refactored sync/recoverInLine. figured out exactly what sync does at start of alt. setState goes to loopBack now in loops

[git-p4: depot-paths = "//depot/code/antlr4/main/": change = 9177]
This commit is contained in:
parrt 2011-10-23 11:07:07 -08:00
parent 4920bb2c9e
commit 11b61d979d
17 changed files with 255 additions and 101 deletions

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@ -190,7 +190,7 @@ public abstract class BaseRecognizer extends Recognizer<ParserATNSimulator> {
* If the parser is creating parse trees, the current symbol
* would also be added as a child to the current context (node).
*/
protected Object consume() {
public Object consume() {
Object o = getCurrentInputSymbol();
getInputStream().consume();
if ( buildParseTrees ) {
@ -227,6 +227,10 @@ public abstract class BaseRecognizer extends Recognizer<ParserATNSimulator> {
return null;
}
public ParserRuleContext getContext() {
return _ctx;
}
public boolean inContext(String context) {
// TODO: useful in parser?
return false;

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@ -129,27 +129,52 @@ public class DefaultANTLRErrorStrategy implements ANTLRErrorStrategy {
/** Make sure that the current lookahead symbol is consistent with
* what were expecting at this point in the ATN.
* sync() differs fundamentally from the recoverInline() method.
* In this case, we throw out a token that's not in the set of what
* were expecting at this point. recoverInline() only deletes this
* token if LT(2) (token after the current token) is what were expecting;
* i.e., we have an extra token sitting on the input stream. sync()
* simply consumes until it finds something that can start whatever
* follows the call to sync().
*
* At the start of a sub rule upon error, sync() performs single
* token deletion, if possible. If it can't do that, it bails
* on the current rule and uses the default error recovery,
* which consumes until the resynchronization set of the current rule.
*
* If the sub rule is optional, ()? or ()* or optional alternative,
* then the expected set includes what follows the subrule.
*
* During loop iteration, it consumes until it sees a token that can
* start a sub rule or what follows loop. Yes, that is pretty aggressive.
* We opt to stay in the loop as long as possible.
*/
@Override
public void sync(BaseRecognizer recognizer) {
ATNState s = recognizer._interp.atn.states.get(recognizer._ctx.s);
// System.err.println("sync @ "+s.stateNumber+"="+s.getClass().getSimpleName());
// If already recovering, don't try to sync
if ( errorRecoveryMode ) return;
// TODO: CACHE THESE RESULTS!!
IntervalSet expecting = getExpectedTokens(recognizer);
// System.err.println("sync expecting: "+expecting);
// TODO: subclass this class for treeparsers
TokenStream tokens = (TokenStream)recognizer.getInputStream();
Token la = tokens.LT(1);
// Return but don't end recovery. only do that upon valid token match
if ( la.getType()==Token.EOF || expecting.contains(la.getType()) ) return;
reportUnwantedToken(recognizer);
consumeUntil(recognizer, expecting);
if ( s instanceof PlusBlockStartState ||
s instanceof StarLoopEntryState ||
s instanceof BlockStartState )
{
// report error and recover if possible
if ( singleTokenDeletion(recognizer)!=null ) return;
throw new InputMismatchException(recognizer);
}
if ( s instanceof PlusLoopbackState ||
s instanceof StarLoopbackState )
{
// System.err.println("at loop back: "+s.getClass().getSimpleName());
reportUnwantedToken(recognizer);
consumeUntil(recognizer, expecting);
}
// do nothing if we can identify the exact kind of ATN state
}
public void reportNoViableAlternative(BaseRecognizer recognizer,
@ -241,10 +266,55 @@ public class DefaultANTLRErrorStrategy implements ANTLRErrorStrategy {
public Object recoverInline(BaseRecognizer recognizer)
throws RecognitionException
{
Object currentSymbol = recognizer.getCurrentInputSymbol();
// SINGLE TOKEN DELETION
// if next token is what we are looking for then "delete" this token
// int nextTokenType = recognizer.getInputStream().LA(2);
