antlr-3.4/tool/src/test/java/org/antlr/test/TestSemanticPredicateEvaluation.java - platform/external/antlr - Git at Google

 /*
  * [The "BSD license"]
  *  Copyright (c) 2010 Terence Parr
  *  All rights reserved.
  *
  *  Redistribution and use in source and binary forms, with or without
  *  modification, are permitted provided that the following conditions
  *  are met:
  *  1. Redistributions of source code must retain the above copyright
  *      notice, this list of conditions and the following disclaimer.
  *  2. Redistributions in binary form must reproduce the above copyright
  *      notice, this list of conditions and the following disclaimer in the
  *      documentation and/or other materials provided with the distribution.
  *  3. The name of the author may not be used to endorse or promote products
  *      derived from this software without specific prior written permission.
  *
  *  THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  *  IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  *  OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  *  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  *  INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  *  NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  *  DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  *  THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  *  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  *  THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */
 package org.antlr.test;

 import org.junit.Test;

 public class TestSemanticPredicateEvaluation extends BaseTest {
 	@Test public void testSimpleCyclicDFAWithPredicate() throws Exception {
 		String grammar =
 			"grammar foo;\n" +
 			"a : {false}? 'x'* 'y' {System.out.println(\"alt1\");}\n" +
 			"  | {true}?  'x'* 'y' {System.out.println(\"alt2\");}\n" +
 			"  ;\n" ;
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "xxxy", false);
 		assertEquals("alt2\n", found);
 	}

 	@Test public void testSimpleCyclicDFAWithInstanceVarPredicate() throws Exception {
 		String grammar =
 			"grammar foo;\n" +
 			"@members {boolean v=true;}\n" +
 			"a : {false}? 'x'* 'y' {System.out.println(\"alt1\");}\n" +
 			"  | {v}?     'x'* 'y' {System.out.println(\"alt2\");}\n" +
 			"  ;\n" ;
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "xxxy", false);
 		assertEquals("alt2\n", found);
 	}

 	@Test public void testPredicateValidation() throws Exception {
 		String grammar =
 			"grammar foo;\n" +
 			"@members {\n" +
 			"public void reportError(RecognitionException e) {\n" +
 			"    System.out.println(\"error: \"+e.toString());\n" +
 			"}\n" +
 			"}\n" +
 			"\n" +
 			"a : {false}? 'x'\n" +
 			"  ;\n" ;
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "x", false);
 		assertEquals("error: FailedPredicateException(a,{false}?)\n", found);
 	}

 	@Test public void testLexerPreds() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=false;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : {p}? 'a'  {System.out.println(\"token 1\");} ;\n" +
 			"B : {!p}? 'a' {System.out.println(\"token 2\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "a", false);
 		// "a" is ambig; can match both A, B.  Pred says match 2
 		assertEquals("token 2\n", found);
 	}

 	@Test public void testLexerPreds2() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=true;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : {p}? 'a' {System.out.println(\"token 1\");} ;\n" +
 			"B : ('a'|'b')+ {System.out.println(\"token 2\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "a", false);
 		// "a" is ambig; can match both A, B.  Pred says match 1
 		assertEquals("token 1\n", found);
 	}

 	@Test public void testLexerPredInExitBranch() throws Exception {
 		// p says it's ok to exit; it has precendence over the !p loopback branch
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=true;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : ('a' {System.out.print(\"1\");})*\n" +
 			"    {p}?\n" +
 			"    ('a' {System.out.print(\"2\");})* ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aaa", false);
 		assertEquals("222\n", found);
 	}

 	@Test public void testLexerPredInExitBranch2() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=true;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : ({p}? 'a' {System.out.print(\"1\");})*\n" +
 			"    ('a' {System.out.print(\"2\");})* ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aaa", false);
 		assertEquals("111\n", found);
 	}

 	@Test public void testLexerPredInExitBranch3() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=true;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : ({p}? 'a' {System.out.print(\"1\");} | )\n" +
 			"    ('a' {System.out.print(\"2\");})* ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aaa", false);
 		assertEquals("122\n", found);
 	}

 	@Test public void testLexerPredInExitBranch4() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"a : (A|B)+ ;\n" +
 			"A @init {int n=0;} : ({n<2}? 'a' {System.out.print(n++);})+\n" +
 			"    ('a' {System.out.print(\"x\");})* ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aaaaa", false);
 		assertEquals("01xxx\n", found);
 	}

 	@Test public void testLexerPredsInCyclicDFA() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=false;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : {p}? ('a')+ 'x'  {System.out.println(\"token 1\");} ;\n" +
 			"B :      ('a')+ 'x' {System.out.println(\"token 2\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aax", false);
 		assertEquals("token 2\n", found);
 	}

