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Direktori : /opt/cloudlinux/venv/lib/python3.11/site-packages/toml/ |
Current File : //opt/cloudlinux/venv/lib/python3.11/site-packages/toml/decoder.py |
import datetime import io from os import linesep import re import sys from toml.tz import TomlTz if sys.version_info < (3,): _range = xrange # noqa: F821 else: unicode = str _range = range basestring = str unichr = chr def _detect_pathlib_path(p): if (3, 4) <= sys.version_info: import pathlib if isinstance(p, pathlib.PurePath): return True return False def _ispath(p): if isinstance(p, (bytes, basestring)): return True return _detect_pathlib_path(p) def _getpath(p): if (3, 6) <= sys.version_info: import os return os.fspath(p) if _detect_pathlib_path(p): return str(p) return p try: FNFError = FileNotFoundError except NameError: FNFError = IOError TIME_RE = re.compile(r"([0-9]{2}):([0-9]{2}):([0-9]{2})(\.([0-9]{3,6}))?") class TomlDecodeError(ValueError): """Base toml Exception / Error.""" def __init__(self, msg, doc, pos): lineno = doc.count('\n', 0, pos) + 1 colno = pos - doc.rfind('\n', 0, pos) emsg = '{} (line {} column {} char {})'.format(msg, lineno, colno, pos) ValueError.__init__(self, emsg) self.msg = msg self.doc = doc self.pos = pos self.lineno = lineno self.colno = colno # Matches a TOML number, which allows underscores for readability _number_with_underscores = re.compile('([0-9])(_([0-9]))*') class CommentValue(object): def __init__(self, val, comment, beginline, _dict): self.val = val separator = "\n" if beginline else " " self.comment = separator + comment self._dict = _dict def __getitem__(self, key): return self.val[key] def __setitem__(self, key, value): self.val[key] = value def dump(self, dump_value_func): retstr = dump_value_func(self.val) if isinstance(self.val, self._dict): return self.comment + "\n" + unicode(retstr) else: return unicode(retstr) + self.comment def _strictly_valid_num(n): n = n.strip() if not n: return False if n[0] == '_': return False if n[-1] == '_': return False if "_." in n or "._" in n: return False if len(n) == 1: return True if n[0] == '0' and n[1] not in ['.', 'o', 'b', 'x']: return False if n[0] == '+' or n[0] == '-': n = n[1:] if len(n) > 1 and n[0] == '0' and n[1] != '.': return False if '__' in n: return False return True def load(f, _dict=dict, decoder=None): """Parses named file or files as toml and returns a dictionary Args: f: Path to the file to open, array of files to read into single dict or a file descriptor _dict: (optional) Specifies the class of the returned toml dictionary decoder: The decoder to use Returns: Parsed toml file represented as a dictionary Raises: TypeError -- When f is invalid type TomlDecodeError: Error while decoding toml IOError / FileNotFoundError -- When an array with no valid (existing) (Python 2 / Python 3) file paths is passed """ if _ispath(f): with io.open(_getpath(f), encoding='utf-8') as ffile: return loads(ffile.read(), _dict, decoder) elif isinstance(f, list): from os import path as op from warnings import warn if not [path for path in f if op.exists(path)]: error_msg = "Load expects a list to contain filenames only." error_msg += linesep error_msg += ("The list needs to contain the path of at least one " "existing file.") raise FNFError(error_msg) if decoder is None: decoder = TomlDecoder(_dict) d = decoder.get_empty_table() for l in f: # noqa: E741 if op.exists(l): d.update(load(l, _dict, decoder)) else: warn("Non-existent filename in list with at least one valid " "filename") return d else: try: return