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480 lines
16 KiB
Python
480 lines
16 KiB
Python
# Natural Language Toolkit: Shift-Reduce Parser
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#
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# Copyright (C) 2001-2020 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 nltk.grammar import Nonterminal
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from nltk.tree import Tree
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from nltk.parse.api import ParserI
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##//////////////////////////////////////////////////////
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## Shift/Reduce Parser
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##//////////////////////////////////////////////////////
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class ShiftReduceParser(ParserI):
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"""
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A simple bottom-up CFG parser that uses two operations, "shift"
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and "reduce", to find a single parse for a text.
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``ShiftReduceParser`` maintains a stack, which records the
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structure of a portion of the text. This stack is a list of
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strings and Trees that collectively cover a portion of
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the text. For example, while parsing the sentence "the dog saw
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the man" with a typical grammar, ``ShiftReduceParser`` will produce
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the following stack, which covers "the dog saw"::
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[(NP: (Det: 'the') (N: 'dog')), (V: 'saw')]
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``ShiftReduceParser`` attempts to extend the stack to cover the
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entire text, and to combine the stack elements into a single tree,
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producing a complete parse for the sentence.
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Initially, the stack is empty. It is extended to cover the text,
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from left to right, by repeatedly applying two operations:
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- "shift" moves a token from the beginning of the text to the
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end of the stack.
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- "reduce" uses a CFG production to combine the rightmost stack
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elements into a single Tree.
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Often, more than one operation can be performed on a given stack.
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In this case, ``ShiftReduceParser`` uses the following heuristics
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to decide which operation to perform:
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- Only shift if no reductions are available.
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- If multiple reductions are available, then apply the reduction
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whose CFG production is listed earliest in the grammar.
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Note that these heuristics are not guaranteed to choose an
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operation that leads to a parse of the text. Also, if multiple
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parses exists, ``ShiftReduceParser`` will return at most one of
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them.
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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 ``ShiftReduceParser``, that uses ``grammar`` to
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parse texts.
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:type grammar: Grammar
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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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self._check_grammar()
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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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tokens = list(tokens)
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self._grammar.check_coverage(tokens)
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# initialize the stack.
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stack = []
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remaining_text = tokens
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# Trace output.
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if self._trace:
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print("Parsing %r" % " ".join(tokens))
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self._trace_stack(stack, remaining_text)
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# iterate through the text, pushing the token onto
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# the stack, then reducing the stack.
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while len(remaining_text) > 0:
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self._shift(stack, remaining_text)
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while self._reduce(stack, remaining_text):
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pass
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# Did we reduce everything?
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if len(stack) == 1:
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# Did we end up with the right category?
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if stack[0].label() == self._grammar.start().symbol():
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yield stack[0]
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def _shift(self, stack, remaining_text):
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"""
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Move a token from the beginning of ``remaining_text`` to the
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end of ``stack``.
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:type stack: list(str and Tree)
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:param stack: A list of strings and Trees, encoding
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the structure of the text that has been parsed so far.
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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 ``stack``.
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:rtype: None
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"""
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stack.append(remaining_text[0])
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remaining_text.remove(remaining_text[0])
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if self._trace:
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self._trace_shift(stack, remaining_text)
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def _match_rhs(self, rhs, rightmost_stack):
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"""
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:rtype: bool
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:return: true if the right hand side of a CFG production
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matches the rightmost elements of the stack. ``rhs``
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matches ``rightmost_stack`` if they are the same length,
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and each element of ``rhs`` matches the corresponding
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element of ``rightmost_stack``. A nonterminal element of
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``rhs`` matches any Tree whose node value is equal
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to the nonterminal's symbol. A terminal element of ``rhs``
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matches any string whose type is equal to the terminal.
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:type rhs: list(terminal and Nonterminal)
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:param rhs: The right hand side of a CFG production.
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:type rightmost_stack: list(string and Tree)
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:param rightmost_stack: The rightmost elements of the parser's
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stack.
