655 lines
25 KiB
Python
655 lines
25 KiB
Python
# Natural Language Toolkit: Recursive Descent Parser
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#
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# Copyright (C) 2001-2018 NLTK Project
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# Author: Edward Loper <edloper@gmail.com>
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# Steven Bird <stevenbird1@gmail.com>
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# URL: <http://nltk.org/>
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# For license information, see LICENSE.TXT
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from __future__ import print_function, unicode_literals
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from nltk.grammar import Nonterminal
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from nltk.tree import Tree, ImmutableTree
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from nltk.compat import unicode_repr
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from nltk.parse.api import ParserI
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##//////////////////////////////////////////////////////
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## Recursive Descent Parser
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##//////////////////////////////////////////////////////
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class RecursiveDescentParser(ParserI):
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"""
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A simple top-down CFG parser that parses texts by recursively
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expanding the fringe of a Tree, and matching it against a
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text.
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``RecursiveDescentParser`` uses a list of tree locations called a
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"frontier" to remember which subtrees have not yet been expanded
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and which leaves have not yet been matched against the text. Each
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tree location consists of a list of child indices specifying the
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path from the root of the tree to a subtree or a leaf; see the
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reference documentation for Tree for more information
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about tree locations.
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When the parser begins parsing a text, it constructs a tree
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containing only the start symbol, and a frontier containing the
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location of the tree's root node. It then extends the tree to
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cover the text, using the following recursive procedure:
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- If the frontier is empty, and the text is covered by the tree,
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then return the tree as a possible parse.
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- If the frontier is empty, and the text is not covered by the
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tree, then return no parses.
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- If the first element of the frontier is a subtree, then
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use CFG productions to "expand" it. For each applicable
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production, add the expanded subtree's children to the
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frontier, and recursively find all parses that can be
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generated by the new tree and frontier.
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- If the first element of the frontier is a token, then "match"
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it against the next token from the text. Remove the token
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from the frontier, and recursively find all parses that can be
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generated by the new tree and frontier.
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:see: ``nltk.grammar``
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"""
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def __init__(self, grammar, trace=0):
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"""
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Create a new ``RecursiveDescentParser``, that uses ``grammar``
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to parse texts.
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:type grammar: CFG
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:param grammar: The grammar used to parse texts.
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:type trace: int
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:param trace: The level of tracing that should be used when
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parsing a text. ``0`` will generate no tracing output;
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and higher numbers will produce more verbose tracing
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output.
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"""
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self._grammar = grammar
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self._trace = trace
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def grammar(self):
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return self._grammar
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def parse(self, tokens):
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# Inherit docs from ParserI
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tokens = list(tokens)
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self._grammar.check_coverage(tokens)
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# Start a recursive descent parse, with an initial tree
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# containing just the start symbol.
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start = self._grammar.start().symbol()
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initial_tree = Tree(start, [])
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frontier = [()]
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if self._trace:
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self._trace_start(initial_tree, frontier, tokens)
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return self._parse(tokens, initial_tree, frontier)
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def _parse(self, remaining_text, tree, frontier):
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"""
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Recursively expand and match each elements of ``tree``
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specified by ``frontier``, to cover ``remaining_text``. Return
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a list of all parses found.
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:return: An iterator of all parses that can be generated by
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matching and expanding the elements of ``tree``
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specified by ``frontier``.
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:rtype: iter(Tree)
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:type tree: Tree
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:param tree: A partial structure for the text that is
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currently being parsed. The elements of ``tree``
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that are specified by ``frontier`` have not yet been
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expanded or matched.
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:type remaining_text: list(str)
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:param remaining_text: The portion of the text that is not yet
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covered by ``tree``.
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:type frontier: list(tuple(int))
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:param frontier: A list of the locations within ``tree`` of
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all subtrees that have not yet been expanded, and all
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leaves that have not yet been matched. This list sorted
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in left-to-right order of location within the tree.
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"""
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# If the tree covers the text, and there's nothing left to
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# expand, then we've found a complete parse; return it.
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if len(remaining_text) == 0 and len(frontier) == 0:
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if self._trace:
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self._trace_succeed(tree, frontier)
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yield tree
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# If there's still text, but nothing left to expand, we failed.
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elif len(frontier) == 0:
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if self._trace:
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self._trace_backtrack(tree, frontier)
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# If the next element on the frontier is a tree, expand it.