loads(f.read(), _dict, decoder) except AttributeError: raise TypeError("You can only load a file descriptor, filename or " "list") _groupname_re = re.compile(r'^[A-Za-z0-9_-]+$') def loads(s, _dict=dict, decoder=None): """Parses string as toml Args: s: String to be parsed _dict: (optional) Specifies the class of the returned toml dictionary Returns: Parsed toml file represented as a dictionary Raises: TypeError: When a non-string is passed TomlDecodeError: Error while decoding toml """ implicitgroups = [] if decoder is None: decoder = TomlDecoder(_dict) retval = decoder.get_empty_table() currentlevel = retval if not isinstance(s, basestring): raise TypeError("Expecting something like a string") if not isinstance(s, unicode): s = s.decode('utf8') original = s sl = list(s) openarr = 0 openstring = False openstrchar = "" multilinestr = False arrayoftables = False beginline = True keygroup = False dottedkey = False keyname = 0 key = '' prev_key = '' line_no = 1 for i, item in enumerate(sl): if item == '\r' and sl[i + 1] == '\n': sl[i] = ' ' continue if keyname: key += item if item == '\n': raise TomlDecodeError("Key name found without value." " Reached end of line.", original, i) if openstring: if item == openstrchar: oddbackslash = False k = 1 while i >= k and sl[i - k] == '\\': oddbackslash = not oddbackslash k += 1 if not oddbackslash: keyname = 2 openstring = False openstrchar = "" continue elif keyname == 1: if item.isspace(): keyname = 2 continue elif item == '.': dottedkey = True continue elif item.isalnum() or item == '_' or item == '-': continue elif (dottedkey and sl[i - 1] == '.' and (item == '"' or item == "'")): openstring = True openstrchar = item continue elif keyname == 2: if item.isspace(): if dottedkey: nextitem = sl[i + 1] if not nextitem.isspace() and nextitem != '.': keyname = 1 continue if item == '.': dottedkey = True nextitem = sl[i + 1] if not nextitem.isspace() and nextitem != '.': keyname = 1 continue if item == '=': keyname = 0 prev_key = key[:-1].rstrip() key = '' dottedkey = False else: raise TomlDecodeError("Found invalid character in key name: '" + item + "'. Try quoting the key name.", original, i) if item == "'" and openstrchar != '"': k = 1 try: while sl[i - k] == "'": k += 1 if k == 3: break except IndexError: pass if k == 3: multilinestr = not multilinestr openstring = multilinestr else: openstring = not openstring if openstring: openstrchar = "'" else: openstrchar = "" if item == '"' and openstrchar != "'": oddbackslash = False k = 1 tripquote = False try: while sl[i - k] == '"': k += 1 if k == 3: tripquote = True break if k == 1 or (k == 3 and tripquote): while sl[i - k] == '\\': oddbackslash = not oddbackslash k += 1 except IndexError: pass if not oddbackslash: if tripquote: multilinestr = not multilinestr openstring = multilinestr else: openstring = not openstring if openstring: openstrchar = '"' else: openstrchar = "" if item == '#' and (not openstring and not keygroup and not arrayoftables): j = i comment = "" try: while sl[j] != '\n': comment += s[j] sl[j] = ' ' j += 1 except IndexError: break if not openarr: decoder.preserve_comment(line_no, prev_key, comment, beginline) if item == '[' and (not openstring and not keygroup and not arrayoftables): if beginline: if len(sl) > i + 1 and sl[i + 1] == '[': arrayoftables = True else: keygroup = True else: openarr += 1 if item == ']' and not openstring: if keygroup: keygroup = False elif arrayoftables: if sl[i - 1] == ']': arrayoftables = False else: openarr -= 1 if item == '\n': if openstring or multilinestr: if not multilinestr: raise