// IntervalSet expecting = getExpectedTokens(recognizer);
// if ( expecting.contains(nextTokenType) ) {
// reportUnwantedToken(recognizer);
// /*
// System.err.println("recoverFromMismatchedToken deleting "+
// ((TokenStream)recognizer.getInputStream()).LT(1)+
// " since "+((TokenStream)recognizer.getInputStream()).LT(2)+
// " is what we want");
// */
// recognizer.consume(); // simply delete extra token
// // we want to return the token we're actually matching
// Object matchedSymbol = recognizer.getCurrentInputSymbol();
// endErrorCondition(recognizer); // we know next token is correct
// recognizer.consume(); // move past ttype token as if all were ok
// return matchedSymbol;
// }
// SINGLE TOKEN DELETION
Object matchedSymbol = singleTokenDeletion(recognizer);
if ( matchedSymbol!=null ) return matchedSymbol;
// SINGLE TOKEN INSERTION
if ( singleTokenInsertion(recognizer) ) {
return getMissingSymbol(recognizer);
}
// even that didn't work; must throw the exception
throw new InputMismatchException(recognizer);
}
// if next token is what we are looking for then "delete" this token
public boolean singleTokenInsertion(BaseRecognizer recognizer) {
Object currentSymbol = recognizer.getCurrentInputSymbol();
// if current token is consistent with what could come after current
// ATN state, then we know we're missing a token; error recovery
// is free to conjure up and insert the missing token
ATNState currentState = recognizer._interp.atn.states.get(recognizer._ctx.s);
ATNState next = currentState.transition(0).target;
IntervalSet expectingAtLL2 = recognizer._interp.atn.nextTokens(next, recognizer._ctx);
// System.out.println("LT(2) set="+expectingAtLL2.toString(recognizer.getTokenNames()));
if ( expectingAtLL2.contains(((Token)currentSymbol).getType()) ) {
reportMissingToken(recognizer);
return true;
}
return false;
}
public Object singleTokenDeletion(BaseRecognizer recognizer) {
int nextTokenType = recognizer.getInputStream().LA(2);
IntervalSet expecting = getExpectedTokens(recognizer);
if ( expecting.contains(nextTokenType) ) {
@ -256,29 +326,13 @@ public class DefaultANTLRErrorStrategy implements ANTLRErrorStrategy {
" is what we want");
*/
recognizer.consume(); // simply delete extra token
// recognizer.getInputStream().consume(); // simply delete extra token
// we want to return the token we're actually matching
Object matchedSymbol = recognizer.getCurrentInputSymbol();
endErrorCondition(recognizer); // we know next token is correct
recognizer.consume(); // move past ttype token as if all were ok
// recognizer.getInputStream().consume(); // move past ttype token as if all were ok
return matchedSymbol;
}
// SINGLE TOKEN INSERTION
// if current token is consistent with what could come after current
// ATN state, then we know we're missing a token; error recovery
// is free to conjure up and insert the missing token
ATNState currentState = recognizer._interp.atn.states.get(recognizer._ctx.s);
ATNState next = currentState.transition(0).target;
IntervalSet expectingAtLL2 = recognizer._interp.atn.nextTokens(next, recognizer._ctx);
// System.out.println("LT(2) set="+expectingAtLL2.toString(recognizer.getTokenNames()));
if ( expectingAtLL2.contains(((Token)currentSymbol).getType()) ) {
reportMissingToken(recognizer);
return getMissingSymbol(recognizer);
}
// even that didn't work; must throw the exception
throw new InputMismatchException(recognizer);
return null;
}
/** Conjure up a missing token during error recovery.
@ -461,7 +515,7 @@ public class DefaultANTLRErrorStrategy implements ANTLRErrorStrategy {
/** Consume tokens until one matches the given token set */
public void consumeUntil(BaseRecognizer recognizer, IntervalSet set) {
// System.out.println("consumeUntil("+set.toString(recognizer.getTokenNames())+")");
// System.err.println("consumeUntil("+set.toString(recognizer.getTokenNames())+")");
int ttype = recognizer.getInputStream().LA(1);
while (ttype != Token.EOF && !set.contains(ttype) ) {
//System.out.println("consume during recover LA(1)="+getTokenNames()[input.LA(1)]);