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elif isinstance(tree[frontier[0]], Tree):
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for result in self._expand(remaining_text, tree, frontier):
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yield result
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# If the next element on the frontier is a token, match it.
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else:
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for result in self._match(remaining_text, tree, frontier):
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yield result
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def _match(self, rtext, tree, frontier):
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"""
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:rtype: iter(Tree)
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:return: an iterator of all parses that can be generated by
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matching the first element of ``frontier`` against the
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first token in ``rtext``. In particular, if the first
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element of ``frontier`` has the same type as the first
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token in ``rtext``, then substitute the token into
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``tree``; and return all parses that can be generated by
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matching and expanding the remaining elements of
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``frontier``. If the first element of ``frontier`` does not
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have the same type as the first token in ``rtext``, then
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return empty list.
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:type tree: Tree
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:param tree: A partial structure for the text that is
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currently being parsed. The elements of ``tree``
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that are specified by ``frontier`` have not yet been
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expanded or matched.
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:type rtext: list(str)
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:param rtext: The portion of the text that is not yet
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covered by ``tree``.
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:type frontier: list of tuple of int
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:param frontier: A list of the locations within ``tree`` of
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all subtrees that have not yet been expanded, and all
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leaves that have not yet been matched.
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"""
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tree_leaf = tree[frontier[0]]
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if (len(rtext) > 0 and tree_leaf == rtext[0]):
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# If it's a terminal that matches rtext[0], then substitute
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# in the token, and continue parsing.
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newtree = tree.copy(deep=True)
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newtree[frontier[0]] = rtext[0]
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if self._trace:
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self._trace_match(newtree, frontier[1:], rtext[0])
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for result in self._parse(rtext[1:], newtree, frontier[1:]):
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yield result
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else:
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# If it's a non-matching terminal, fail.
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if self._trace:
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self._trace_backtrack(tree, frontier, rtext[:1])
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def _expand(self, remaining_text, tree, frontier, production=None):
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"""
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:rtype: iter(Tree)
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:return: An iterator of all parses that can be generated by
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expanding the first element of ``frontier`` with
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``production``. In particular, if the first element of
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``frontier`` is a subtree whose node type is equal to
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``production``'s left hand side, then add a child to that
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subtree for each element of ``production``'s right hand
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side; and return all parses that can be generated by
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matching and expanding the remaining elements of
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``frontier``. If the first element of ``frontier`` is not a
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subtree whose node type is equal to ``production``'s left
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hand side, then return an empty list. If ``production`` is
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not specified, then return a list of all parses that can
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be generated by expanding the first element of ``frontier``
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with *any* CFG production.
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:type tree: Tree
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:param tree: A partial structure for the text that is
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currently being parsed. The elements of ``tree``
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that are specified by ``frontier`` have not yet been
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expanded or matched.
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:type remaining_text: list(str)
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:param remaining_text: The portion of the text that is not yet
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covered by ``tree``.
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:type frontier: list(tuple(int))
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:param frontier: A list of the locations within ``tree`` of
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all subtrees that have not yet been expanded, and all
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leaves that have not yet been matched.
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"""
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if production is None: productions = self._grammar.productions()
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else: productions = [production]
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for production in productions:
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lhs = production.lhs().symbol()
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if lhs == tree[frontier[0]].label():
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subtree = self._production_to_tree(production)
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if frontier[0] == ():
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newtree = subtree
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else:
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newtree = tree.copy(deep=True)
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newtree[frontier[0]] = subtree
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new_frontier = [frontier[0]+(i,) for i in
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range(len(production.rhs()))]
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if self._trace:
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self._trace_expand(newtree, new_frontier, production)
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for result in self._parse(remaining_text, newtree,
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new_frontier + frontier[1:]):
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yield result
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def _production_to_tree(self, production):
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"""
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:rtype: Tree
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:return: The Tree that is licensed by ``production``.
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In particular, given the production ``[lhs -> elt[1] ... elt[n]]``
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return a tree that has a node ``lhs.symbol``, and
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``n`` children. For each nonterminal element
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``elt[i]`` in the production, the tree token has a
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childless subtree with node value ``elt[i].symbol``; and
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for each terminal element ``elt[j]``, the tree token has
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a leaf token with type ``elt[j]``.
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:param production: The CFG production that licenses the tree
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token that should be returned.
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:type production: Production
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"""
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children = []
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for elt in production.rhs():
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if isinstance(elt, Nonterminal):
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children.append(Tree(elt.symbol(), []))
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else:
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# This will be matched.
