " + ", ".join(val_list) + " }\n" return retval else: return unicode(self.dump_value(section)) def dump_value(self, v): # Lookup function corresponding to v's type dump_fn = self.dump_funcs.get(type(v)) if dump_fn is None and hasattr(v, '__iter__'): dump_fn = self.dump_funcs[list] # Evaluate function (if it exists) else return v return dump_fn(v) if dump_fn is not None else self.dump_funcs[str](v) def dump_sections(self, o, sup): retstr = "" if sup != "" and sup[-1] != ".": sup += '.' retdict = self._dict() arraystr = "" for section in o: section = unicode(section) qsection = section if not re.match(r'^[A-Za-z0-9_-]+$', section): qsection = _dump_str(section) if not isinstance(o[section], dict): arrayoftables = False if isinstance(o[section], list): for a in o[section]: if isinstance(a, dict): arrayoftables = True if arrayoftables: for a in o[section]: arraytabstr = "\n" arraystr += "[[" + sup + qsection + "]]\n" s, d = self.dump_sections(a, sup + qsection) if s: if s[0] == "[": arraytabstr += s else: arraystr += s while d: newd = self._dict() for dsec in d: s1, d1 = self.dump_sections(d[dsec], sup + qsection + "." + dsec) if s1: arraytabstr += ("[" + sup + qsection + "." + dsec + "]\n") arraytabstr += s1 for s1 in d1: newd[dsec + "." + s1] = d1[s1] d = newd arraystr += arraytabstr else: if o[section] is not None: retstr += (qsection + " = " + unicode(self.dump_value(o[section])) + '\n') elif self.preserve and isinstance(o[section], InlineTableDict): retstr += (qsection + " = " + self.dump_inline_table(o[section])) else: retdict[qsection] = o[section] retstr += arraystr return (retstr, retdict) class TomlPreserveInlineDictEncoder(TomlEncoder): def __init__(self, _dict=dict): super(TomlPreserveInlineDictEncoder, self).__init__(_dict, True) class TomlArraySeparatorEncoder(TomlEncoder): def __init__(self, _dict=dict, preserve=False, separator=","): super(TomlArraySeparatorEncoder, self).__init__(_dict, preserve) if separator.strip() == "": separator = "," + separator elif separator.strip(' \t\n\r,'): raise ValueError("Invalid separator for arrays") self.separator = separator def dump_list(self, v): t = [] retval = "[" for u in v: t.append(self.dump_value(u)) while t != []: s = [] for u in t: if isinstance(u, list): for r in u: s.append(r) else: retval += " " + unicode(u) + self.separator t = s retval += "]" return retval class TomlNumpyEncoder(TomlEncoder): def __init__(self, _dict=dict, preserve=False): import numpy as np super(TomlNumpyEncoder, self).__init__(_dict, preserve) self.dump_funcs[np.float16] = _dump_float self.dump_funcs[np.float32] = _dump_float self.dump_funcs[np.float64] = _dump_float self.dump_funcs[np.int16] = self._dump_int self.dump_funcs[np.int32] = self._dump_int self.dump_funcs[np.int64] = self._dump_int def _dump_int(self, v): return "{}".format(int(v)) class TomlPreserveCommentEncoder(TomlEncoder): def __init__(self, _dict=dict, preserve=False): from toml.decoder import CommentValue super(TomlPreserveCommentEncoder, self).__init__(_dict, preserve) self.dump_funcs[CommentValue] = lambda v: v.dump(self.dump_value) class TomlPathlibEncoder(TomlEncoder): def _dump_pathlib_path(self, v): return _dump_str(str(v)) def dump_value(self, v): if (3, 4) <= sys.version_info: import pathlib if isinstance(v, pathlib.PurePath): v = str(v) return super(TomlPathlibEncoder, self).dump_value(v)