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@ -35,6 +35,14 @@ public class ATNState {
public static final int INITIAL_NUM_TRANSITIONS = 4;
// constants for serialization
// public static enum ATNStateType {
// BASIC(1), RULE_START(2), BLOCK_START(3), PLUS_BLOCK_START(4),
// STAR_BLOCK_START(5), TOKEN_START(6), RULE_STOP(7), BLOCK_END(8),
// STAR_LOOP_BACK(9), STAR_LOOP_ENTRY(10), PLUS_LOOP_BACK(11);
// public int type;
// ATNStateType(int type) { this.type = type; }
// public int intValue() { return type; }
// }
public static final int BASIC = 1;
public static final int RULE_START = 2;
public static final int BLOCK_START = 3;
@ -83,6 +91,8 @@ public class ATNState {
public int ruleIndex; // at runtime, we don't have Rule objects
public int epsilonOnlyTransitions = -1;
/** Which ATN are we in? */
public ATN atn = null;
@ -123,7 +133,9 @@ public class ATNState {
transitions.set(i, e);
}
protected int epsilonOnlyTransitions = -1;
public int getStateType() {
return serializationTypes.get(this.getClass());
}
//lexer atn sim: getEpTar: 13.2%
// ruleCtx.equals 10%

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@ -30,6 +30,7 @@
package org.antlr.v4.runtime.atn;
public class StarLoopEntryState extends DecisionState {
public StarLoopbackState loopBackState;
@Override
public boolean onlyHasEpsilonTransitions() { return true; }
}

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@ -70,26 +70,26 @@ public class PostScriptDocument {
ps.append("%!PS-Adobe-3.0 EPSF-3.0\n");
ps.append("%%BoundingBox: (atend)\n");
lineWidth(0.3);
ps.append("%\n");
ps.append("% x y rarrow\n");
ps.append("%\n");
ps.append("/rarrow {\n");
ps.append(" moveto\n");
ps.append(" -3 +2 rlineto\n");
ps.append(" 0 -4 rlineto\n");
ps.append(" 3 +2 rlineto\n");
ps.append(" fill\n");
ps.append("} def\n");
ps.append("%\n");
ps.append("% x y darrow\n");
ps.append("%\n");
ps.append("/darrow {\n");
ps.append(" moveto\n");
ps.append(" -2 +3 rlineto\n");
ps.append(" 4 0 rlineto\n");
ps.append(" -2 -3 rlineto\n");
ps.append(" fill\n");
ps.append("} def\n");
// ps.append("%\n");
// ps.append("% x y rarrow\n");
// ps.append("%\n");
// ps.append("/rarrow {\n");
// ps.append(" moveto\n");
// ps.append(" -3 +2 rlineto\n");
// ps.append(" 0 -4 rlineto\n");
// ps.append(" 3 +2 rlineto\n");
// ps.append(" fill\n");
// ps.append("} def\n");
// ps.append("%\n");
// ps.append("% x y darrow\n");
// ps.append("%\n");
// ps.append("/darrow {\n");
// ps.append(" moveto\n");
// ps.append(" -2 +3 rlineto\n");
// ps.append(" 4 0 rlineto\n");
// ps.append(" -2 -3 rlineto\n");
// ps.append(" fill\n");
// ps.append("} def\n");
}
// Courier, Helvetica, Times, ... should be available
@ -144,6 +144,22 @@ public class PostScriptDocument {
}
public void text(String s, double x, double y) {
StringBuilder buf = new StringBuilder();
// escape \, (, ): \\, \(, \)
for (char c : s.toCharArray()) {
switch ( c ) {
case '\\' :
case '(' :
case ')' :
buf.append('\\');
buf.append(c);
break;
default :
buf.append(c);
break;
}
}
s = buf.toString();
move(x,y);
ps.append(String.format("(%s) show\n", s));
stroke();