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children.append(elt)
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return Tree(production.lhs().symbol(), children)
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def trace(self, trace=2):
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"""
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Set the level of tracing output that should be generated when
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parsing a text.
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:type trace: int
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:param trace: The trace level. A trace level of ``0`` will
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generate no tracing output; and higher trace levels will
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produce more verbose tracing output.
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:rtype: None
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"""
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self._trace = trace
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def _trace_fringe(self, tree, treeloc=None):
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"""
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Print trace output displaying the fringe of ``tree``. The
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fringe of ``tree`` consists of all of its leaves and all of
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its childless subtrees.
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:rtype: None
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"""
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if treeloc == (): print("*", end=' ')
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if isinstance(tree, Tree):
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if len(tree) == 0:
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print(unicode_repr(Nonterminal(tree.label())), end=' ')
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for i in range(len(tree)):
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if treeloc is not None and i == treeloc[0]:
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self._trace_fringe(tree[i], treeloc[1:])
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else:
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self._trace_fringe(tree[i])
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else:
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print(unicode_repr(tree), end=' ')
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def _trace_tree(self, tree, frontier, operation):
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"""
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Print trace output displaying the parser's current state.
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:param operation: A character identifying the operation that
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generated the current state.
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:rtype: None
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"""
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if self._trace == 2: print(' %c [' % operation, end=' ')
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else: print(' [', end=' ')
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if len(frontier) > 0: self._trace_fringe(tree, frontier[0])
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else: self._trace_fringe(tree)
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print(']')
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def _trace_start(self, tree, frontier, text):
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print('Parsing %r' % " ".join(text))
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if self._trace > 2: print('Start:')
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if self._trace > 1: self._trace_tree(tree, frontier, ' ')
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def _trace_expand(self, tree, frontier, production):
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if self._trace > 2: print('Expand: %s' % production)
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if self._trace > 1: self._trace_tree(tree, frontier, 'E')
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def _trace_match(self, tree, frontier, tok):
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if self._trace > 2: print('Match: %r' % tok)
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if self._trace > 1: self._trace_tree(tree, frontier, 'M')
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def _trace_succeed(self, tree, frontier):
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if self._trace > 2: print('GOOD PARSE:')
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if self._trace == 1: print('Found a parse:\n%s' % tree)
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if self._trace > 1: self._trace_tree(tree, frontier, '+')
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def _trace_backtrack(self, tree, frontier, toks=None):
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if self._trace > 2:
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if toks: print('Backtrack: %r match failed' % toks[0])
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else: print('Backtrack')
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##//////////////////////////////////////////////////////
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## Stepping Recursive Descent Parser
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##//////////////////////////////////////////////////////
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class SteppingRecursiveDescentParser(RecursiveDescentParser):
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"""
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A ``RecursiveDescentParser`` that allows you to step through the
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parsing process, performing a single operation at a time.
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The ``initialize`` method is used to start parsing a text.
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``expand`` expands the first element on the frontier using a single
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CFG production, and ``match`` matches the first element on the
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frontier against the next text token. ``backtrack`` undoes the most
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recent expand or match operation. ``step`` performs a single
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expand, match, or backtrack operation. ``parses`` returns the set
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of parses that have been found by the parser.
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:ivar _history: A list of ``(rtext, tree, frontier)`` tripples,
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containing the previous states of the parser. This history is
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used to implement the ``backtrack`` operation.
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:ivar _tried_e: A record of all productions that have been tried
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for a given tree. This record is used by ``expand`` to perform
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the next untried production.
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:ivar _tried_m: A record of what tokens have been matched for a
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given tree. This record is used by ``step`` to decide whether
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or not to match a token.
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:see: ``nltk.grammar``
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"""
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def __init__(self, grammar, trace=0):
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super(SteppingRecursiveDescentParser, self).__init__(grammar, trace)
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self._rtext = None
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self._tree = None
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self._frontier = [()]
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self._tried_e = {}
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self._tried_m = {}
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self._history = []
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self._parses = []
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# [XX] TEMPORARY HACK WARNING! This should be replaced with
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# something nicer when we get the chance.
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def _freeze(self, tree):
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c = tree.copy()
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# for pos in c.treepositions('leaves'):
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# c[pos] = c[pos].freeze()
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return ImmutableTree.convert(c)
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def parse(self, tokens):
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tokens = list(tokens)
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self.initialize(tokens)
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while self.step() is not None:
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pass
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return self.parses()
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def initialize(self, tokens):
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"""
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Start parsing a given text. This sets the parser's tree to
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the start symbol, its frontier to the root node, and its
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remaining text to ``token['SUBTOKENS']``.