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"""
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if len(rightmost_stack) != len(rhs):
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return False
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for i in range(len(rightmost_stack)):
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if isinstance(rightmost_stack[i], Tree):
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if not isinstance(rhs[i], Nonterminal):
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return False
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if rightmost_stack[i].label() != rhs[i].symbol():
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return False
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else:
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if isinstance(rhs[i], Nonterminal):
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return False
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if rightmost_stack[i] != rhs[i]:
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return False
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return True
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def _reduce(self, stack, remaining_text, production=None):
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"""
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Find a CFG production whose right hand side matches the
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rightmost stack elements; and combine those stack elements
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into a single Tree, with the node specified by the
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production's left-hand side. If more than one CFG production
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matches the stack, then use the production that is listed
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earliest in the grammar. The new Tree replaces the
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elements in the stack.
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:rtype: Production or None
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:return: If a reduction is performed, then return the CFG
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production that the reduction is based on; otherwise,
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return false.
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:type stack: list(string and Tree)
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:param stack: A list of strings and Trees, encoding
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the structure of the text that has been parsed so far.
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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 ``stack``.
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"""
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if production is None:
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productions = self._grammar.productions()
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else:
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productions = [production]
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# Try each production, in order.
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for production in productions:
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rhslen = len(production.rhs())
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# check if the RHS of a production matches the top of the stack
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if self._match_rhs(production.rhs(), stack[-rhslen:]):
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# combine the tree to reflect the reduction
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tree = Tree(production.lhs().symbol(), stack[-rhslen:])
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stack[-rhslen:] = [tree]
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# We reduced something
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if self._trace:
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self._trace_reduce(stack, production, remaining_text)
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return production
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# We didn't reduce anything
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return None
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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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# 1: just show shifts.
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# 2: show shifts & reduces
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# 3: display which tokens & productions are shifed/reduced
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self._trace = trace
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def _trace_stack(self, stack, remaining_text, marker=" "):
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"""
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Print trace output displaying the given stack and text.
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:rtype: None
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:param marker: A character that is printed to the left of the
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stack. This is used with trace level 2 to print 'S'
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before shifted stacks and 'R' before reduced stacks.
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"""
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s = " " + marker + " [ "
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for elt in stack:
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if isinstance(elt, Tree):
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s += repr(Nonterminal(elt.label())) + " "
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else:
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s += repr(elt) + " "
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s += "* " + " ".join(remaining_text) + "]"
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print(s)
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def _trace_shift(self, stack, remaining_text):
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"""
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Print trace output displaying that a token has been shifted.
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:rtype: None
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"""
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if self._trace > 2:
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print("Shift %r:" % stack[-1])
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if self._trace == 2:
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self._trace_stack(stack, remaining_text, "S")
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elif self._trace > 0:
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self._trace_stack(stack, remaining_text)
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def _trace_reduce(self, stack, production, remaining_text):
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"""
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Print trace output displaying that ``production`` was used to
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reduce ``stack``.
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:rtype: None
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"""
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if self._trace > 2:
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rhs = " ".join(production.rhs())
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print("Reduce %r <- %s" % (production.lhs(), rhs))
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if self._trace == 2:
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self._trace_stack(stack, remaining_text, "R")
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elif self._trace > 1:
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self._trace_stack(stack, remaining_text)
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def _check_grammar(self):
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"""
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Check to make sure that all of the CFG productions are
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potentially useful. If any productions can never be used,
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then print a warning.
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:rtype: None
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"""
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productions = self._grammar.productions()
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# Any production whose RHS is an extension of another production's RHS
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# will never be used.
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for i in range(len(productions)):
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for j in range(i + 1, len(productions)):
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rhs1 = productions[i].rhs()
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rhs2 = productions[j].rhs()
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if rhs1[: len(rhs2)] == rhs2:
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print("Warning: %r will never be used" % productions[i])
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##//////////////////////////////////////////////////////
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## Stepping Shift/Reduce Parser
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##//////////////////////////////////////////////////////
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class SteppingShiftReduceParser(ShiftReduceParser):
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"""
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A ``ShiftReduceParser`` that allows you to setp through the parsing
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process, performing a single operation at a time. It also allows
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you to change the parser's grammar midway through parsing a text.
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The ``initialize`` method is used to start parsing a text.
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``shift`` performs a single shift operation, and ``reduce`` performs
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a single reduce operation. ``step`` will perform a single reduce
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operation if possible; otherwise, it will perform a single shift
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operation. ``parses`` returns the set of parses that have been
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found by the parser.
