C# (CSharp) Antlr3.Tool Grammar.BuildNFA Beispiele

BuildNFA() public method

public BuildNFA ( ) : void
return	void

Beispiel #1

Datei: TestCharDFAConversion.cs Projekt: JSchofield/antlrcs

        //throws Exception
        protected void checkDecision( Grammar g,
                                     int decision,
                                     string expecting,
                                     int[] expectingUnreachableAlts )
        {
            Antlr3.AntlrTool tool = new Antlr3.AntlrTool();
            // mimic actions of org.antlr.Tool first time for grammar g
            if ( g.CodeGenerator == null )
            {
                CodeGenerator generator = new CodeGenerator( tool, g, "Java" );
                g.CodeGenerator = generator;
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }

            DFA dfa = g.GetLookaheadDFA( decision );
            Assert.IsNotNull(dfa, "unknown decision #" + decision);
            FASerializer serializer = new FASerializer( g );
            string result = serializer.Serialize( dfa.StartState );
            //System.out.print(result);
            var nonDetAlts = dfa.UnreachableAlts;
            //System.out.println("alts w/o predict state="+nonDetAlts);

            // first make sure nondeterministic alts are as expected
            if ( expectingUnreachableAlts == null )
            {
                if ( nonDetAlts != null && nonDetAlts.Count != 0 )
                {
                    Console.Error.WriteLine( "nondeterministic alts (should be empty): " + ( (IList)nonDetAlts ).ToElementString() );
                }
                Assert.AreEqual(0, nonDetAlts != null ? nonDetAlts.Count : 0, "unreachable alts mismatch");
            }
            else
            {
                for ( int i = 0; i < expectingUnreachableAlts.Length; i++ )
                {
                    Assert.IsTrue(nonDetAlts != null ? nonDetAlts.Contains(expectingUnreachableAlts[i]) : false, "unreachable alts mismatch");
                }
            }
            Assert.AreEqual( expecting, result );
        }

Beispiel #2

Datei: TestSemanticPredicates.cs Projekt: JSchofield/antlrcs

        public void TestPredsUsedAfterRecursionOverflow()
        {
            // analysis must bail out due to non-LL(*) nature (ovf)
            // retries with k=1 (but with LL(*) algorithm not optimized version
            // as it has preds)
            Grammar g = new Grammar(
                "parser grammar P;\n" +
                "s : {p1}? e '.' | {p2}? e ':' ;\n" +
                "e : '(' e ')' | INT ;\n" );
            string expecting =
                ".s0-'('->.s1" + NewLine +
                ".s0-INT->.s4" + NewLine +
                ".s1-{p1}?->:s2=>1" + NewLine +
                ".s1-{p2}?->:s3=>2" + NewLine +
                ".s4-{p1}?->:s2=>1" + NewLine +
                ".s4-{p2}?->:s3=>2" + NewLine;
            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );
            CodeGenerator generator = new CodeGenerator( newTool(), g, "Java" );
            g.CodeGenerator = generator;
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }

            Assert.AreEqual(0, equeue.size(), "unexpected number of expected problems");
            checkDecision( g, 1, expecting, null, null, null, null, null, 0, false );
        }

Beispiel #3

Datei: TestSemanticPredicates.cs Projekt: JSchofield/antlrcs

        //throws Exception
        protected void checkDecision( Grammar g,
                                     int decision,
                                     string expecting,
                                     int[] expectingUnreachableAlts,
                                     int[] expectingNonDetAlts,
                                     string expectingAmbigInput,
                                     int[] expectingInsufficientPredAlts,
                                     int[] expectingDanglingAlts,
                                     int expectingNumWarnings,
                                     bool hasPredHiddenByAction )
        {
            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );
            CodeGenerator generator = new CodeGenerator( newTool(), g, "Java" );
            g.CodeGenerator = generator;
            // mimic actions of org.antlr.Tool first time for grammar g
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }

            if ( equeue.size() != expectingNumWarnings )
            {
                Console.Error.WriteLine( "Warnings issued: " + equeue );
            }

            Assert.AreEqual(expectingNumWarnings, equeue.size(), "unexpected number of expected problems");

            DFA dfa = g.GetLookaheadDFA( decision );
            FASerializer serializer = new FASerializer( g );
            string result = serializer.Serialize( dfa.StartState );
            //System.out.print(result);
            var unreachableAlts = dfa.UnreachableAlts;

            // make sure unreachable alts are as expected
            if ( expectingUnreachableAlts != null )
            {
                BitSet s = new BitSet();
                s.AddAll( expectingUnreachableAlts );
                BitSet s2 = new BitSet();
                s2.AddAll( unreachableAlts );
                Assert.AreEqual(s, s2, "unreachable alts mismatch");
            }
            else
            {
                Assert.AreEqual(0, unreachableAlts != null ? unreachableAlts.Count : 0, "unreachable alts mismatch");
            }