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@ -1,6 +1,6 @@
/*
[The "BSD license"]
Copyright (c) 2011 Terence Parr
Copyright (c) 2011 T2rence Parr
All rights reserved.
Redistribution and use in source and binary forms, with or without
@ -36,6 +36,7 @@ import org.antlr.v4.runtime.tree.*;
import java.awt.*;
import java.awt.geom.Rectangle2D;
import java.io.IOException;
public class TreePostScriptGenerator {
public class VariableExtentProvide implements NodeExtentProvider<Tree> {
@ -48,16 +49,18 @@ public class TreePostScriptGenerator {
@Override
public double getHeight(Tree tree) {
String s = getText(tree);
double h = doc.getLineHeight() + nodeHeightPadding*2;
double h =
doc.getLineHeight() + nodeHeightPaddingAbove + nodeHeightPaddingBelow;
String[] lines = s.split("\n");
return h * lines.length;
}
}
protected double gapBetweenLevels = 30;
protected double gapBetweenNodes = 10;
protected double gapBetweenLevels = 10;
protected double gapBetweenNodes = 7;
protected int nodeWidthPadding = 1; // added to left/right
protected int nodeHeightPadding = 1; // added above/below
protected int nodeHeightPaddingAbove = 2;
protected int nodeHeightPaddingBelow = 5;
protected Tree root;
protected TreeTextProvider treeTextProvider;
@ -99,12 +102,12 @@ public class TreePostScriptGenerator {
protected void generateEdges(Tree parent) {
if (!getTree().isLeaf(parent)) {
Rectangle2D.Double parentBounds = getBoundsOfNode(parent);
System.out.println("%% parent("+getText(parent)+")="+parentBounds);
// System.out.println("%% parent("+getText(parent)+")="+parentBounds);
double x1 = parentBounds.getCenterX();
double y1 = parentBounds.y;
for (Tree child : getChildren(parent)) {
Rectangle2D.Double childBounds = getBoundsOfNode(child);
System.out.println("%% child("+getText(child)+")="+childBounds);
// System.out.println("%% child("+getText(child)+")="+childBounds);
double x2 = childBounds.getCenterX();
double y2 = childBounds.getMaxY();
doc.line(x1, y1, x2, y2);
@ -120,7 +123,7 @@ public class TreePostScriptGenerator {
// for debugging, turn this on to see boundingbox of nodes
// doc.rect(box.x, box.y, box.width, box.height);
double x = box.x+nodeWidthPadding;
double y = box.y+nodeHeightPadding;
double y = box.y+nodeHeightPaddingBelow;
for (int i = 0; i < lines.length; i++) {
doc.text(lines[i], x, y);
y += doc.getFontSize();
@ -151,19 +154,36 @@ public class TreePostScriptGenerator {
this.treeTextProvider = treeTextProvider;
}
public static void main(String[] args) {
CommonAST t = new CommonAST(new CommonToken(1, "+"));
CommonAST a = new CommonAST(new CommonToken(1, "expression"));
CommonAST f = new CommonAST(new CommonToken(1, "3000"));
CommonAST b = new CommonAST(new CommonToken(1, "*"));
CommonAST c = new CommonAST(new CommonToken(1, "42"));
CommonAST d = new CommonAST(new CommonToken(1, "105"));
t.addChild(a);
a.addChild(f);
t.addChild(b);
b.addChild(c);
b.addChild(d);
TreePostScriptGenerator psgen = new TreePostScriptGenerator(null, t, "CourierNew", 11);
System.out.println(psgen.getPS());
public static void main(String[] args) throws IOException {
CommonAST t = new CommonAST(new CommonToken(1, "s"));
CommonAST ifstat = new CommonAST(new CommonToken(1, "ifstat"));
CommonAST iff = new CommonAST(new CommonToken(1, "if"));
CommonAST b = new CommonAST(new CommonToken(1, "("));
CommonAST c = new CommonAST(new CommonToken(1, "expr"));
CommonAST d = new CommonAST(new CommonToken(1, ")"));
CommonAST e = new CommonAST(new CommonToken(1, "assign"));
CommonAST f = new CommonAST(new CommonToken(1, "34"));
CommonAST g = new CommonAST(new CommonToken(1, "a"));
CommonAST h = new CommonAST(new CommonToken(1, "="));
CommonAST i = new CommonAST(new CommonToken(1, "expr"));
CommonAST j = new CommonAST(new CommonToken(1, ";"));
CommonAST k = new CommonAST(new CommonToken(1, "b"));
t.addChild(ifstat);
ifstat.addChild(iff);
ifstat.addChild(b);
ifstat.addChild(c);
ifstat.addChild(d);
ifstat.addChild(e);
c.addChild(f);
e.addChild(g);
e.addChild(h);
e.addChild(i);
e.addChild(j);
i.addChild(k);
Trees.writePS(t, null,
"/Users/parrt/antlr/code/antlr4/main/tool/playground/t.eps",
"Arial", 11);
// TreePostScriptGenerator psgen = new TreePostScriptGenerator(null, t, "CourierNew", 11);
// System.out.println(psgen.getPS());
}
}