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:ivar _history: A list of ``(stack, remaining_text)`` pairs,
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containing all of the previous states of the parser. This
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history is used to implement the ``undo`` operation.
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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(SteppingShiftReduceParser, self).__init__(grammar, trace)
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self._stack = None
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self._remaining_text = None
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self._history = []
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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():
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pass
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return self.parses()
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def stack(self):
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"""
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:return: The parser's stack.
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:rtype: list(str and Tree)
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"""
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return self._stack
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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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stack.
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:rtype: list(str)
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"""
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return self._remaining_text
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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 stack to
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``[]`` and sets its remaining text to ``tokens``.
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"""
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self._stack = []
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self._remaining_text = tokens
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self._history = []
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def step(self):
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"""
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Perform a single parsing operation. If a reduction is
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possible, then perform that reduction, and return the
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production that it is based on. Otherwise, if a shift is
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possible, then perform it, and return True. Otherwise,
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return False.
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:return: False if no operation was performed; True if a shift was
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performed; and the CFG production used to reduce if a
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reduction was performed.
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:rtype: Production or bool
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"""
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return self.reduce() or self.shift()
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def shift(self):
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"""
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Move a token from the beginning of the remaining text to the
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end of the stack. If there are no more tokens in the
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remaining text, then do nothing.
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:return: True if the shift operation was successful.
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:rtype: bool
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"""
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if len(self._remaining_text) == 0:
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return False
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self._history.append((self._stack[:], self._remaining_text[:]))
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self._shift(self._stack, self._remaining_text)
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return True
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def reduce(self, production=None):
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"""
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Use ``production`` to combine the rightmost stack elements into
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a single Tree. If ``production`` does not match the
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rightmost stack elements, then do nothing.
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:return: The production used to reduce the stack, if a
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reduction was performed. If no reduction was performed,
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return None.
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:rtype: Production or None
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"""
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self._history.append((self._stack[:], self._remaining_text[:]))
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return_val = self._reduce(self._stack, self._remaining_text, production)
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if not return_val:
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self._history.pop()
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return return_val
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def undo(self):
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"""
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Return the parser to its state before the most recent
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shift or reduce operation. Calling ``undo`` repeatedly return
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the parser to successively earlier states. If no shift or
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reduce operations have been performed, ``undo`` will make no
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changes.
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:return: true if an operation was successfully undone.
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:rtype: bool
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"""
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if len(self._history) == 0:
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return False
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(self._stack, self._remaining_text) = self._history.pop()
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return True
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def reducible_productions(self):
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"""
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:return: A list of the productions for which reductions are
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available for the current parser state.
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:rtype: list(Production)
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"""
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productions = []
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for production in self._grammar.productions():
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rhslen = len(production.rhs())
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if self._match_rhs(production.rhs(), self._stack[-rhslen:]):
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productions.append(production)
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return productions
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def parses(self):
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"""
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:return: An iterator of the parses that have been found by this
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parser so far.
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:rtype: iter(Tree)
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"""
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if (
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len(self._remaining_text) == 0
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and len(self._stack) == 1
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and self._stack[0].label() == self._grammar.start().symbol()
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):
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yield self._stack[0]
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# copied from nltk.parser
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def set_grammar(self, grammar):
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"""
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Change the grammar used to parse texts.
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:param grammar: The new grammar.
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:type grammar: CFG
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"""
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self._grammar = grammar
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##//////////////////////////////////////////////////////
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## Demonstration Code
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##//////////////////////////////////////////////////////
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def demo():
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"""
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A demonstration of the shift-reduce parser.
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"""
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from nltk import parse, CFG
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grammar = CFG.fromstring(
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"""
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S -> NP VP
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NP -> Det N | Det N PP
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VP -> V NP | V NP PP
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PP -> P NP
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NP -> 'I'
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N -> 'man' | 'park' | 'telescope' | 'dog'
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Det -> 'the' | 'a'
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P -> 'in' | 'with'
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V -> 'saw'
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"""
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)
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sent = "I saw a man in the park".split()
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parser = parse.ShiftReduceParser(grammar, trace=2)
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for p in parser.parse(sent):
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print(p)
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if __name__ == "__main__":
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demo()
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