 	@Test public void testLexerPredsInCyclicDFA2() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"@lexer::members {boolean p=false;}\n" +
 			"a : (A|B)+ ;\n" +
 			"A : {p}? ('a')+ 'x' ('y')? {System.out.println(\"token 1\");} ;\n" +
 			"B :      ('a')+ 'x' {System.out.println(\"token 2\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aax", false);
 		assertEquals("token 2\n", found);
 	}

 	@Test public void testGatedPred() throws Exception {
 		String grammar =
 			"grammar foo;" +
 			"a : (A|B)+ ;\n" +
 			"A : {true}?=> 'a' {System.out.println(\"token 1\");} ;\n" +
 			"B : {false}?=>('a'|'b')+ {System.out.println(\"token 2\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aa", false);
 		// "a" is ambig; can match both A, B.  Pred says match A twice
 		assertEquals("token 1\ntoken 1\n", found);
 	}

 	@Test public void testGatedPred2() throws Exception {
 		String grammar =
 			"grammar foo;\n" +
 			"@lexer::members {boolean sig=false;}\n"+
 			"a : (A|B)+ ;\n" +
 			"A : 'a' {System.out.print(\"A\"); sig=true;} ;\n" +
 			"B : 'b' ;\n" +
 			"C : {sig}?=> ('a'|'b') {System.out.print(\"C\");} ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aa", false);
 		assertEquals("AC\n", found);
 	}

 	@Test public void testPredWithActionTranslation() throws Exception {
 		String grammar =
 			"grammar foo;\n" +
 			"a : b[2] ;\n" +
 			"b[int i]\n" +
 			"  : {$i==1}?   'a' {System.out.println(\"alt 1\");}\n" +
 			"  | {$b.i==2}? 'a' {System.out.println(\"alt 2\");}\n" +
 			"  ;\n";
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "aa", false);
 		assertEquals("alt 2\n", found);
 	}

 	@Test public void testPredicatesOnEOTTarget() throws Exception {
 		String grammar =
 			"grammar foo; \n" +
 			"@lexer::members {boolean p=true, q=false;}" +
 			"a : B ;\n" +
 			"A: '</'; \n" +
 			"B: {p}? '<!' {System.out.println(\"B\");};\n" +
 			"C: {q}? '<' {System.out.println(\"C\");}; \n" +
 			"D: '<';\n" ;
 		String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
 				    "a", "<!", false);
 		assertEquals("B\n", found);
 	}


 	// S U P P O R T

 	public void _test() throws Exception {
 		String grammar =
 			"grammar T;\n" +
 			"options {output=AST;}\n" +
 			"a :  ;\n" +
 			"ID : 'a'..'z'+ ;\n" +
 			"INT : '0'..'9'+;\n" +
 			"WS : (' '|'\\n') {channel=99;} ;\n";
 		String found = execParser("t.g", grammar, "T", "TLexer",
 				    "a", "abc 34", false);
 		assertEquals("\n", found);
 	}

 }
	/*
	* [The "BSD license"]
	* Copyright (c) 2010 Terence Parr
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/
	package org.antlr.test;

	import org.junit.Test;

	public class TestSemanticPredicateEvaluation extends BaseTest {
	@Test public void testSimpleCyclicDFAWithPredicate() throws Exception {
	String grammar =
	"grammar foo;\n" +
	"a : {false}? 'x'* 'y' {System.out.println(\"alt1\");}\n" +
	" \| {true}? 'x'* 'y' {System.out.println(\"alt2\");}\n" +
	" ;\n" ;
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "xxxy", false);
	assertEquals("alt2\n", found);
	}

	@Test public void testSimpleCyclicDFAWithInstanceVarPredicate() throws Exception {
	String grammar =
	"grammar foo;\n" +
	"@members {boolean v=true;}\n" +
	"a : {false}? 'x'* 'y' {System.out.println(\"alt1\");}\n" +
	" \| {v}? 'x'* 'y' {System.out.println(\"alt2\");}\n" +
	" ;\n" ;
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "xxxy", false);
	assertEquals("alt2\n", found);
	}

	@Test public void testPredicateValidation() throws Exception {
	String grammar =
	"grammar foo;\n" +
	"@members {\n" +
	"public void reportError(RecognitionException e) {\n" +
	" System.out.println(\"error: \"+e.toString());\n" +
	"}\n" +
	"}\n" +
	"\n" +
	"a : {false}? 'x'\n" +
	" ;\n" ;
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "x", false);
	assertEquals("error: FailedPredicateException(a,{false}?)\n", found);
	}

	@Test public void testLexerPreds() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=false;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : {p}? 'a' {System.out.println(\"token 1\");} ;\n" +
	"B : {!p}? 'a' {System.out.println(\"token 2\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "a", false);
	// "a" is ambig; can match both A, B. Pred says match 2
	assertEquals("token 2\n", found);
	}