            // check conflicting input
            if ( expectingAmbigInput != null )
            {
                // first, find nondet message
                Message msg = getNonDeterminismMessage( equeue.warnings );
                Assert.IsNotNull(msg, "no nondeterminism warning?");
                Assert.IsTrue(msg is GrammarNonDeterminismMessage, "expecting nondeterminism; found " + msg.GetType().Name);
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                var labels =
                    nondetMsg.probe.GetSampleNonDeterministicInputSequence( nondetMsg.problemState );
                string input = nondetMsg.probe.GetInputSequenceDisplay( labels );
                Assert.AreEqual( expectingAmbigInput, input );
            }

            // check nondet alts
            if ( expectingNonDetAlts != null )
            {
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                Assert.IsNotNull(nondetMsg, "found no nondet alts; expecting: " + str(expectingNonDetAlts));
                var nonDetAlts =
                    nondetMsg.probe.GetNonDeterministicAltsForState( nondetMsg.problemState );
                // compare nonDetAlts with expectingNonDetAlts
                BitSet s = new BitSet();
                s.AddAll( expectingNonDetAlts );
                BitSet s2 = new BitSet();
                s2.AddAll( nonDetAlts );
                Assert.AreEqual(s, s2, "nondet alts mismatch");
                Assert.AreEqual(hasPredHiddenByAction, nondetMsg.problemState.Dfa.HasPredicateBlockedByAction, "mismatch between expected hasPredHiddenByAction");
            }
            else
            {
                // not expecting any nondet alts, make sure there are none
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                Assert.IsNull(nondetMsg, "found nondet alts, but expecting none");
            }

            if ( expectingInsufficientPredAlts != null )
            {
                GrammarInsufficientPredicatesMessage insuffPredMsg =
                    getGrammarInsufficientPredicatesMessage( equeue.warnings );
                Assert.IsNotNull(insuffPredMsg, "found no GrammarInsufficientPredicatesMessage alts; expecting: " + str(expectingNonDetAlts));
                var locations = insuffPredMsg.altToLocations;
                var actualAlts = locations.Keys;
                BitSet s = new BitSet();
                s.AddAll( expectingInsufficientPredAlts );
                BitSet s2 = new BitSet();
                s2.AddAll( actualAlts );
                Assert.AreEqual(s, s2, "mismatch between insufficiently covered alts");
                Assert.AreEqual(hasPredHiddenByAction, insuffPredMsg.problemState.Dfa.HasPredicateBlockedByAction, "mismatch between expected hasPredHiddenByAction");
            }
            else
            {
                // not expecting any nondet alts, make sure there are none
                GrammarInsufficientPredicatesMessage nondetMsg =
                    getGrammarInsufficientPredicatesMessage( equeue.warnings );
                if ( nondetMsg != null )
                {
                    Console.Out.WriteLine( equeue.warnings );
                }
                Assert.IsNull(nondetMsg, "found insufficiently covered alts, but expecting none");
            }

            Assert.AreEqual( expecting, result );
        }

Beispiel #4

Datei: TestSemanticPredicates.cs Projekt: JSchofield/antlrcs

        public void TestLeftRecursivePred()
        {
            // No analysis possible. but probably good to fail.  Not sure we really want
            // left-recursion even if guarded with pred.
            Grammar g = new Grammar(
                "parser grammar P;\n" +
                "s : a ;\n" +
                "a : {p1}? a | ID ;\n" );

            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );
            CodeGenerator generator = new CodeGenerator( newTool(), g, "Java" );
            g.CodeGenerator = generator;
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }

            DFA dfa = g.GetLookaheadDFA( 1 );
            Assert.AreEqual( null, dfa ); // can't analyze.

            /*
            String expecting =
                ".s0-ID->.s1" + NewLine +
                ".s1-{p1}?->:s2=>1" + NewLine +
                ".s1-{true}?->:s3=>2" + NewLine;
            String result = serializer.serialize(dfa.startState);
            Assert.AreEqual(expecting, result);
            */

            Assert.AreEqual(1, equeue.size(), "unexpected number of expected problems");
            Message msg = equeue.errors[0];
            Assert.IsTrue(msg is LeftRecursionCyclesMessage, "warning must be a left recursion msg");
        }

Beispiel #5

Datei: TestDFAConversion.cs Projekt: JSchofield/antlrcs

        //throws Exception
        protected void checkDecision( Grammar g,
                                     int decision,
                                     string expecting,
                                     int[] expectingUnreachableAlts,
                                     int[] expectingNonDetAlts,
                                     string expectingAmbigInput,
                                     int[] expectingDanglingAlts,
                                     int expectingNumWarnings )
        {
            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );

            // mimic actions of org.antlr.Tool first time for grammar g
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }
            CodeGenerator generator = new CodeGenerator( newTool(), g, "Java" );
            g.CodeGenerator = generator;

            if ( equeue.size() != expectingNumWarnings )
            {
                Console.Error.WriteLine( "Warnings issued: " + equeue );
            }

            Assert.AreEqual(expectingNumWarnings, equeue.size(), "unexpected number of expected problems");

