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ima02/resources/defects4j-checkout-closure-1f/test/com/google/javascript/jscomp/IntegrationTestCase.java
github-classroom[bot] e42e547e48
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2023-04-25 11:33:41 +00:00

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Java

/*
* Copyright 2012 The Closure Compiler Authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.javascript.jscomp;
import com.google.common.base.Joiner;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.Lists;
import com.google.javascript.rhino.Node;
import junit.framework.TestCase;
import java.util.List;
/**
* Framework for end-to-end test cases.
*
* @author nicksantos@google.com (Nick Santos)
*/
abstract class IntegrationTestCase extends TestCase {
/** Externs for the test */
protected final List<SourceFile> DEFAULT_EXTERNS = ImmutableList.of(
SourceFile.fromCode("externs",
"var arguments;\n"
+ "/** @constructor */ function Window() {}\n"
+ "/** @type {string} */ Window.prototype.name;\n"
+ "/** @type {string} */ Window.prototype.offsetWidth;\n"
+ "/** @type {Window} */ var window;\n"
+ "/** @nosideeffects */ function noSideEffects() {}\n"
+ "/** @constructor\n * @nosideeffects */ function Widget() {}\n"
+ "/** @modifies {this} */ Widget.prototype.go = function() {};\n"
+ "/** @return {string} */ var widgetToken = function() {};\n"
+ "function alert(message) {}"
+ "function Object() {}"
+ "Object.seal;"));
protected List<SourceFile> externs = DEFAULT_EXTERNS;
// The most recently used compiler.
protected Compiler lastCompiler;
protected boolean normalizeResults = false;
@Override
public void setUp() {
externs = DEFAULT_EXTERNS;
lastCompiler = null;
normalizeResults = false;
}
protected void testSame(CompilerOptions options, String original) {
testSame(options, new String[] { original });
}
protected void testSame(CompilerOptions options, String[] original) {
test(options, original, original);
}
/**
* Asserts that when compiling with the given compiler options,
* {@code original} is transformed into {@code compiled}.
*/
protected void test(CompilerOptions options,
String original, String compiled) {
test(options, new String[] { original }, new String[] { compiled });
}
/**
* Asserts that when compiling with the given compiler options,
* {@code original} is transformed into {@code compiled}.
*/
protected void test(CompilerOptions options,
String[] original, String[] compiled) {
Compiler compiler = compile(options, original);
assertEquals("Expected no warnings or errors\n" +
"Errors: \n" + Joiner.on("\n").join(compiler.getErrors()) +
"Warnings: \n" + Joiner.on("\n").join(compiler.getWarnings()),
0, compiler.getErrors().length + compiler.getWarnings().length);
Node root = compiler.getRoot().getLastChild();
Node expectedRoot = parse(compiled, options, normalizeResults);
String explanation = expectedRoot.checkTreeEquals(root);
assertNull("\nExpected: " + compiler.toSource(expectedRoot) +
"\nResult: " + compiler.toSource(root) +
"\n" + explanation, explanation);
}
/**
* Asserts that when compiling with the given compiler options,
* there is an error or warning.
*/
protected void test(CompilerOptions options,
String original, DiagnosticType warning) {
test(options, new String[] { original }, warning);
}
protected void test(CompilerOptions options,
String original, String compiled, DiagnosticType warning) {
test(options, new String[] { original }, new String[] { compiled },
warning);
}
protected void test(CompilerOptions options,
String[] original, DiagnosticType warning) {
test(options, original, null, warning);
}
/**
* Asserts that when compiling with the given compiler options,
* there is an error or warning.
*/
protected void test(CompilerOptions options,
String[] original, String[] compiled, DiagnosticType warning) {
Compiler compiler = compile(options, original);
checkUnexpectedErrorsOrWarnings(compiler, 1);
assertEquals("Expected exactly one warning or error",
1, compiler.getErrors().length + compiler.getWarnings().length);
if (compiler.getErrors().length > 0) {
assertEquals(warning, compiler.getErrors()[0].getType());
} else {
assertEquals(warning, compiler.getWarnings()[0].getType());
}
if (compiled != null) {
Node root = compiler.getRoot().getLastChild();
Node expectedRoot = parse(compiled, options, normalizeResults);
String explanation = expectedRoot.checkTreeEquals(root);
assertNull("\nExpected: " + compiler.toSource(expectedRoot) +
"\nResult: " + compiler.toSource(root) +
"\n" + explanation, explanation);
}
}
/**
* Asserts that when compiling with the given compiler options,
* there is an error or warning.
*/
protected void test(CompilerOptions options,
String[] original, String[] compiled, DiagnosticType[] warnings) {
Compiler compiler = compile(options, original);
checkUnexpectedErrorsOrWarnings(compiler, warnings.length);
if (compiled != null) {
Node root = compiler.getRoot().getLastChild();
Node expectedRoot = parse(compiled, options, normalizeResults);
String explanation = expectedRoot.checkTreeEquals(root);
assertNull("\nExpected: " + compiler.toSource(expectedRoot) +
"\nResult: " + compiler.toSource(root) +
"\n" + explanation, explanation);
}
}
protected void checkUnexpectedErrorsOrWarnings(
Compiler compiler, int expected) {
int actual = compiler.getErrors().length + compiler.getWarnings().length;
if (actual != expected) {
String msg = "";
for (JSError err : compiler.getErrors()) {
msg += "Error:" + err.toString() + "\n";
}
for (JSError err : compiler.getWarnings()) {
msg += "Warning:" + err.toString() + "\n";
}
assertEquals("Unexpected warnings or errors.\n " + msg,
expected, actual);
}
}
protected Compiler compile(CompilerOptions options, String original) {
return compile(options, new String[] { original });
}
protected Compiler compile(CompilerOptions options, String[] original) {
Compiler compiler = lastCompiler = new Compiler();
List<SourceFile> inputs = Lists.newArrayList();
for (int i = 0; i < original.length; i++) {
inputs.add(SourceFile.fromCode("input" + i, original[i]));
}
compiler.compileModules(
externs, Lists.newArrayList(CompilerTestCase.createModuleChain(original)),
options);
return compiler;
}
protected Node parse(
String[] original, CompilerOptions options, boolean normalize) {
Compiler compiler = new Compiler();
List<SourceFile> inputs = Lists.newArrayList();
for (int i = 0; i < original.length; i++) {
inputs.add(SourceFile.fromCode("input" + i, original[i]));
}
compiler.init(externs, inputs, options);
checkUnexpectedErrorsOrWarnings(compiler, 0);
Node all = compiler.parseInputs();
checkUnexpectedErrorsOrWarnings(compiler, 0);
Node n = all.getLastChild();
Node externs = all.getFirstChild();
(new CreateSyntheticBlocks(
compiler, "synStart", "synEnd")).process(externs, n);
if (normalize) {
compiler.normalize();
}
return n;
}
/** Creates a CompilerOptions object with google coding conventions. */
abstract CompilerOptions createCompilerOptions();
}