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/*
* Copyright (c) 2012-2017 The ANTLR Project. All rights reserved.
* Use of this file is governed by the BSD 3-clause license that
* can be found in the LICENSE.txt file in the project root.
*/
package org.antlr.v4.analysis;
import org.antlr.v4.runtime.atn.ATN;
import org.antlr.v4.runtime.atn.ATNState;
import org.antlr.v4.runtime.atn.RuleStartState;
import org.antlr.v4.runtime.atn.RuleStopState;
import org.antlr.v4.runtime.atn.RuleTransition;
import org.antlr.v4.runtime.atn.Transition;
import org.antlr.v4.runtime.misc.OrderedHashSet;
import org.antlr.v4.tool.Grammar;
import org.antlr.v4.tool.Rule;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
public class LeftRecursionDetector {
Grammar g;
public ATN atn;
/** Holds a list of cycles (sets of rule names). */
public List> listOfRecursiveCycles = new ArrayList>();
/** Which rule start states have we visited while looking for a single
* left-recursion check?
*/
Set rulesVisitedPerRuleCheck = new HashSet();
public LeftRecursionDetector(Grammar g, ATN atn) {
this.g = g;
this.atn = atn;
}
public void check() {
for (RuleStartState start : atn.ruleToStartState) {
//System.out.print("check "+start.rule.name);
rulesVisitedPerRuleCheck.clear();
rulesVisitedPerRuleCheck.add(start);
//FASerializer ser = new FASerializer(atn.g, start);
//System.out.print(":\n"+ser+"\n");
check(g.getRule(start.ruleIndex), start, new HashSet());
}
//System.out.println("cycles="+listOfRecursiveCycles);
if ( !listOfRecursiveCycles.isEmpty() ) {
g.tool.errMgr.leftRecursionCycles(g.fileName, listOfRecursiveCycles);
}
}
/** From state s, look for any transition to a rule that is currently
* being traced. When tracing r, visitedPerRuleCheck has r
* initially. If you reach a rule stop state, return but notify the
* invoking rule that the called rule is nullable. This implies that
* invoking rule must look at follow transition for that invoking state.
*
* The visitedStates tracks visited states within a single rule so
* we can avoid epsilon-loop-induced infinite recursion here. Keep
* filling the cycles in listOfRecursiveCycles and also, as a
* side-effect, set leftRecursiveRules.
*/
public boolean check(Rule enclosingRule, ATNState s, Set visitedStates) {
if ( s instanceof RuleStopState) return true;
if ( visitedStates.contains(s) ) return false;
visitedStates.add(s);
//System.out.println("visit "+s);
int n = s.getNumberOfTransitions();
boolean stateReachesStopState = false;
for (int i=0; i());
// we're back from visiting that rule
rulesVisitedPerRuleCheck.remove((RuleStartState)t.target);
if ( nullable ) {
stateReachesStopState |= check(enclosingRule, rt.followState, visitedStates);
}
}
}
else if ( t.isEpsilon() ) {
stateReachesStopState |= check(enclosingRule, t.target, visitedStates);
}
// else ignore non-epsilon transitions
}
return stateReachesStopState;
}
/** enclosingRule calls targetRule. Find the cycle containing
* the target and add the caller. Find the cycle containing the caller
* and add the target. If no cycles contain either, then create a new
* cycle.
*/
protected void addRulesToCycle(Rule enclosingRule, Rule targetRule) {
//System.err.println("left-recursion to "+targetRule.name+" from "+enclosingRule.name);
boolean foundCycle = false;
for (Set rulesInCycle : listOfRecursiveCycles) {
// ensure both rules are in same cycle
if (rulesInCycle.contains(targetRule)) {
rulesInCycle.add(enclosingRule);
foundCycle = true;
}
if (rulesInCycle.contains(enclosingRule)) {
rulesInCycle.add(targetRule);
foundCycle = true;
}
}
if ( !foundCycle ) {
Set cycle = new OrderedHashSet();
cycle.add(targetRule);
cycle.add(enclosingRule);
listOfRecursiveCycles.add(cycle);
}
}
}
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