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@ -82,10 +82,10 @@ public class TreeViewer extends JComponent {
protected int fontSize = 12;
protected Font font = new Font(fontName, fontStyle, fontSize);
protected double gapBetweenLevels = 30;
protected double gapBetweenNodes = 10;
protected double gapBetweenLevels = 12;
protected double gapBetweenNodes = 7;
protected int nodeWidthPadding = 2; // added to left/right
protected int nodeHeightPadding = 1; // added above/below
protected int nodeHeightPadding = 4; // added above/below
protected int arcSize = 0; // make an arc in node outline?
protected Color boxColor = Color.white;

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@ -265,7 +265,7 @@ while (true) {
<cases(choice.exitLook)>
break <choice.loopLabel>;
}
setState(<choice.stateNumber>);
setState(<choice.loopBackStateNumber>);
_errHandler.sync(this);
}
>>
@ -276,7 +276,7 @@ _errHandler.sync(this);
<preamble; separator="\n">
while ( <loopExpr> ) {
<alts; separator="\n">
setState(<choice.stateNumber>);
setState(<choice.loopBackStateNumber>);
_errHandler.sync(this);
<iteration>
}
@ -350,7 +350,7 @@ case <i>:
<alt>
break;}; separator="\n">
}
setState(<choice.stateNumber>);
setState(<choice.loopBackStateNumber>);
_errHandler.sync(this);
_alt<choice.uniqueID> = _interp.adaptivePredict(_input,<choice.decision>,_ctx);
}

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@ -79,7 +79,7 @@ public class ATNSerializer {
int nedges = 0;
// dump states, count edges and collect sets while doing so
for (ATNState s : atn.states) {
data.add(ATNState.serializationTypes.get(s.getClass()));
data.add(s.getStateType());
data.add(s.ruleIndex);
nedges += s.getNumberOfTransitions();
for (int i=0; i<s.getNumberOfTransitions(); i++) {