            DFA dfa = g.GetLookaheadDFA( decision );
            Assert.IsNotNull( dfa, "no DFA for decision " + decision );
            FASerializer serializer = new FASerializer( g );
            string result = serializer.Serialize( dfa.StartState );

            var unreachableAlts = dfa.UnreachableAlts;

            // make sure unreachable alts are as expected
            if ( expectingUnreachableAlts != null )
            {
                BitSet s = new BitSet();
                s.AddAll( expectingUnreachableAlts );
                BitSet s2 = new BitSet();
                s2.AddAll( unreachableAlts );
                Assert.AreEqual(s, s2, "unreachable alts mismatch");
            }
            else
            {
                Assert.AreEqual(0, unreachableAlts != null ? unreachableAlts.Count : 0, "number of unreachable alts");
            }

            // check conflicting input
            if ( expectingAmbigInput != null )
            {
                // first, find nondet message
                Message msg = (Message)equeue.warnings[0];
                Assert.IsTrue(msg is GrammarNonDeterminismMessage, "expecting nondeterminism; found " + msg.GetType().Name);
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                var labels =
                    nondetMsg.probe.GetSampleNonDeterministicInputSequence( nondetMsg.problemState );
                string input = nondetMsg.probe.GetInputSequenceDisplay( labels );
                Assert.AreEqual( expectingAmbigInput, input );
            }

            // check nondet alts
            if ( expectingNonDetAlts != null )
            {
                RecursionOverflowMessage recMsg = null;
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                IList<int> nonDetAlts = null;
                if ( nondetMsg != null )
                {
                    nonDetAlts =
                        nondetMsg.probe.GetNonDeterministicAltsForState( nondetMsg.problemState );
                }
                else
                {
                    recMsg = getRecursionOverflowMessage( equeue.warnings );
                    if ( recMsg != null )
                    {
                        //nonDetAlts = new ArrayList(recMsg.alts);
                    }
                }
                // compare nonDetAlts with expectingNonDetAlts
                BitSet s = new BitSet();
                s.AddAll( expectingNonDetAlts );
                BitSet s2 = new BitSet();
                s2.AddAll( nonDetAlts );
                Assert.AreEqual(s, s2, "nondet alts mismatch");
                Assert.IsTrue(nondetMsg != null || recMsg != null, "found no nondet alts; expecting: " + str(expectingNonDetAlts));
            }
            else
            {
                // not expecting any nondet alts, make sure there are none
                GrammarNonDeterminismMessage nondetMsg =
                    getNonDeterminismMessage( equeue.warnings );
                Assert.IsNull(nondetMsg, "found nondet alts, but expecting none");
            }

            Assert.AreEqual( expecting, result );
        }

Beispiel #6

Datei: TestDFAConversion.cs Projekt: JSchofield/antlrcs

        protected void assertRecursionOverflow( Grammar g,
                                               IList expectedTargetRules,
                                               int expectedAlt )
        {
            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );

            // mimic actions of org.antlr.Tool first time for grammar g
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }
            RecursionOverflowMessage msg = getRecursionOverflowMessage( equeue.errors );
            Assert.IsNotNull(msg, "missing expected recursion overflow msg" + msg);
            Assert.AreEqual(expectedTargetRules.ToElementString(), msg.targetRules.ToList().ToElementString(), "target rules mismatch");
            Assert.AreEqual(expectedAlt, msg.alt, "mismatched alt");
        }

Beispiel #7

Datei: TestDFAConversion.cs Projekt: JSchofield/antlrcs

        protected void assertNonLLStar( Grammar g, IList<int> expectedBadAlts )
        {
            DecisionProbe.verbose = true; // make sure we get all error info
            ErrorQueue equeue = new ErrorQueue();
            ErrorManager.SetErrorListener( equeue );

            // mimic actions of org.antlr.Tool first time for grammar g
            if ( g.NumberOfDecisions == 0 )
            {
                g.BuildNFA();
                g.CreateLookaheadDFAs( false );
            }
            NonRegularDecisionMessage msg = getNonRegularDecisionMessage( equeue.errors );
            Assert.IsNotNull(msg, "expected fatal non-LL(*) msg");
            List<int> alts = new List<int>();
            alts.AddRange( msg.altsWithRecursion );
            alts.Sort();
            //Collections.sort( alts );
            //Assert.AreEqual( expectedBadAlts, alts );
            Assert.IsTrue( expectedBadAlts.SequenceEqual( alts ) );
        }

Beispiel #8

Datei: TestSymbolDefinitions.cs Projekt: mahanteshck/antlrcs

 public void TestEmptyNotToken()
 {
     ErrorQueue equeue = new ErrorQueue();
     ErrorManager.SetErrorListener( equeue );
     Grammar g = new Grammar(
             "grammar foo;\n" +
             "a : (~A)+ ;\n" );
     g.BuildNFA();
     object expectedArg = "A";
     int expectedMsgID = ErrorManager.MSG_EMPTY_COMPLEMENT;
     GrammarSemanticsMessage expectedMessage =
         new GrammarSemanticsMessage( expectedMsgID, g, null, expectedArg );
     checkGrammarSemanticsError( equeue, expectedMessage );
 }