166 lines
6.8 KiB
Python
166 lines
6.8 KiB
Python
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#
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# Copyright (c) 2012-2017 The ANTLR Project. All rights reserved.
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# Use of this file is governed by the BSD 3-clause license that
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# can be found in the LICENSE.txt file in the project root.
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#
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# A parser simulator that mimics what ANTLR's generated
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# parser code does. A ParserATNSimulator is used to make
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# predictions via adaptivePredict but this class moves a pointer through the
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# ATN to simulate parsing. ParserATNSimulator just
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# makes us efficient rather than having to backtrack, for example.
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#
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# This properly creates parse trees even for left recursive rules.
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#
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# We rely on the left recursive rule invocation and special predicate
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# transitions to make left recursive rules work.
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#
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# See TestParserInterpreter for examples.
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#
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from antlr4.dfa.DFA import DFA
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from antlr4.BufferedTokenStream import TokenStream
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from antlr4.Lexer import Lexer
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from antlr4.Parser import Parser
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from antlr4.ParserRuleContext import InterpreterRuleContext, ParserRuleContext
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from antlr4.Token import Token
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from antlr4.atn.ATN import ATN
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from antlr4.atn.ATNState import StarLoopEntryState, ATNState, LoopEndState
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from antlr4.atn.ParserATNSimulator import ParserATNSimulator
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from antlr4.PredictionContext import PredictionContextCache
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from antlr4.atn.Transition import Transition
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from antlr4.error.Errors import RecognitionException, UnsupportedOperationException, FailedPredicateException
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class ParserInterpreter(Parser):
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def __init__(self, grammarFileName:str, tokenNames:list, ruleNames:list, atn:ATN, input:TokenStream):
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super().__init__(input)
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self.grammarFileName = grammarFileName
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self.atn = atn
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self.tokenNames = tokenNames
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self.ruleNames = ruleNames
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self.decisionToDFA = [ DFA(state) for state in atn.decisionToState ]
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self.sharedContextCache = PredictionContextCache()
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self._parentContextStack = list()
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# identify the ATN states where pushNewRecursionContext must be called
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self.pushRecursionContextStates = set()
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for state in atn.states:
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if not isinstance(state, StarLoopEntryState):
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continue
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if state.isPrecedenceDecision:
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self.pushRecursionContextStates.add(state.stateNumber)
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# get atn simulator that knows how to do predictions
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self._interp = ParserATNSimulator(self, atn, self.decisionToDFA, self.sharedContextCache)
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# Begin parsing at startRuleIndex#
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def parse(self, startRuleIndex:int):
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startRuleStartState = self.atn.ruleToStartState[startRuleIndex]
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rootContext = InterpreterRuleContext(None, ATNState.INVALID_STATE_NUMBER, startRuleIndex)
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if startRuleStartState.isPrecedenceRule:
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self.enterRecursionRule(rootContext, startRuleStartState.stateNumber, startRuleIndex, 0)
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else:
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self.enterRule(rootContext, startRuleStartState.stateNumber, startRuleIndex)
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while True:
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p = self.getATNState()
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if p.stateType==ATNState.RULE_STOP :
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# pop; return from rule
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if len(self._ctx)==0:
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if startRuleStartState.isPrecedenceRule:
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result = self._ctx
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parentContext = self._parentContextStack.pop()
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self.unrollRecursionContexts(parentContext.a)
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return result
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else:
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self.exitRule()
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return rootContext
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self.visitRuleStopState(p)
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else:
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try:
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self.visitState(p)
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except RecognitionException as e:
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self.state = self.atn.ruleToStopState[p.ruleIndex].stateNumber
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self._ctx.exception = e
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self._errHandler.reportError(self, e)
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self._errHandler.recover(self, e)
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def enterRecursionRule(self, localctx:ParserRuleContext, state:int, ruleIndex:int, precedence:int):
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self._parentContextStack.append((self._ctx, localctx.invokingState))
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super().enterRecursionRule(localctx, state, ruleIndex, precedence)
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def getATNState(self):
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return self.atn.states[self.state]
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def visitState(self, p:ATNState):
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edge = 0
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if len(p.transitions) > 1:
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self._errHandler.sync(self)
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edge = self._interp.adaptivePredict(self._input, p.decision, self._ctx)
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else:
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edge = 1
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transition = p.transitions[edge - 1]
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tt = transition.serializationType
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if tt==Transition.EPSILON:
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if self.pushRecursionContextStates[p.stateNumber] and not isinstance(transition.target, LoopEndState):
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t = self._parentContextStack[-1]
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ctx = InterpreterRuleContext(t[0], t[1], self._ctx.ruleIndex)
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self.pushNewRecursionContext(ctx, self.atn.ruleToStartState[p.ruleIndex].stateNumber, self._ctx.ruleIndex)
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elif tt==Transition.ATOM:
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self.match(transition.label)
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elif tt in [ Transition.RANGE, Transition.SET, Transition.NOT_SET]:
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if not transition.matches(self._input.LA(1), Token.MIN_USER_TOKEN_TYPE, Lexer.MAX_CHAR_VALUE):
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self._errHandler.recoverInline(self)
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self.matchWildcard()
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elif tt==Transition.WILDCARD:
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self.matchWildcard()
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elif tt==Transition.RULE:
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ruleStartState = transition.target
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ruleIndex = ruleStartState.ruleIndex
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ctx = InterpreterRuleContext(self._ctx, p.stateNumber, ruleIndex)
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if ruleStartState.isPrecedenceRule:
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self.enterRecursionRule(ctx, ruleStartState.stateNumber, ruleIndex, transition.precedence)
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else:
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self.enterRule(ctx, transition.target.stateNumber, ruleIndex)
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elif tt==Transition.PREDICATE:
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if not self.sempred(self._ctx, transition.ruleIndex, transition.predIndex):
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raise FailedPredicateException(self)
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elif tt==Transition.ACTION:
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self.action(self._ctx, transition.ruleIndex, transition.actionIndex)
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elif tt==Transition.PRECEDENCE:
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if not self.precpred(self._ctx, transition.precedence):
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msg = "precpred(_ctx, " + str(transition.precedence) + ")"
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raise FailedPredicateException(self, msg)
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else:
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raise UnsupportedOperationException("Unrecognized ATN transition type.")
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self.state = transition.target.stateNumber
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def visitRuleStopState(self, p:ATNState):
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ruleStartState = self.atn.ruleToStartState[p.ruleIndex]
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if ruleStartState.isPrecedenceRule:
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parentContext = self._parentContextStack.pop()
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self.unrollRecursionContexts(parentContext.a)
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self.state = parentContext[1]
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else:
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self.exitRule()
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ruleTransition = self.atn.states[self.state].transitions[0]
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self.state = ruleTransition.followState.stateNumber
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