	@Test public void testLexerPreds2() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=true;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : {p}? 'a' {System.out.println(\"token 1\");} ;\n" +
	"B : ('a'\|'b')+ {System.out.println(\"token 2\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "a", false);
	// "a" is ambig; can match both A, B. Pred says match 1
	assertEquals("token 1\n", found);
	}

	@Test public void testLexerPredInExitBranch() throws Exception {
	// p says it's ok to exit; it has precendence over the !p loopback branch
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=true;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : ('a' {System.out.print(\"1\");})*\n" +
	" {p}?\n" +
	" ('a' {System.out.print(\"2\");})* ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aaa", false);
	assertEquals("222\n", found);
	}

	@Test public void testLexerPredInExitBranch2() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=true;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : ({p}? 'a' {System.out.print(\"1\");})*\n" +
	" ('a' {System.out.print(\"2\");})* ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aaa", false);
	assertEquals("111\n", found);
	}

	@Test public void testLexerPredInExitBranch3() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=true;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : ({p}? 'a' {System.out.print(\"1\");} \| )\n" +
	" ('a' {System.out.print(\"2\");})* ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aaa", false);
	assertEquals("122\n", found);
	}

	@Test public void testLexerPredInExitBranch4() throws Exception {
	String grammar =
	"grammar foo;" +
	"a : (A\|B)+ ;\n" +
	"A @init {int n=0;} : ({n<2}? 'a' {System.out.print(n++);})+\n" +
	" ('a' {System.out.print(\"x\");})* ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aaaaa", false);
	assertEquals("01xxx\n", found);
	}

	@Test public void testLexerPredsInCyclicDFA() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=false;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : {p}? ('a')+ 'x' {System.out.println(\"token 1\");} ;\n" +
	"B : ('a')+ 'x' {System.out.println(\"token 2\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aax", false);
	assertEquals("token 2\n", found);
	}

	@Test public void testLexerPredsInCyclicDFA2() throws Exception {
	String grammar =
	"grammar foo;" +
	"@lexer::members {boolean p=false;}\n" +
	"a : (A\|B)+ ;\n" +
	"A : {p}? ('a')+ 'x' ('y')? {System.out.println(\"token 1\");} ;\n" +
	"B : ('a')+ 'x' {System.out.println(\"token 2\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aax", false);
	assertEquals("token 2\n", found);
	}

	@Test public void testGatedPred() throws Exception {
	String grammar =
	"grammar foo;" +
	"a : (A\|B)+ ;\n" +
	"A : {true}?=> 'a' {System.out.println(\"token 1\");} ;\n" +
	"B : {false}?=>('a'\|'b')+ {System.out.println(\"token 2\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aa", false);
	// "a" is ambig; can match both A, B. Pred says match A twice
	assertEquals("token 1\ntoken 1\n", found);
	}

	@Test public void testGatedPred2() throws Exception {
	String grammar =
	"grammar foo;\n" +
	"@lexer::members {boolean sig=false;}\n"+
	"a : (A\|B)+ ;\n" +
	"A : 'a' {System.out.print(\"A\"); sig=true;} ;\n" +
	"B : 'b' ;\n" +
	"C : {sig}?=> ('a'\|'b') {System.out.print(\"C\");} ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aa", false);
	assertEquals("AC\n", found);
	}

	@Test public void testPredWithActionTranslation() throws Exception {
	String grammar =
	"grammar foo;\n" +
	"a : b[2] ;\n" +
	"b[int i]\n" +
	" : {$i==1}? 'a' {System.out.println(\"alt 1\");}\n" +
	" \| {$b.i==2}? 'a' {System.out.println(\"alt 2\");}\n" +
	" ;\n";
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "aa", false);
	assertEquals("alt 2\n", found);
	}

	@Test public void testPredicatesOnEOTTarget() throws Exception {
	String grammar =
	"grammar foo; \n" +
	"@lexer::members {boolean p=true, q=false;}" +
	"a : B ;\n" +
	"A: '</'; \n" +
	"B: {p}? '<!' {System.out.println(\"B\");};\n" +
	"C: {q}? '<' {System.out.println(\"C\");}; \n" +
	"D: '<';\n" ;
	String found = execParser("foo.g", grammar, "fooParser", "fooLexer",
	"a", "<!", false);
	assertEquals("B\n", found);
	}


	// S U P P O R T

	public void _test() throws Exception {
	String grammar =
	"grammar T;\n" +
	"options {output=AST;}\n" +
	"a : ;\n" +
	"ID : 'a'..'z'+ ;\n" +
	"INT : '0'..'9'+;\n" +
	"WS : (' '\|'\\n') {channel=99;} ;\n";
	String found = execParser("t.g", grammar, "T", "TLexer",
	"a", "abc 34", false);
	assertEquals("\n", found);
	}

	}