mirror of
https://github.com/ceph/ceph-csi.git
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5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
219 lines
7.4 KiB
Go
219 lines
7.4 KiB
Go
// Copyright (c) 2012-2022 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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package antlr
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type LL1Analyzer struct {
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atn *ATN
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}
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func NewLL1Analyzer(atn *ATN) *LL1Analyzer {
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la := new(LL1Analyzer)
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la.atn = atn
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return la
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}
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const (
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// LL1AnalyzerHitPred is a special value added to the lookahead sets to indicate that we hit
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// a predicate during analysis if
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//
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// seeThruPreds==false
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LL1AnalyzerHitPred = TokenInvalidType
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)
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// *
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// Calculates the SLL(1) expected lookahead set for each outgoing transition
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// of an {@link ATNState}. The returned array has one element for each
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// outgoing transition in {@code s}. If the closure from transition
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// <em>i</em> leads to a semantic predicate before Matching a symbol, the
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// element at index <em>i</em> of the result will be {@code nil}.
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//
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// @param s the ATN state
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// @return the expected symbols for each outgoing transition of {@code s}.
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func (la *LL1Analyzer) getDecisionLookahead(s ATNState) []*IntervalSet {
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if s == nil {
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return nil
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}
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count := len(s.GetTransitions())
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look := make([]*IntervalSet, count)
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for alt := 0; alt < count; alt++ {
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look[alt] = NewIntervalSet()
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lookBusy := NewJStore[*ATNConfig, Comparator[*ATNConfig]](aConfEqInst, ClosureBusyCollection, "LL1Analyzer.getDecisionLookahead for lookBusy")
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la.look1(s.GetTransitions()[alt].getTarget(), nil, BasePredictionContextEMPTY, look[alt], lookBusy, NewBitSet(), false, false)
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// Wipe out lookahead for la alternative if we found nothing,
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// or we had a predicate when we !seeThruPreds
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if look[alt].length() == 0 || look[alt].contains(LL1AnalyzerHitPred) {
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look[alt] = nil
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}
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}
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return look
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}
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// Look computes the set of tokens that can follow s in the [ATN] in the
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// specified ctx.
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//
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// If ctx is nil and the end of the rule containing
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// s is reached, [EPSILON] is added to the result set.
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//
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// If ctx is not nil and the end of the outermost rule is
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// reached, [EOF] is added to the result set.
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//
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// Parameter s the ATN state, and stopState is the ATN state to stop at. This can be a
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// [BlockEndState] to detect epsilon paths through a closure.
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//
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// Parameter ctx is the complete parser context, or nil if the context
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// should be ignored
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//
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// The func returns the set of tokens that can follow s in the [ATN] in the
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// specified ctx.
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func (la *LL1Analyzer) Look(s, stopState ATNState, ctx RuleContext) *IntervalSet {
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r := NewIntervalSet()
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var lookContext *PredictionContext
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if ctx != nil {
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lookContext = predictionContextFromRuleContext(s.GetATN(), ctx)
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}
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la.look1(s, stopState, lookContext, r, NewJStore[*ATNConfig, Comparator[*ATNConfig]](aConfEqInst, ClosureBusyCollection, "LL1Analyzer.Look for la.look1()"),
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NewBitSet(), true, true)
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return r
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}
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//*
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// Compute set of tokens that can follow {@code s} in the ATN in the
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// specified {@code ctx}.
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//
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// <p>If {@code ctx} is {@code nil} and {@code stopState} or the end of the
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// rule containing {@code s} is reached, {@link Token//EPSILON} is added to
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// the result set. If {@code ctx} is not {@code nil} and {@code addEOF} is
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// {@code true} and {@code stopState} or the end of the outermost rule is
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// reached, {@link Token//EOF} is added to the result set.</p>
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//
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// @param s the ATN state.
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// @param stopState the ATN state to stop at. This can be a
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// {@link BlockEndState} to detect epsilon paths through a closure.
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// @param ctx The outer context, or {@code nil} if the outer context should
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// not be used.
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// @param look The result lookahead set.
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// @param lookBusy A set used for preventing epsilon closures in the ATN
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// from causing a stack overflow. Outside code should pass
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// {@code NewSet<ATNConfig>} for la argument.
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// @param calledRuleStack A set used for preventing left recursion in the
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// ATN from causing a stack overflow. Outside code should pass
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// {@code NewBitSet()} for la argument.
