mirror of
https://github.com/moparisthebest/SickRage
synced 2024-11-11 20:05:04 -05:00
0d9fbc1ad7
This version of SickBeard uses both TVDB and TVRage to search and gather it's series data from allowing you to now have access to and download shows that you couldn't before because of being locked into only what TheTVDB had to offer. Also this edition is based off the code we used in our XEM editon so it does come with scene numbering support as well as all the other features our XEM edition has to offer. Please before using this with your existing database (sickbeard.db) please make a backup copy of it and delete any other database files such as cache.db and failed.db if present, we HIGHLY recommend starting out with no database files at all to make this a fresh start but the choice is at your own risk! Enjoy!
411 lines
14 KiB
Python
411 lines
14 KiB
Python
"""
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parser.http.bsoupxpath module (imdb.parser.http package).
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This module provides XPath support for BeautifulSoup.
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Copyright 2008 H. Turgut Uyar <uyar@tekir.org>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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"""
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__author__ = 'H. Turgut Uyar <uyar@tekir.org>'
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__docformat__ = 'restructuredtext'
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import re
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import string
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import _bsoup as BeautifulSoup
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# XPath related enumerations and constants
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AXIS_ANCESTOR = 'ancestor'
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AXIS_ATTRIBUTE = 'attribute'
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AXIS_CHILD = 'child'
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AXIS_DESCENDANT = 'descendant'
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AXIS_FOLLOWING = 'following'
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AXIS_FOLLOWING_SIBLING = 'following-sibling'
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AXIS_PRECEDING_SIBLING = 'preceding-sibling'
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AXES = (AXIS_ANCESTOR, AXIS_ATTRIBUTE, AXIS_CHILD, AXIS_DESCENDANT,
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AXIS_FOLLOWING, AXIS_FOLLOWING_SIBLING, AXIS_PRECEDING_SIBLING)
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XPATH_FUNCTIONS = ('starts-with', 'string-length', 'contains')
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def tokenize_path(path):
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"""Tokenize a location path into location steps. Return the list of steps.
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If two steps are separated by a double slash, the double slashes are part of
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the second step. If they are separated by only one slash, the slash is not
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included in any of the steps.
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"""
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# form a list of tuples that mark the start and end positions of steps
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separators = []
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last_position = 0
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i = -1
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in_string = False
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while i < len(path) - 1:
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i = i + 1
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if path[i] == "'":
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in_string = not in_string
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if in_string:
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# slashes within strings are not step separators
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continue
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if path[i] == '/':
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if i > 0:
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separators.append((last_position, i))
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if (path[i+1] == '/'):
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last_position = i
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i = i + 1
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else:
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last_position = i + 1
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separators.append((last_position, len(path)))
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steps = []
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for start, end in separators:
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steps.append(path[start:end])
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return steps
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class Path:
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"""A location path.
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"""
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def __init__(self, path, parse=True):
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self.path = path
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self.steps = []
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if parse:
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if (path[0] == '/') and (path[1] != '/'):
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# if not on the descendant axis, remove the leading slash
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path = path[1:]
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steps = tokenize_path(path)
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for step in steps:
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self.steps.append(PathStep(step))
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def apply(self, node):
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"""Apply the path to a node. Return the resulting list of nodes.
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Apply the steps in the path sequentially by sending the output of each
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step as input to the next step.
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"""
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# FIXME: this should return a node SET, not a node LIST
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# or at least a list with no duplicates
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if self.path[0] == '/':
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# for an absolute path, start from the root
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if not isinstance(node, BeautifulSoup.Tag) \
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or (node.name != '[document]'):
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node = node.findParent('[document]')
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nodes = [node]
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for step in self.steps:
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nodes = step.apply(nodes)
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return nodes
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class PathStep:
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"""A location step in a location path.
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"""
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AXIS_PATTERN = r"""(%s)::|@""" % '|'.join(AXES)
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NODE_TEST_PATTERN = r"""\w+(\(\))?"""