TomlDecodeError("Unbalanced quotes", original, i) if ((sl[i - 1] == "'" or sl[i - 1] == '"') and ( sl[i - 2] == sl[i - 1])): sl[i] = sl[i - 1] if sl[i - 3] == sl[i - 1]: sl[i - 3] = ' ' elif openarr: sl[i] = ' ' else: beginline = True line_no += 1 elif beginline and sl[i] != ' ' and sl[i] != '\t': beginline = False if not keygroup and not arrayoftables: if sl[i] == '=': raise TomlDecodeError("Found empty keyname. ", original, i) keyname = 1 key += item if keyname: raise TomlDecodeError("Key name found without value." " Reached end of file.", original, len(s)) if openstring: # reached EOF and have an unterminated string raise TomlDecodeError("Unterminated string found." " Reached end of file.", original, len(s)) s = ''.join(sl) s = s.split('\n') multikey = None multilinestr = "" multibackslash = False pos = 0 for idx, line in enumerate(s): if idx > 0: pos += len(s[idx - 1]) + 1 decoder.embed_comments(idx, currentlevel) if not multilinestr or multibackslash or '\n' not in multilinestr: line = line.strip() if line == "" and (not multikey or multibackslash): continue if multikey: if multibackslash: multilinestr += line else: multilinestr += line multibackslash = False closed = False if multilinestr[0] == '[': closed = line[-1] == ']' elif len(line) > 2: closed = (line[-1] == multilinestr[0] and line[-2] == multilinestr[0] and line[-3] == multilinestr[0]) if closed: try: value, vtype = decoder.load_value(multilinestr) except ValueError as err: raise TomlDecodeError(str(err), original, pos) currentlevel[multikey] = value multikey = None multilinestr = "" else: k = len(multilinestr) - 1 while k > -1 and multilinestr[k] == '\\': multibackslash = not multibackslash k -= 1 if multibackslash: multilinestr = multilinestr[:-1] else: multilinestr += "\n" continue if line[0] == '[': arrayoftables = False if len(line) == 1: raise TomlDecodeError("Opening key group bracket on line by " "itself.", original, pos) if line[1] == '[': arrayoftables = True line = line[2:] splitstr = ']]' else: line = line[1:] splitstr = ']' i = 1 quotesplits = decoder._get_split_on_quotes(line) quoted = False for quotesplit in quotesplits: if not quoted and splitstr in quotesplit: break i += quotesplit.count(splitstr) quoted = not quoted line = line.split(splitstr, i) if len(line) < i + 1 or line[-1].strip() != "": raise TomlDecodeError("Key group not on a line by itself.", original, pos) groups = splitstr.join(line[:-1]).split('.') i = 0 while i < len(groups): groups[i] = groups[i].strip() if len(groups[i]) > 0 and (groups[i][0] == '"' or groups[i][0] == "'"): groupstr = groups[i] j = i + 1 while ((not groupstr[0] == groupstr[-1]) or len(groupstr) == 1): j += 1 if j > len(groups) + 2: raise TomlDecodeError("Invalid group name '" + groupstr + "' Something " + "went wrong.", original, pos) groupstr = '.'.join(groups[i:j]).strip() groups[i] = groupstr[1:-1] groups[i + 1:j] = [] else: if not _groupname_re.match(groups[i]): raise TomlDecodeError("Invalid group name '" + groups[i] + "'. Try quoting it.", original, pos) i += 1 currentlevel = retval for i in _range(len(groups)): group = groups[i] if group == "": raise TomlDecodeError("Can't have a keygroup with an empty " "name", original, pos) try: currentlevel[group] if i == len(groups) - 1: if group in implicitgroups: implicitgroups.remove(group) if arrayoftables: raise TomlDecodeError("An implicitly defined " "table can't be an array", original, pos) elif arrayoftables: currentlevel[group].append(decoder.get_empty_table() ) else: raise TomlDecodeError("What? " + group + " already exists?" + str(currentlevel), original, pos) except