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@ -30,26 +30,18 @@
package org.antlr.v4.automata;
import org.antlr.runtime.RecognitionException;
import org.antlr.runtime.Token;
import org.antlr.runtime.tree.CommonTreeNodeStream;
import org.antlr.runtime.tree.Tree;
import org.antlr.runtime.*;
import org.antlr.runtime.tree.*;
import org.antlr.v4.misc.CharSupport;
import org.antlr.v4.parse.ANTLRParser;
import org.antlr.v4.parse.ATNBuilder;
import org.antlr.v4.parse.GrammarASTAdaptor;
import org.antlr.v4.parse.*;
import org.antlr.v4.runtime.atn.*;
import org.antlr.v4.runtime.misc.IntervalSet;
import org.antlr.v4.semantics.UseDefAnalyzer;
import org.antlr.v4.tool.ErrorManager;
import org.antlr.v4.tool.ErrorType;
import org.antlr.v4.tool.Grammar;
import org.antlr.v4.tool.Rule;
import org.antlr.v4.tool.*;
import org.antlr.v4.tool.ast.*;
import java.lang.reflect.Constructor;
import java.util.Collection;
import java.util.List;
import java.util.*;
/** ATN construction routines triggered by ATNBuilder.g.
*
@ -364,9 +356,9 @@ public class ParserATNFactory implements ATNFactory {
PlusLoopbackState loop = (PlusLoopbackState)newState(PlusLoopbackState.class, plusAST);
atn.defineDecisionState(loop);
ATNState end = newState(ATNState.class, plusAST);
blkStart.loopBackState = loop;
plusAST.atnState = blkStart;
blkStart.loopBackState = loop;
epsilon(blkEnd, loop); // blk can see loop back
BlockAST blkAST = (BlockAST)plusAST.getChild(0);
@ -404,6 +396,7 @@ public class ParserATNFactory implements ATNFactory {
atn.defineDecisionState(entry);
ATNState end = newState(ATNState.class, starAST);
StarLoopbackState loop = (StarLoopbackState)newState(StarLoopbackState.class, starAST);
entry.loopBackState = loop;
BlockAST blkAST = (BlockAST)starAST.getChild(0);
entry.isGreedy = isGreedy(blkAST);

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@ -33,8 +33,7 @@ import org.antlr.v4.codegen.OutputModelFactory;
import org.antlr.v4.runtime.misc.IntervalSet;
import org.antlr.v4.tool.ast.GrammarAST;
import java.util.ArrayList;
import java.util.List;
import java.util.*;
/** */
public abstract class LL1Loop extends Choice {
@ -42,6 +41,7 @@ public abstract class LL1Loop extends Choice {
* is super.stateNumber
*/
public int blockStartStateNumber;
public int loopBackStateNumber;
@ModelElement public OutputModelObject loopExpr;
@ModelElement public List<SrcOp> iteration;

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@ -50,6 +50,8 @@ public class LL1StarBlock extends LL1Loop {
blockStartStateNumber =
starRootAST.atnState.transition(0).target.stateNumber;
loopBackStateNumber = star.loopBackState.stateNumber;
this.decision = star.decision;
/** Lookahead for each alt 1..n */

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@ -41,8 +41,8 @@ public class LL1StarBlockSingleAlt extends LL1Loop {
public LL1StarBlockSingleAlt(OutputModelFactory factory, GrammarAST starRoot, List<CodeBlockForAlt> alts) {
super(factory, starRoot, alts);
// StarBlockStartState star = (StarBlockStartState)starRoot.atnState;
StarLoopEntryState star = (StarLoopEntryState)starRoot.atnState;
loopBackStateNumber = star.loopBackState.stateNumber;
this.decision = star.decision;
IntervalSet[] altLookSets = factory.getGrammar().decisionLOOK.get(decision);
IntervalSet enterLook = altLookSets[1];

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@ -35,6 +35,7 @@ import org.antlr.v4.tool.ast.GrammarAST;
import java.util.List;
public class Loop extends Choice {
public int loopBackStateNumber;
public int exitAlt;
public Loop(OutputModelFactory factory,
GrammarAST blkOrEbnfRootAST,

