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416 lines
17 KiB
Python
416 lines
17 KiB
Python
5 years ago
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# Natural Language Toolkit: Viterbi Probabilistic Parser
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#
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# Copyright (C) 2001-2019 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 functools import reduce
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from nltk.tree import Tree, ProbabilisticTree
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from nltk.compat import python_2_unicode_compatible
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from nltk.parse.api import ParserI
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##//////////////////////////////////////////////////////
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## Viterbi PCFG Parser
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##//////////////////////////////////////////////////////
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@python_2_unicode_compatible
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class ViterbiParser(ParserI):
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"""
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A bottom-up ``PCFG`` parser that uses dynamic programming to find
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the single most likely parse for a text. The ``ViterbiParser`` parser
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parses texts by filling in a "most likely constituent table".
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This table records the most probable tree representation for any
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given span and node value. In particular, it has an entry for
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every start index, end index, and node value, recording the most
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likely subtree that spans from the start index to the end index,
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and has the given node value.
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The ``ViterbiParser`` parser fills in this table incrementally. It starts
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by filling in all entries for constituents that span one element
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of text (i.e., entries where the end index is one greater than the
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start index). After it has filled in all table entries for
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constituents that span one element of text, it fills in the
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entries for constitutants that span two elements of text. It
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continues filling in the entries for constituents spanning larger
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and larger portions of the text, until the entire table has been
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filled. Finally, it returns the table entry for a constituent
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spanning the entire text, whose node value is the grammar's start
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symbol.
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In order to find the most likely constituent with a given span and
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node value, the ``ViterbiParser`` parser considers all productions that
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could produce that node value. For each production, it finds all
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children that collectively cover the span and have the node values
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specified by the production's right hand side. If the probability
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of the tree formed by applying the production to the children is
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greater than the probability of the current entry in the table,
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then the table is updated with this new tree.
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A pseudo-code description of the algorithm used by
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``ViterbiParser`` is:
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| Create an empty most likely constituent table, *MLC*.
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| For width in 1...len(text):
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| For start in 1...len(text)-width:
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| For prod in grammar.productions:
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| For each sequence of subtrees [t[1], t[2], ..., t[n]] in MLC,
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| where t[i].label()==prod.rhs[i],
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| and the sequence covers [start:start+width]:
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| old_p = MLC[start, start+width, prod.lhs]
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| new_p = P(t[1])P(t[1])...P(t[n])P(prod)
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| if new_p > old_p:
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| new_tree = Tree(prod.lhs, t[1], t[2], ..., t[n])
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| MLC[start, start+width, prod.lhs] = new_tree
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| Return MLC[0, len(text), start_symbol]
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:type _grammar: PCFG
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:ivar _grammar: The grammar used to parse sentences.
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:type _trace: int
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:ivar _trace: The level of tracing output that should be generated
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when parsing a text.
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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 ``ViterbiParser`` parser, that uses ``grammar`` to
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parse texts.
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:type grammar: PCFG
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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 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 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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# The most likely constituent table. This table specifies the
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# most likely constituent for a given span and type.
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# Constituents can be either Trees or tokens. For Trees,
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# the "type" is the Nonterminal for the tree's root node
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# value. For Tokens, the "type" is the token's type.
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# The table is stored as a dictionary, since it is sparse.
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constituents = {}
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# Initialize the constituents dictionary with the words from
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# the text.
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if self._trace:
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print(('Inserting tokens into the most likely' + ' constituents table...'))
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for index in range(len(tokens)):
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token = tokens[index]
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constituents[index, index + 1, token] = token
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if self._trace > 1:
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self._trace_lexical_insertion(token, index, len(tokens))
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# Consider each span of length 1, 2, ..., n; and add any trees
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# that might cover that span to the constituents dictionary.
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for length in range(1, len(tokens) + 1):
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if self._trace:
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print(
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(
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'Finding the most likely constituents'
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+ ' spanning %d text elements...' % length
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)
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)
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for start in range(len(tokens) - length + 1):
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span = (start, start + length)
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self._add_constituents_spanning(span, constituents, tokens)
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# Return the tree that spans the entire text & have the right cat
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tree = constituents.get((0, len(tokens), self._grammar.start()))
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if tree is not None:
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yield tree
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def _add_constituents_spanning(self, span, constituents, tokens):
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"""
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Find any constituents that might cover ``span``, and add them
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to the most likely constituents table.