TypeError: currentlevel = currentlevel[-1] if group not in currentlevel: currentlevel[group] = decoder.get_empty_table() if i == len(groups) - 1 and arrayoftables: currentlevel[group] = [decoder.get_empty_table()] except KeyError: if i != len(groups) - 1: implicitgroups.append(group) currentlevel[group] = decoder.get_empty_table() if i == len(groups) - 1 and arrayoftables: currentlevel[group] = [decoder.get_empty_table()] currentlevel = currentlevel[group] if arrayoftables: try: currentlevel = currentlevel[-1] except KeyError: pass elif line[0] == "{": if line[-1] != "}": raise TomlDecodeError("Line breaks are not allowed in inline" "objects", original, pos) try: decoder.load_inline_object(line, currentlevel, multikey, multibackslash) except ValueError as err: raise TomlDecodeError(str(err), original, pos) elif "=" in line: try: ret = decoder.load_line(line, currentlevel, multikey, multibackslash) except ValueError as err: raise TomlDecodeError(str(err), original, pos) if ret is not None: multikey, multilinestr, multibackslash = ret return retval def _load_date(val): microsecond = 0 tz = None try: if len(val) > 19: if val[19] == '.': if val[-1].upper() == 'Z': subsecondval = val[20:-1] tzval = "Z" else: subsecondvalandtz = val[20:] if '+' in subsecondvalandtz: splitpoint = subsecondvalandtz.index('+') subsecondval = subsecondvalandtz[:splitpoint] tzval = subsecondvalandtz[splitpoint:] elif '-' in subsecondvalandtz: splitpoint = subsecondvalandtz.index('-') subsecondval = subsecondvalandtz[:splitpoint] tzval = subsecondvalandtz[splitpoint:] else: tzval = None subsecondval = subsecondvalandtz if tzval is not None: tz = TomlTz(tzval) microsecond = int(int(subsecondval) * (10 ** (6 - len(subsecondval)))) else: tz = TomlTz(val[19:]) except ValueError: tz = None if "-" not in val[1:]: return None try: if len(val) == 10: d = datetime.date( int(val[:4]), int(val[5:7]), int(val[8:10])) else: d = datetime.datetime( int(val[:4]), int(val[5:7]), int(val[8:10]), int(val[11:13]), int(val[14:16]), int(val[17:19]), microsecond, tz) except ValueError: return None return d def _load_unicode_escapes(v, hexbytes, prefix): skip = False i = len(v) - 1 while i > -1 and v[i] == '\\': skip = not skip i -= 1 for hx in hexbytes: if skip: skip = False i = len(hx) - 1 while i > -1 and hx[i] == '\\': skip = not skip i -= 1 v += prefix v += hx continue hxb = "" i = 0 hxblen = 4 if prefix == "\\U": hxblen = 8 hxb = ''.join(hx[i:i + hxblen]).lower() if hxb.strip('0123456789abcdef'): raise ValueError("Invalid escape sequence: " + hxb) if hxb[0] == "d" and hxb[1].strip('01234567'): raise ValueError("Invalid escape sequence: " + hxb + ". Only scalar unicode points are allowed.") v += unichr(int(hxb, 16)) v += unicode(hx[len(hxb):]) return v # Unescape TOML string values. # content after the \ _escapes = ['0', 'b', 'f', 'n', 'r', 't', '"'] # What it should be replaced by _escapedchars = ['\0', '\b', '\f', '\n', '\r', '\t', '\"'] # Used for substitution _escape_to_escapedchars = dict(zip(_escapes, _escapedchars)) def _unescape(v): """Unescape characters in a TOML string.""" i = 0 backslash = False while i < len(v): if backslash: backslash = False if v[i] in _escapes: v = v[:i - 1] + _escape_to_escapedchars[v[i]] + v[i + 1:] elif v[i] == '\\': v = v[:i - 1] + v[i:] elif v[i] == 'u' or v[i] == 'U': i += 1 else: raise ValueError("Reserved escape sequence used") continue elif v[i] == '\\': backslash = True i += 1 return v class InlineTableDict(object): """Sentinel subclass of dict for inline tables.""" class TomlDecoder(object): def __init__(self, _dict=dict): self._dict = _dict def get_empty_table(self): return self._dict() def get_empty_inline_table(self): class DynamicInlineTableDict(self._dict, InlineTableDict): """Concrete sentinel subclass for inline tables. It is a subclass of _dict which is passed in dynamically at load time It is also a subclass of InlineTableDict """ return DynamicInlineTableDict() def load_inline_object(self, line, currentlevel, multikey=False, multibackslash=False): candidate_groups = line[1:-1].split(",") groups = [] if len(candidate_groups) == 1 and not candidate_groups[0].strip(): candidate_groups.pop() while len(candidate_groups) > 0: candidate_group = candidate_groups.pop(0) try: _, value = candidate_group.split('=', 1) except ValueError: raise ValueError("Invalid inline table encountered") value = value.strip() if ((value[0] == value[-1] and value[0] in ('"', "'")) or ( value[0] in '-0123456789' or value in ('true', 'false') or (value[0] == "[" and value[-1] == "]") or (value[0] == '{' and value[-1] == '}'))): groups.append(candidate_group) elif len(candidate_groups) > 0: candidate_groups[0] = (candidate_group + "," + candidate_groups[0]) else: raise ValueError("Invalid inline table value encountered") for group in groups: status = self.load_line(group, currentlevel, multikey, multibackslash) if status is not None: break def _get_split_on_quotes(self, line): doublequotesplits = line.split('"') quoted = False quotesplits = [] if len(doublequotesplits) > 1 and "'" in doublequotesplits[0]: singlequotesplits = doublequotesplits[0].split("'") doublequotesplits = doublequotesplits[1:] while len(singlequotesplits) % 2 == 0 and len(doublequotesplits): singlequotesplits[-1] += '"' + doublequotesplits[0] doublequotesplits = doublequotesplits[1:] if "'" in singlequotesplits[-1]: singlequotesplits = (singlequotesplits[:-1] + singlequotesplits[-1].split("'")) quotesplits += singlequotesplits for doublequotesplit in doublequotesplits: if quoted: quotesplits.append(doublequotesplit) else: quotesplits += doublequotesplit.split("'") quoted = not quoted return quotesplits def load_line(self, line, currentlevel, multikey, multibackslash): i = 1 quotesplits = self._get_split_on_quotes(line) quoted = False for quotesplit in quotesplits: if not quoted and '=' in quotesplit: break i += quotesplit.count('=') quoted = not quoted pair = line.split('=', i) strictly_valid = _strictly_valid_num(pair[-1]) if _number_with_underscores.match(pair[-1]): pair[-1] = pair[-1].replace('_', '') while len(pair[-1]) and (pair[-1][0] != ' ' and pair[-1][0] != '\t' and pair[-1][0] != "'" and pair[-1][0] != '"' and pair[-1][0] != '[' and pair[-1][0] != '{' and pair[-1].strip() != 'true' and pair[-1].strip() != 'false'): try: float(pair[-1]) break except ValueError: pass if _load_date(pair[-1]) is not None: break if TIME_RE.match(pair[-1]): break i += 1 prev_val = pair[-1] pair = line.split('=', i) if prev_val == pair[-1]: raise ValueError("Invalid date or number") if strictly_valid: strictly_valid = _strictly_valid_num(pair[-1]) pair = ['='.join(pair[:-1]).strip(), pair[-1].strip()] if '.' in pair[0]: if '"' in pair[0] or "'" in pair[0]: quotesplits = self._get_split_on_quotes(pair[0]) quoted = False levels = [] for quotesplit in quotesplits: if quoted: levels.append(quotesplit) else: levels += [level.strip() for level in quotesplit.split('.')] quoted = not quoted else: levels = pair[0].split('.') while levels[-1] == "": levels = levels[:-1] for level in levels[:-1]: if level == "": continue if level not in currentlevel: currentlevel[level] = self.get_empty_table() currentlevel = currentlevel[level] pair[0] = levels[-1].strip() elif (pair[0][0] == '"' or pair[0][0] == "'") and \ (pair[0][-1] == pair[0][0]): pair[0] = _unescape(pair[0][1:-1]) k, koffset = self._load_line_multiline_str(pair[1]) if k > -1: while k > -1 and pair[1][k + koffset] == '\\': multibackslash = not multibackslash k -= 1 if multibackslash: multilinestr = pair[1][:-1] else: multilinestr = pair[1] + "\n" multikey = pair[0] else: value, vtype = self.load_value(pair[1], strictly_valid) try: currentlevel[pair[0]] raise ValueError("Duplicate keys!") except TypeError: raise ValueError("Duplicate keys!") except KeyError: if multikey: return multikey, multilinestr, multibackslash else: currentlevel[pair[0]] = value def _load_line_multiline_str(self, p): poffset = 0 if len(p) < 3: return -1, poffset if p[0] == '[' and (p.strip()[-1] != ']' and self._load_array_isstrarray(p)): newp = p[1:].strip().split(',') while len(newp) > 1 and newp[-1][0] != '"' and newp[-1][0] != "'": newp = newp[:-2] + [newp[-2] + ',' + newp[-1]] newp = newp[-1] poffset = len(p) - len(newp) p = newp if p[0] != '"' and p[0] != "'": return -1, poffset if p[1] != p[0] or p[2] != p[0]: return -1, poffset if len(p) > 5 and p[-1] == p[0] and p[-2] == p[0] and p[-3] == p[0]: return -1, poffset return len(p) - 1, poffset def load_value(self, v, strictly_valid=True): if not v: raise ValueError("Empty value is invalid") if v == 'true': return (True, "bool") elif v.lower() == 'true': raise ValueError("Only all lowercase booleans allowed") elif v == 'false': return (False, "bool") elif v.lower() == 'false': raise ValueError("Only all lowercase booleans allowed") elif v[0] == '"' or v[0] == "'": quotechar = v[0] testv = v[1:].split(quotechar) triplequote = False triplequotecount = 0 if len(testv) > 1 and testv[0] == '' and testv[1] == '': testv = testv[2:] triplequote = True closed = False for tv in testv: if tv == '': if triplequote: triplequotecount += 1 else: closed = True else: oddbackslash = False try: i = -1 j = tv[i] while j == '\\': oddbackslash = not oddbackslash i -= 1 j = tv[i] except IndexError: pass if not oddbackslash: if closed: raise ValueError("Found tokens after a closed " + "string. Invalid TOML.") else: if not triplequote or triplequotecount > 1: closed = True else: triplequotecount = 0 if quotechar == '"': escapeseqs = v.split('\\')[1:] backslash = False for i in escapeseqs: if i == '': backslash = not backslash else: if i[0] not in _escapes and (i[0] != 'u' and i[0] != 'U' and not backslash): raise ValueError("Reserved escape sequence used") if backslash: backslash = False for prefix in ["\\u", "\\U"]: if prefix in v: hexbytes = v.split(prefix) v = _load_unicode_escapes(hexbytes[0], hexbytes[1:], prefix) v = _unescape(v) if len(v) > 1 and v[1] == quotechar and (len(v) < 3 or v[1] == v[2]): v = v[2:-2] return (v[1:-1], "str") elif v[0] == '[': return (self.load_array(v), "array") elif v[0] == '{': inline_object = self.get_empty_inline_table() self.load_inline_object(v, inline_object) return (inline_object, "inline_object") elif TIME_RE.match(v): h, m, s, _, ms = TIME_RE.match(v).groups() time = datetime.time(int(h), int(m), int(s), int(ms) if ms else 0) return (time, "time") else: parsed_date = _load_date(v) if parsed_date is not None: return (parsed_date, "date") if not strictly_valid: raise ValueError("Weirdness with leading zeroes or " "underscores in your number.") itype = "int" neg = False if v[0] == '-': neg = True v = v[1:] elif v[0] == '+': v = v[1:] v = v.replace('_', '') lowerv = v.lower() if '.' in v or ('x' not