TestJavaCodeGeneration.java
/*
* [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
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* 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.
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package org.antlr.test;
import org.junit.Test;
import static org.junit.Assert.*;
/** General code generation testing; compilation and/or execution.
* These tests are more about avoiding duplicate var definitions
* etc... than testing a particular ANTLR feature.
*/
public class TestJavaCodeGeneration extends BaseTest {
@Test public void testDupVarDefForPinchedState() {
// so->s2 and s0->s3->s1 pinches back to s1
// LA3_1, s1 state for DFA 3, was defined twice in similar scope
// just wrapped in curlies and it's cool.
String grammar =
"grammar T;\n" +
"a : (| A | B) X Y\n" +
" | (| A | B) X Z\n" +
" ;\n" ;
boolean found =
rawGenerateAndBuildRecognizer(
"T.g", grammar, "TParser", null, false);
boolean expecting = true; // should be ok
assertEquals(expecting, found);
}
@Test public void testLabeledNotSetsInLexer() {
// d must be an int
String grammar =
"lexer grammar T;\n" +
"A : d=~('x'|'y') e='0'..'9'\n" +
" ; \n" ;
boolean found =
rawGenerateAndBuildRecognizer(
"T.g", grammar, null, "T", false);
boolean expecting = true; // should be ok
assertEquals(expecting, found);
}
@Test public void testLabeledSetsInLexer() {
// d must be an int
String grammar =
"grammar T;\n" +
"a : A ;\n" +
"A : d=('x'|'y') {System.out.println((char)$d);}\n" +
" ; \n" ;
String found = execParser("T.g", grammar, "TParser", "TLexer",
"a", "x", false);
assertEquals("x\n", found);
}
@Test public void testLabeledRangeInLexer() {
// d must be an int
String grammar =
"grammar T;\n" +
"a : A;\n" +
"A : d='a'..'z' {System.out.println((char)$d);} \n" +
" ; \n" ;
String found = execParser("T.g", grammar, "TParser", "TLexer",
"a", "x", false);
assertEquals("x\n", found);
}
@Test public void testLabeledWildcardInLexer() {
// d must be an int
String grammar =
"grammar T;\n" +
"a : A;\n" +
"A : d=. {System.out.println((char)$d);}\n" +
" ; \n" ;
String found = execParser("T.g", grammar, "TParser", "TLexer",
"a", "x", false);
assertEquals("x\n", found);
}
@Test public void testSynpredWithPlusLoop() {
String grammar =
"grammar T; \n" +
"a : (('x'+)=> 'x'+)?;\n";
boolean found =
rawGenerateAndBuildRecognizer(
"T.g", grammar, "TParser", "TLexer", false);
boolean expecting = true; // should be ok
assertEquals(expecting, found);
}
@Test public void testDoubleQuoteEscape() {
String grammar =
"lexer grammar T; \n" +
"A : '\\\\\"';\n" + // this is A : '\\"', which should give "\\\"" at Java level;
"B : '\\\"';\n" + // this is B: '\"', which shodl give "\"" at Java level;
"C : '\\'\\'';\n" + // this is C: '\'\'', which shoudl give "''" at Java level
"D : '\\k';\n"; // this is D: '\k', which shoudl give just "k" at Java level;
boolean found =
rawGenerateAndBuildRecognizer(
"T.g", grammar, null, "T", false);
boolean expecting = true; // should be ok
assertEquals(expecting, found);
}
@Test public void testBlankRuleGetsNoException() {
String grammar =
"grammar T;\n" +
"a : sync (ID sync)* ;\n" +
"sync : ;\n" +
"ID : 'a'..'z'+;\n";
boolean found =
rawGenerateAndBuildRecognizer(
"T.g", grammar, "TParser", "TLexer", false);
boolean expecting = true; // should be ok
assertEquals(expecting, found);
}
/**
* This is a regression test for antlr/antlr3#20: StackOverflow error when
* compiling grammar with backtracking.
* https://github.com/antlr/antlr3/issues/20
*/
@Test
public void testSemanticPredicateAnalysisStackOverflow() throws Exception {
String grammar =
"grammar T;\n"
+ "\n"
+ "options {\n"
+ " backtrack=true;\n"
+ "}\n"
+ "\n"
+ "main : ('x'*)*;\n";
boolean success = rawGenerateAndBuildRecognizer("T.g", grammar, "TParser", "TLexer", false);
assertTrue(success);
}
}