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@ -30,8 +30,7 @@
package org.antlr.v4.codegen.model;
import org.antlr.v4.codegen.OutputModelFactory;
import org.antlr.v4.runtime.atn.PlusBlockStartState;
import org.antlr.v4.runtime.atn.PlusLoopbackState;
import org.antlr.v4.runtime.atn.*;
import org.antlr.v4.tool.ast.GrammarAST;
import java.util.List;
@ -45,6 +44,7 @@ public class PlusBlock extends Loop {
{
super(factory, ebnfRootAST, alts);
PlusLoopbackState loop = ((PlusBlockStartState)ebnfRootAST.atnState).loopBackState;
loopBackStateNumber = loop.stateNumber;
stateNumber = loop.stateNumber;
this.error = new ThrowNoViableAlt(factory, ebnfRootAST, null);
decision = loop.decision;

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@ -45,6 +45,7 @@ public class StarBlock extends Loop {
super(factory, blkOrEbnfRootAST, alts);
loopLabel = factory.getGenerator().target.getLoopLabel(blkOrEbnfRootAST);
StarLoopEntryState star = (StarLoopEntryState)blkOrEbnfRootAST.atnState;
loopBackStateNumber = star.loopBackState.stateNumber;
decision = star.decision;
exitAlt = alts.size()+1;
}

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@ -151,11 +151,14 @@ public class TestParseErrors extends BaseTest {
}
@Test public void testMultiTokenDeletionBeforeLoop() throws Exception {
// can only delete 1 before loop
String grammar =
"grammar T;\n" +
"a : 'a' 'b'* 'c';";
String found = execParser("T.g", grammar, "TParser", "TLexer", "a", "aacabc", false);
String expecting = "line 1:1 extraneous input 'a' expecting {'b', 'c'}\n";
String expecting =
"line 1:1 extraneous input 'a' expecting {'b', 'c'}\n" +
"line 1:3 mismatched input 'a' expecting 'c'\n";
String result = stderrDuringParse;
assertEquals(expecting, result);
}
@ -182,6 +185,53 @@ public class TestParseErrors extends BaseTest {
assertEquals(expecting, result);
}
// ------
@Test public void testSingleTokenDeletionBeforeLoop2() throws Exception {
String grammar =
"grammar T;\n" +
"a : 'a' ('b'|'z'{;})*;";
String found = execParser("T.g", grammar, "TParser", "TLexer", "a", "aabc", false);
String expecting = "line 1:1 extraneous input 'a' expecting {<EOF>, 'b', 'z'}\n";
String result = stderrDuringParse;
assertEquals(expecting, result);
}
@Test public void testMultiTokenDeletionBeforeLoop2() throws Exception {
// can only delete 1 before loop
String grammar =
"grammar T;\n" +
"a : 'a' ('b'|'z'{;})* 'c';";
String found = execParser("T.g", grammar, "TParser", "TLexer", "a", "aacabc", false);
String expecting =
"line 1:1 extraneous input 'a' expecting {'b', 'z', 'c'}\n" +
"line 1:3 mismatched input 'a' expecting 'c'\n";
String result = stderrDuringParse;
assertEquals(expecting, result);
}
@Test public void testSingleTokenDeletionDuringLoop2() throws Exception {
String grammar =
"grammar T;\n" +
"a : 'a' ('b'|'z'{;})* 'c' ;";
String found = execParser("T.g", grammar, "TParser", "TLexer", "a", "ababbc", false);
String expecting = "line 1:2 extraneous input 'a' expecting {'b', 'z', 'c'}\n";
String result = stderrDuringParse;
assertEquals(expecting, result);
}
@Test public void testMultiTokenDeletionDuringLoop2() throws Exception {
String grammar =
"grammar T;\n" +
"a : 'a' ('b'|'z'{;})* 'c' ;";
String found = execParser("T.g", grammar, "TParser", "TLexer", "a", "abaaababc", false);
String expecting =
"line 1:2 extraneous input 'a' expecting {'b', 'z', 'c'}\n" +
"line 1:6 extraneous input 'a' expecting {'b', 'z', 'c'}\n";
String result = stderrDuringParse;
assertEquals(expecting, result);
}
@Test public void testLL1ErrorInfo() throws Exception {
String grammar =
"grammar T;\n" +