in v and ('e' in v or 'E' in v)): if '.' in v and v.split('.', 1)[1] == '': raise ValueError("This float is missing digits after " "the point") if v[0] not in '0123456789': raise ValueError("This float doesn't have a leading " "digit") v = float(v) itype = "float" elif len(lowerv) == 3 and (lowerv == 'inf' or lowerv == 'nan'): v = float(v) itype = "float" if itype == "int": v = int(v, 0) if neg: return (0 - v, itype) return (v, itype) def bounded_string(self, s): if len(s) == 0: return True if s[-1] != s[0]: return False i = -2 backslash = False while len(s) + i > 0: if s[i] == "\\": backslash = not backslash i -= 1 else: break return not backslash def _load_array_isstrarray(self, a): a = a[1:-1].strip() if a != '' and (a[0] == '"' or a[0] == "'"): return True return False def load_array(self, a): atype = None retval = [] a = a.strip() if '[' not in a[1:-1] or "" != a[1:-1].split('[')[0].strip(): strarray = self._load_array_isstrarray(a) if not a[1:-1].strip().startswith('{'): a = a[1:-1].split(',') else: # a is an inline object, we must find the matching parenthesis # to define groups new_a = [] start_group_index = 1 end_group_index = 2 open_bracket_count = 1 if a[start_group_index] == '{' else 0 in_str = False while end_group_index < len(a[1:]): if a[end_group_index] == '"' or a[end_group_index] == "'": if in_str: backslash_index = end_group_index - 1 while (backslash_index > -1 and a[backslash_index] == '\\'): in_str = not in_str backslash_index -= 1 in_str = not in_str if not in_str and a[end_group_index] == '{': open_bracket_count += 1 if in_str or a[end_group_index] != '}': end_group_index += 1 continue elif a[end_group_index] == '}' and open_bracket_count > 1: open_bracket_count -= 1 end_group_index += 1 continue # Increase end_group_index by 1 to get the closing bracket end_group_index += 1 new_a.append(a[start_group_index:end_group_index]) # The next start index is at least after the closing # bracket, a closing bracket can be followed by a comma # since we are in an array. start_group_index = end_group_index + 1 while (start_group_index < len(a[1:]) and a[start_group_index] != '{'): start_group_index += 1 end_group_index = start_group_index + 1 a = new_a b = 0 if strarray: while b < len(a) - 1: ab = a[b].strip() while (not self.bounded_string(ab) or (len(ab) > 2 and ab[0] == ab[1] == ab[2] and ab[-2] != ab[0] and ab[-3] != ab[0])): a[b] = a[b] + ',' + a[b + 1] ab = a[b].strip() if b < len(a) - 2: a = a[:b + 1] + a[b + 2:] else: a = a[:b + 1] b += 1 else: al = list(a[1:-1]) a = [] openarr = 0 j = 0 for i in _range(len(al)): if al[i] == '[': openarr += 1 elif al[i] == ']': openarr -= 1 elif al[i] == ',' and not openarr: a.append(''.join(al[j:i])) j = i + 1 a.append(''.join(al[j:])) for i in _range(len(a)): a[i] = a[i].strip() if a[i] != '': nval, ntype = self.load_value(a[i]) if atype: if ntype != atype: raise ValueError("Not a homogeneous array") else: atype = ntype retval.append(nval) return retval def preserve_comment(self, line_no, key, comment, beginline): pass def embed_comments(self, idx, currentlevel): pass class TomlPreserveCommentDecoder(TomlDecoder): def __init__(self, _dict=dict): self.saved_comments = {} super(TomlPreserveCommentDecoder, self).__init__(_dict) def preserve_comment(self, line_no, key, comment, beginline): self.saved_comments[line_no] = (key, comment, beginline) def embed_comments(self, idx, currentlevel): if idx not in self.saved_comments: return key, comment, beginline = self.saved_comments[idx] currentlevel[key] = CommentValue(currentlevel[key], comment, beginline, self._dict)