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:rtype: None
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:type span: tuple(int, int)
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:param span: The section of the text for which we are
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trying to find possible constituents. The span is
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specified as a pair of integers, where the first integer
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is the index of the first token that should be included in
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the constituent; and the second integer is the index of
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the first token that should not be included in the
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constituent. I.e., the constituent should cover
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``text[span[0]:span[1]]``, where ``text`` is the text
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that we are parsing.
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:type constituents: dict(tuple(int,int,Nonterminal) -> ProbabilisticToken or ProbabilisticTree)
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:param constituents: The most likely constituents table. This
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table records the most probable tree representation for
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any given span and node value. In particular,
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``constituents(s,e,nv)`` is the most likely
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``ProbabilisticTree`` that covers ``text[s:e]``
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and has a node value ``nv.symbol()``, where ``text``
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is the text that we are parsing. When
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``_add_constituents_spanning`` is called, ``constituents``
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should contain all possible constituents that are shorter
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than ``span``.
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:type tokens: list of tokens
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:param tokens: The text we are parsing. This is only used for
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trace output.
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"""
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# Since some of the grammar productions may be unary, we need to
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# repeatedly try all of the productions until none of them add any
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# new constituents.
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changed = True
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while changed:
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changed = False
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# Find all ways instantiations of the grammar productions that
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# cover the span.
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instantiations = self._find_instantiations(span, constituents)
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# For each production instantiation, add a new
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# ProbabilisticTree whose probability is the product
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# of the childrens' probabilities and the production's
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# probability.
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for (production, children) in instantiations:
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subtrees = [c for c in children if isinstance(c, Tree)]
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p = reduce(lambda pr, t: pr * t.prob(), subtrees, production.prob())
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node = production.lhs().symbol()
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tree = ProbabilisticTree(node, children, prob=p)
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# If it's new a constituent, then add it to the
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# constituents dictionary.
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c = constituents.get((span[0], span[1], production.lhs()))
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if self._trace > 1:
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if c is None or c != tree:
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if c is None or c.prob() < tree.prob():
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print(' Insert:', end=' ')
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else:
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print(' Discard:', end=' ')
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self._trace_production(production, p, span, len(tokens))
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if c is None or c.prob() < tree.prob():
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constituents[span[0], span[1], production.lhs()] = tree
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changed = True
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def _find_instantiations(self, span, constituents):
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"""
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:return: a list of the production instantiations that cover a
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given span of the text. A "production instantiation" is
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a tuple containing a production and a list of children,
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where the production's right hand side matches the list of
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children; and the children cover ``span``. :rtype: list
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of ``pair`` of ``Production``, (list of
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(``ProbabilisticTree`` or token.
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:type span: tuple(int, int)
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:param span: The section of the text for which we are
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trying to find production instantiations. The span is
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specified as a pair of integers, where the first integer
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is the index of the first token that should be covered by
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the production instantiation; and the second integer is
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the index of the first token that should not be covered by
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the production instantiation.
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:type constituents: dict(tuple(int,int,Nonterminal) -> ProbabilisticToken or ProbabilisticTree)
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:param constituents: The most likely constituents table. This
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table records the most probable tree representation for
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any given span and node value. See the module
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documentation for more information.
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"""
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rv = []
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for production in self._grammar.productions():
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childlists = self._match_rhs(production.rhs(), span, constituents)
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for childlist in childlists:
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rv.append((production, childlist))
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return rv
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def _match_rhs(self, rhs, span, constituents):
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"""
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:return: a set of all the lists of children that cover ``span``
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and that match ``rhs``.
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:rtype: list(list(ProbabilisticTree or token)
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:type rhs: list(Nonterminal or any)
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:param rhs: The list specifying what kinds of children need to
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cover ``span``. Each nonterminal in ``rhs`` specifies
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that the corresponding child should be a tree whose node
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value is that nonterminal's symbol. Each terminal in ``rhs``
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specifies that the corresponding child should be a token
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whose type is that terminal.
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:type span: tuple(int, int)
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:param span: The section of the text for which we are
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trying to find child lists. The span is specified as a
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pair of integers, where the first integer is the index of
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the first token that should be covered by the child list;
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and the second integer is the index of the first token
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that should not be covered by the child list.