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"""
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self._rtext = tokens
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start = self._grammar.start().symbol()
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self._tree = Tree(start, [])
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self._frontier = [()]
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self._tried_e = {}
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self._tried_m = {}
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self._history = []
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self._parses = []
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if self._trace:
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self._trace_start(self._tree, self._frontier, self._rtext)
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def remaining_text(self):
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"""
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:return: The portion of the text that is not yet covered by the
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tree.
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:rtype: list(str)
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"""
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return self._rtext
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def frontier(self):
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"""
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:return: A list of the tree locations of all subtrees that
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have not yet been expanded, and all leaves that have not
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yet been matched.
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:rtype: list(tuple(int))
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"""
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return self._frontier
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def tree(self):
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"""
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:return: A partial structure for the text that is
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currently being parsed. The elements specified by the
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frontier have not yet been expanded or matched.
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:rtype: Tree
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"""
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return self._tree
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def step(self):
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"""
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Perform a single parsing operation. If an untried match is
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possible, then perform the match, and return the matched
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token. If an untried expansion is possible, then perform the
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expansion, and return the production that it is based on. If
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backtracking is possible, then backtrack, and return True.
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Otherwise, return None.
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:return: None if no operation was performed; a token if a match
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was performed; a production if an expansion was performed;
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and True if a backtrack operation was performed.
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:rtype: Production or String or bool
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"""
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# Try matching (if we haven't already)
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if self.untried_match():
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token = self.match()
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if token is not None: return token
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# Try expanding.
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production = self.expand()
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if production is not None: return production
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# Try backtracking
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if self.backtrack():
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self._trace_backtrack(self._tree, self._frontier)
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return True
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# Nothing left to do.
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return None
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def expand(self, production=None):
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"""
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Expand the first element of the frontier. In particular, if
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the first element of the frontier is a subtree whose node type
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is equal to ``production``'s left hand side, then add a child
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to that subtree for each element of ``production``'s right hand
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side. If ``production`` is not specified, then use the first
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untried expandable production. If all expandable productions
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have been tried, do nothing.
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:return: The production used to expand the frontier, if an
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expansion was performed. If no expansion was performed,
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return None.
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:rtype: Production or None
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"""
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# Make sure we *can* expand.
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if len(self._frontier) == 0:
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return None
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if not isinstance(self._tree[self._frontier[0]], Tree):
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return None
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# If they didn't specify a production, check all untried ones.
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if production is None:
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productions = self.untried_expandable_productions()
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else: productions = [production]
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parses = []
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for prod in productions:
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# Record that we've tried this production now.
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self._tried_e.setdefault(self._freeze(self._tree), []).append(prod)
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# Try expanding.
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for _result in self._expand(self._rtext, self._tree, self._frontier, prod):
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return prod
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# We didn't expand anything.
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return None
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def match(self):
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"""
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Match the first element of the frontier. In particular, if
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the first element of the frontier has the same type as the
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next text token, then substitute the text token into the tree.
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:return: The token matched, if a match operation was
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performed. If no match was performed, return None
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:rtype: str or None
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"""
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# Record that we've tried matching this token.
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tok = self._rtext[0]
|
|
self._tried_m.setdefault(self._freeze(self._tree), []).append(tok)
|
|
|
|
# Make sure we *can* match.
|
|
if len(self._frontier) == 0:
|
|
return None
|
|
if isinstance(self._tree[self._frontier[0]], Tree):
|
|
return None
|
|
|
|
for _result in self._match(self._rtext, self._tree, self._frontier):
|
|
# Return the token we just matched.
|
|
return self._history[-1][0][0]
|
|
return None
|
|
|
|
def backtrack(self):
|
|
"""
|
|
Return the parser to its state before the most recent
|
|
match or expand operation. Calling ``undo`` repeatedly return
|
|
the parser to successively earlier states. If no match or
|
|
expand operations have been performed, ``undo`` will make no
|
|
changes.
|
|
|
|
:return: true if an operation was successfully undone.
|
|
:rtype: bool
|
|
"""
|
|
if len(self._history) == 0: return False
|
|
(self._rtext, self._tree, self._frontier) = self._history.pop()
|
|
return True
|
|
|
|
def expandable_productions(self):
|
|
"""
|
|
:return: A list of all the productions for which expansions
|
|
are available for the current parser state.