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PREDICATE_PATTERN = r"""\[(.*?)\]"""
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LOCATION_STEP_PATTERN = r"""(%s)?(%s)((%s)*)""" \
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% (AXIS_PATTERN, NODE_TEST_PATTERN, PREDICATE_PATTERN)
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_re_location_step = re.compile(LOCATION_STEP_PATTERN)
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PREDICATE_NOT_PATTERN = r"""not\((.*?)\)"""
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PREDICATE_AXIS_PATTERN = r"""(%s)?(%s)(='(.*?)')?""" \
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% (AXIS_PATTERN, NODE_TEST_PATTERN)
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PREDICATE_FUNCTION_PATTERN = r"""(%s)\(([^,]+(,\s*[^,]+)*)?\)(=(.*))?""" \
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% '|'.join(XPATH_FUNCTIONS)
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_re_predicate_not = re.compile(PREDICATE_NOT_PATTERN)
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_re_predicate_axis = re.compile(PREDICATE_AXIS_PATTERN)
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_re_predicate_function = re.compile(PREDICATE_FUNCTION_PATTERN)
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def __init__(self, step):
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self.step = step
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if (step == '.') or (step == '..'):
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return
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if step[:2] == '//':
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default_axis = AXIS_DESCENDANT
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step = step[2:]
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else:
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default_axis = AXIS_CHILD
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step_match = self._re_location_step.match(step)
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# determine the axis
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axis = step_match.group(1)
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if axis is None:
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self.axis = default_axis
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elif axis == '@':
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self.axis = AXIS_ATTRIBUTE
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else:
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self.axis = step_match.group(2)
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self.soup_args = {}
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self.index = None
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self.node_test = step_match.group(3)
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if self.node_test == 'text()':
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self.soup_args['text'] = True
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else:
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self.soup_args['name'] = self.node_test
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self.checkers = []
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predicates = step_match.group(5)
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if predicates is not None:
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predicates = [p for p in predicates[1:-1].split('][') if p]
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for predicate in predicates:
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checker = self.__parse_predicate(predicate)
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if checker is not None:
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self.checkers.append(checker)
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def __parse_predicate(self, predicate):
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"""Parse the predicate. Return a callable that can be used to filter
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nodes. Update `self.soup_args` to take advantage of BeautifulSoup search
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features.
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"""
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try:
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position = int(predicate)
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if self.axis == AXIS_DESCENDANT:
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return PredicateFilter('position', value=position)
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else:
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# use the search limit feature instead of a checker
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self.soup_args['limit'] = position
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self.index = position - 1
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return None
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except ValueError:
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pass
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if predicate == "last()":
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self.index = -1
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return None
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negate = self._re_predicate_not.match(predicate)
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if negate:
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predicate = negate.group(1)
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function_match = self._re_predicate_function.match(predicate)
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if function_match:
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name = function_match.group(1)
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arguments = function_match.group(2)
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value = function_match.group(4)
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if value is not None:
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value = function_match.group(5)
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return PredicateFilter(name, arguments, value)
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axis_match = self._re_predicate_axis.match(predicate)
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if axis_match:
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axis = axis_match.group(1)
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if axis is None:
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axis = AXIS_CHILD
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elif axis == '@':
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axis = AXIS_ATTRIBUTE
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if axis == AXIS_ATTRIBUTE:
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# use the attribute search feature instead of a checker
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attribute_name = axis_match.group(3)
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if axis_match.group(5) is not None:
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attribute_value = axis_match.group(6)
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elif not negate:
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attribute_value = True
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else:
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attribute_value = None
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if not self.soup_args.has_key('attrs'):
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self.soup_args['attrs'] = {}
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self.soup_args['attrs'][attribute_name] = attribute_value
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return None
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elif axis == AXIS_CHILD:
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node_test = axis_match.group(3)
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node_value = axis_match.group(6)
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return PredicateFilter('axis', node_test, value=node_value,
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negate=negate)
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raise NotImplementedError("This predicate is not implemented")
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def apply(self, nodes):
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"""Apply the step to a list of nodes. Return the list of nodes for the
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next step.