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:type constituents: dict(tuple(int,int,Nonterminal) -> ProbabilisticToken or ProbabilisticTree)
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:param constituents: The most likely constituents table. This
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table records the most probable tree representation for
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any given span and node value. See the module
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documentation for more information.
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"""
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(start, end) = span
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# Base case
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if start >= end and rhs == ():
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return [[]]
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if start >= end or rhs == ():
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return []
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# Find everything that matches the 1st symbol of the RHS
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childlists = []
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for split in range(start, end + 1):
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l = constituents.get((start, split, rhs[0]))
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if l is not None:
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rights = self._match_rhs(rhs[1:], (split, end), constituents)
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childlists += [[l] + r for r in rights]
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return childlists
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def _trace_production(self, production, p, span, width):
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"""
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Print trace output indicating that a given production has been
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applied at a given location.
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:param production: The production that has been applied
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:type production: Production
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:param p: The probability of the tree produced by the production.
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:type p: float
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:param span: The span of the production
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:type span: tuple
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:rtype: None
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"""
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str = '|' + '.' * span[0]
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str += '=' * (span[1] - span[0])
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str += '.' * (width - span[1]) + '| '
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str += '%s' % production
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if self._trace > 2:
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str = '%-40s %12.10f ' % (str, p)
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print(str)
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def _trace_lexical_insertion(self, token, index, width):
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str = ' Insert: |' + '.' * index + '=' + '.' * (width - index - 1) + '| '
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str += '%s' % (token,)
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print(str)
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def __repr__(self):
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return '<ViterbiParser for %r>' % self._grammar
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##//////////////////////////////////////////////////////
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## Test Code
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##//////////////////////////////////////////////////////
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def demo():
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"""
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A demonstration of the probabilistic parsers. The user is
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prompted to select which demo to run, and how many parses should
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be found; and then each parser is run on the same demo, and a
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summary of the results are displayed.
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"""
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import sys, time
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from nltk import tokenize
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from nltk.parse import ViterbiParser
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from nltk.grammar import toy_pcfg1, toy_pcfg2
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# Define two demos. Each demo has a sentence and a grammar.
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demos = [
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('I saw the man with my telescope', toy_pcfg1),
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('the boy saw Jack with Bob under the table with a telescope', toy_pcfg2),
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]
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# Ask the user which demo they want to use.
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print()
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for i in range(len(demos)):
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print('%3s: %s' % (i + 1, demos[i][0]))
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print(' %r' % demos[i][1])
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print()
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print('Which demo (%d-%d)? ' % (1, len(demos)), end=' ')
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try:
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snum = int(sys.stdin.readline().strip()) - 1
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sent, grammar = demos[snum]
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except:
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print('Bad sentence number')
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return
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# Tokenize the sentence.
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tokens = sent.split()
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parser = ViterbiParser(grammar)
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all_parses = {}
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print('\nsent: %s\nparser: %s\ngrammar: %s' % (sent, parser, grammar))
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parser.trace(3)
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t = time.time()
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parses = parser.parse_all(tokens)
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time = time.time() - t
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average = (
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reduce(lambda a, b: a + b.prob(), parses, 0) / len(parses) if parses else 0
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)
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num_parses = len(parses)
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for p in parses:
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all_parses[p.freeze()] = 1
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# Print some summary statistics
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print()
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print('Time (secs) # Parses Average P(parse)')
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print('-----------------------------------------')
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print('%11.4f%11d%19.14f' % (time, num_parses, average))
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parses = all_parses.keys()
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if parses:
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p = reduce(lambda a, b: a + b.prob(), parses, 0) / len(parses)
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else:
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p = 0
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print('------------------------------------------')
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print('%11s%11d%19.14f' % ('n/a', len(parses), p))
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# Ask the user if we should draw the parses.
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print()
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print('Draw parses (y/n)? ', end=' ')
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if sys.stdin.readline().strip().lower().startswith('y'):
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from nltk.draw.tree import draw_trees
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print(' please wait...')
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draw_trees(*parses)
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# Ask the user if we should print the parses.
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print()
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print('Print parses (y/n)? ', end=' ')
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if sys.stdin.readline().strip().lower().startswith('y'):
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for parse in parses:
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print(parse)
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if __name__ == '__main__':
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demo()
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