|
|
:rtype: list(Production)
|
|
"""
|
|
# Make sure we *can* expand.
|
|
if len(self._frontier) == 0: return []
|
|
frontier_child = self._tree[self._frontier[0]]
|
|
if (len(self._frontier) == 0 or
|
|
not isinstance(frontier_child, Tree)):
|
|
return []
|
|
|
|
return [p for p in self._grammar.productions()
|
|
if p.lhs().symbol() == frontier_child.label()]
|
|
|
|
def untried_expandable_productions(self):
|
|
"""
|
|
:return: A list of all the untried productions for which
|
|
expansions are available for the current parser state.
|
|
:rtype: list(Production)
|
|
"""
|
|
|
|
tried_expansions = self._tried_e.get(self._freeze(self._tree), [])
|
|
return [p for p in self.expandable_productions()
|
|
if p not in tried_expansions]
|
|
|
|
def untried_match(self):
|
|
"""
|
|
:return: Whether the first element of the frontier is a token
|
|
that has not yet been matched.
|
|
:rtype: bool
|
|
"""
|
|
|
|
if len(self._rtext) == 0: return False
|
|
tried_matches = self._tried_m.get(self._freeze(self._tree), [])
|
|
return (self._rtext[0] not in tried_matches)
|
|
|
|
def currently_complete(self):
|
|
"""
|
|
:return: Whether the parser's current state represents a
|
|
complete parse.
|
|
:rtype: bool
|
|
"""
|
|
return (len(self._frontier) == 0 and len(self._rtext) == 0)
|
|
|
|
def _parse(self, remaining_text, tree, frontier):
|
|
"""
|
|
A stub version of ``_parse`` that sets the parsers current
|
|
state to the given arguments. In ``RecursiveDescentParser``,
|
|
the ``_parse`` method is used to recursively continue parsing a
|
|
text. ``SteppingRecursiveDescentParser`` overrides it to
|
|
capture these recursive calls. It records the parser's old
|
|
state in the history (to allow for backtracking), and updates
|
|
the parser's new state using the given arguments. Finally, it
|
|
returns ``[1]``, which is used by ``match`` and ``expand`` to
|
|
detect whether their operations were successful.
|
|
|
|
:return: ``[1]``
|
|
:rtype: list of int
|
|
"""
|
|
self._history.append( (self._rtext, self._tree, self._frontier) )
|
|
self._rtext = remaining_text
|
|
self._tree = tree
|
|
self._frontier = frontier
|
|
|
|
# Is it a good parse? If so, record it.
|
|
if (len(frontier) == 0 and len(remaining_text) == 0):
|
|
self._parses.append(tree)
|
|
self._trace_succeed(self._tree, self._frontier)
|
|
|
|
return [1]
|
|
|
|
def parses(self):
|
|
"""
|
|
:return: An iterator of the parses that have been found by this
|
|
parser so far.
|
|
:rtype: list of Tree
|
|
"""
|
|
return iter(self._parses)
|
|
|
|
def set_grammar(self, grammar):
|
|
"""
|
|
Change the grammar used to parse texts.
|
|
|
|
:param grammar: The new grammar.
|
|
:type grammar: CFG
|
|
"""
|
|
self._grammar = grammar
|
|
|
|
##//////////////////////////////////////////////////////
|
|
## Demonstration Code
|
|
##//////////////////////////////////////////////////////
|
|
|
|
def demo():
|
|
"""
|
|
A demonstration of the recursive descent parser.
|
|
"""
|
|
|
|
from nltk import parse, CFG
|
|
|
|
grammar = CFG.fromstring("""
|
|
S -> NP VP
|
|
NP -> Det N | Det N PP
|
|
VP -> V NP | V NP PP
|
|
PP -> P NP
|
|
NP -> 'I'
|
|
N -> 'man' | 'park' | 'telescope' | 'dog'
|
|
Det -> 'the' | 'a'
|
|
P -> 'in' | 'with'
|
|
V -> 'saw'
|
|
""")
|
|
|
|
for prod in grammar.productions():
|
|
print(prod)
|
|
|
|
sent = 'I saw a man in the park'.split()
|
|
parser = parse.RecursiveDescentParser(grammar, trace=2)
|
|
for p in parser.parse(sent):
|
|
print(p)
|
|
|
|
if __name__ == '__main__':
|
|
demo()
|