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"""
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if self.step == '.':
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return nodes
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elif self.step == '..':
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return [node.parent for node in nodes]
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result = []
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for node in nodes:
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if self.axis == AXIS_CHILD:
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found = node.findAll(recursive=False, **self.soup_args)
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elif self.axis == AXIS_DESCENDANT:
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found = node.findAll(recursive=True, **self.soup_args)
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elif self.axis == AXIS_ATTRIBUTE:
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try:
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found = [node[self.node_test]]
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except KeyError:
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found = []
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elif self.axis == AXIS_FOLLOWING_SIBLING:
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found = node.findNextSiblings(**self.soup_args)
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elif self.axis == AXIS_PRECEDING_SIBLING:
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# TODO: make sure that the result is reverse ordered
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found = node.findPreviousSiblings(**self.soup_args)
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elif self.axis == AXIS_FOLLOWING:
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# find the last descendant of this node
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last = node
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while (not isinstance(last, BeautifulSoup.NavigableString)) \
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and (len(last.contents) > 0):
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last = last.contents[-1]
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found = last.findAllNext(**self.soup_args)
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elif self.axis == AXIS_ANCESTOR:
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found = node.findParents(**self.soup_args)
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# this should only be active if there is a position predicate
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# and the axis is not 'descendant'
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if self.index is not None:
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if found:
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if len(found) > self.index:
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found = [found[self.index]]
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else:
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found = []
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if found:
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for checker in self.checkers:
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found = filter(checker, found)
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result.extend(found)
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return result
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class PredicateFilter:
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"""A callable class for filtering nodes.
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"""
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def __init__(self, name, arguments=None, value=None, negate=False):
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self.name = name
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self.arguments = arguments
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self.negate = negate
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if name == 'position':
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self.__filter = self.__position
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self.value = value
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elif name == 'axis':
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self.__filter = self.__axis
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self.node_test = arguments
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self.value = value
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elif name in ('starts-with', 'contains'):
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if name == 'starts-with':
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self.__filter = self.__starts_with
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else:
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self.__filter = self.__contains
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args = map(string.strip, arguments.split(','))
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if args[0][0] == '@':
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self.arguments = (True, args[0][1:], args[1][1:-1])
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else:
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self.arguments = (False, args[0], args[1][1:-1])
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elif name == 'string-length':
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self.__filter = self.__string_length
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args = map(string.strip, arguments.split(','))
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if args[0][0] == '@':
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self.arguments = (True, args[0][1:])
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else:
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self.arguments = (False, args[0])
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self.value = int(value)
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else:
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raise NotImplementedError("This XPath function is not implemented")
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def __call__(self, node):
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if self.negate:
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return not self.__filter(node)
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else:
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return self.__filter(node)
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def __position(self, node):
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if isinstance(node, BeautifulSoup.NavigableString):
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actual_position = len(node.findPreviousSiblings(text=True)) + 1
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else:
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actual_position = len(node.findPreviousSiblings(node.name)) + 1
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return actual_position == self.value
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def __axis(self, node):
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if self.node_test == 'text()':
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return node.string == self.value
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else:
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children = node.findAll(self.node_test, recursive=False)
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if len(children) > 0 and self.value is None:
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return True
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for child in children:
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if child.string == self.value:
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return True
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return False
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def __starts_with(self, node):
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if self.arguments[0]:
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# this is an attribute
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attribute_name = self.arguments[1]
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if node.has_key(attribute_name):
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first = node[attribute_name]
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return first.startswith(self.arguments[2])
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elif self.arguments[1] == 'text()':
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first = node.contents and node.contents[0]
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if isinstance(first, BeautifulSoup.NavigableString):
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return first.startswith(self.arguments[2])
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return False
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def __contains(self, node):
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if self.arguments[0]:
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# this is an attribute
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attribute_name = self.arguments[1]
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if node.has_key(attribute_name):
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first = node[attribute_name]
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return self.arguments[2] in first
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elif self.arguments[1] == 'text()':
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first = node.contents and node.contents[0]
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if isinstance(first, BeautifulSoup.NavigableString):
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return self.arguments[2] in first
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return False
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def __string_length(self, node):
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if self.arguments[0]:
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# this is an attribute
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attribute_name = self.arguments[1]
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if node.has_key(attribute_name):
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value = node[attribute_name]
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else:
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value = None
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elif self.arguments[1] == 'text()':
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value = node.string
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if value is not None:
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return len(value) == self.value
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return False
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_paths = {}
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_steps = {}
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def get_path(path):
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"""Utility for eliminating repeated parsings of the same paths and steps.
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"""
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if not _paths.has_key(path):
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p = Path(path, parse=False)
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steps = tokenize_path(path)
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for step in steps:
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if not _steps.has_key(step):
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_steps[step] = PathStep(step)
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p.steps.append(_steps[step])
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_paths[path] = p
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return _paths[path]
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