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// @param seeThruPreds {@code true} to true semantic predicates as
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// implicitly {@code true} and "see through them", otherwise {@code false}
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// to treat semantic predicates as opaque and add {@link //HitPred} to the
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// result if one is encountered.
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// @param addEOF Add {@link Token//EOF} to the result if the end of the
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// outermost context is reached. This parameter has no effect if {@code ctx}
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// is {@code nil}.
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func (la *LL1Analyzer) look2(_, stopState ATNState, ctx *PredictionContext, look *IntervalSet, lookBusy *JStore[*ATNConfig, Comparator[*ATNConfig]],
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calledRuleStack *BitSet, seeThruPreds, addEOF bool, i int) {
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returnState := la.atn.states[ctx.getReturnState(i)]
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la.look1(returnState, stopState, ctx.GetParent(i), look, lookBusy, calledRuleStack, seeThruPreds, addEOF)
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}
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func (la *LL1Analyzer) look1(s, stopState ATNState, ctx *PredictionContext, look *IntervalSet, lookBusy *JStore[*ATNConfig, Comparator[*ATNConfig]], calledRuleStack *BitSet, seeThruPreds, addEOF bool) {
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c := NewATNConfig6(s, 0, ctx)
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if lookBusy.Contains(c) {
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return
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}
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_, present := lookBusy.Put(c)
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if present {
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return
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}
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if s == stopState {
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if ctx == nil {
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look.addOne(TokenEpsilon)
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return
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} else if ctx.isEmpty() && addEOF {
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look.addOne(TokenEOF)
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return
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}
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}
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_, ok := s.(*RuleStopState)
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if ok {
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if ctx == nil {
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look.addOne(TokenEpsilon)
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return
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} else if ctx.isEmpty() && addEOF {
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look.addOne(TokenEOF)
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return
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}
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if ctx.pcType != PredictionContextEmpty {
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removed := calledRuleStack.contains(s.GetRuleIndex())
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defer func() {
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if removed {
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calledRuleStack.add(s.GetRuleIndex())
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}
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}()
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calledRuleStack.remove(s.GetRuleIndex())
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// run thru all possible stack tops in ctx
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for i := 0; i < ctx.length(); i++ {
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returnState := la.atn.states[ctx.getReturnState(i)]
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la.look2(returnState, stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF, i)
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}
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return
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}
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}
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n := len(s.GetTransitions())
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for i := 0; i < n; i++ {
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t := s.GetTransitions()[i]
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if t1, ok := t.(*RuleTransition); ok {
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if calledRuleStack.contains(t1.getTarget().GetRuleIndex()) {
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continue
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}
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newContext := SingletonBasePredictionContextCreate(ctx, t1.followState.GetStateNumber())
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la.look3(stopState, newContext, look, lookBusy, calledRuleStack, seeThruPreds, addEOF, t1)
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} else if t2, ok := t.(AbstractPredicateTransition); ok {
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if seeThruPreds {
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la.look1(t2.getTarget(), stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF)
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} else {
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look.addOne(LL1AnalyzerHitPred)
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}
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} else if t.getIsEpsilon() {
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la.look1(t.getTarget(), stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF)
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} else if _, ok := t.(*WildcardTransition); ok {
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look.addRange(TokenMinUserTokenType, la.atn.maxTokenType)
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} else {
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set := t.getLabel()
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if set != nil {
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if _, ok := t.(*NotSetTransition); ok {
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set = set.complement(TokenMinUserTokenType, la.atn.maxTokenType)
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}
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look.addSet(set)
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}
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}
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}
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}
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func (la *LL1Analyzer) look3(stopState ATNState, ctx *PredictionContext, look *IntervalSet, lookBusy *JStore[*ATNConfig, Comparator[*ATNConfig]],
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calledRuleStack *BitSet, seeThruPreds, addEOF bool, t1 *RuleTransition) {
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newContext := SingletonBasePredictionContextCreate(ctx, t1.followState.GetStateNumber())
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defer func() {
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calledRuleStack.remove(t1.getTarget().GetRuleIndex())
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}()
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calledRuleStack.add(t1.getTarget().GetRuleIndex())
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la.look1(t1.getTarget(), stopState, newContext, look, lookBusy, calledRuleStack, seeThruPreds, addEOF)
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}
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