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ima02/resources/defects4j-checkout-closure-1f/test/com/google/javascript/jscomp/NodeIteratorsTest.java

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/*
* Copyright 2009 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.collect.Lists;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import com.google.javascript.jscomp.NodeIterators.FunctionlessLocalScope;
import com.google.javascript.jscomp.NodeIterators.LocalVarMotion;
import java.util.Iterator;
import java.util.List;
import junit.framework.TestCase;
/**
* Tests for NodeIterators.
* @author nicksantos@google.com (Nick Santos)
*/
public class NodeIteratorsTest extends TestCase {
// In each test, we find the declaration of "X" in the local scope,
// construct a list of all nodes where X is guaranteed to retain its
// original value, and compare those nodes against an expected list of
// tokens.
public void testBasic() {
testVarMotionWithCode("var X = 3;", Token.VAR, Token.SCRIPT);
}
public void testNamedFunction() {
testVarMotionWithCode("var X = 3; function f() {}",
Token.VAR, Token.SCRIPT);
}
public void testNamedFunction2() {
testVarMotionWithCode("var X = 3; function f() {} var Y;",
Token.VAR, Token.NAME, Token.VAR, Token.SCRIPT);
}
public void testFunctionExpression() {
testVarMotionWithCode("var X = 3, Y = function() {}; 3;",
Token.NAME, Token.VAR, Token.NUMBER, Token.EXPR_RESULT, Token.SCRIPT);
}
public void testFunctionExpression2() {
testVarMotionWithCode("var X = 3; var Y = function() {}; 3;",
Token.VAR, Token.NAME, Token.VAR, Token.NUMBER,
Token.EXPR_RESULT, Token.SCRIPT);
}
public void testHaltAtVarRef() {
testVarMotionWithCode("var X, Y = 3; var Z = X;",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltAtVarRef2() {
testVarMotionWithCode("var X, Y = 3; (function() {})(3, X);",
Token.NUMBER, Token.NAME, Token.VAR, Token.NUMBER, Token.NAME);
}
public void testHaltAtVarRef3() {
testVarMotionWithCode("var X, Y = 3; X;",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltAtSideEffects() {
testVarMotionWithCode("var X, Y = 3; var Z = B(3);",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME, Token.NUMBER);
}
public void testHaltAtSideEffects2() {
testVarMotionWithCode("var A = 1, X = A, Y = 3; delete A;",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltAtSideEffects3() {
testVarMotionWithCode("var A = 1, X = A, Y = 3; A++;",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltAtSideEffects4() {
testVarMotionWithCode("var A = 1, X = A, Y = 3; A--;",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltAtSideEffects5() {
testVarMotionWithCode("var A = 1, X = A, Y = 3; A = 'a';",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME, Token.STRING);
}
public void testNoHaltReadWhenValueIsImmutable() {
testVarMotionWithCode("var X = 1, Y = 3; alert();",
Token.NUMBER, Token.NAME, Token.VAR, Token.NAME);
}
public void testHaltReadWhenValueHasSideEffects() {
testVarMotionWithCode("var X = f(), Y = 3; alert();",
Token.NUMBER, Token.NAME, Token.VAR);
}
public void testCatchBlock() {
testVarMotionWithCode("var X = 1; try { 4; } catch (X) {}",
Token.VAR, Token.NUMBER, Token.EXPR_RESULT, Token.BLOCK);
}
public void testIfBranch() {
testVarMotionWithCode("var X = foo(); if (X) {}",
Token.VAR, Token.NAME);
}
/**
* Parses the given code, finds the variable X in the global scope, and runs
* the VarMotion iterator. Asserts that the iteration order matches the
* tokens given.
*/
private void testVarMotionWithCode(String code, int ... expectedTokens) {
List<Integer> expectedList = Lists.newArrayList();
for (int token : expectedTokens) {
expectedList.add(token);
}
testVarMotionWithCode(code, expectedList);
}
/**
* @see #testVarMotionWithCode(String, int ...)
*/
private void testVarMotionWithCode(String code,
List<Integer> expectedTokens) {
List<Node> ancestors = Lists.newArrayList();
// Add an empty node to the beginning of the code and start there.
Node root = (new Compiler()).parseTestCode(";" + code);
for (Node n = root; n != null; n = n.getFirstChild()) {
ancestors.add(0, n);
}
FunctionlessLocalScope searchIt = new FunctionlessLocalScope(
ancestors.toArray(new Node[ancestors.size()]));
boolean found = false;
while (searchIt.hasNext()) {
Node n = searchIt.next();
if (n.isName() &&
searchIt.currentParent().isVar() &&
n.getString().equals("X")) {
found = true;
break;
}
}
assertTrue("Variable X not found! " + root.toStringTree(), found);
List<Node> currentAncestors = searchIt.currentAncestors();
assert(currentAncestors.size() >= 3);
Iterator<Node> moveIt = LocalVarMotion.forVar(
currentAncestors.get(0),
currentAncestors.get(1),
currentAncestors.get(2));
List<Integer> actualTokens = Lists.newArrayList();
while (moveIt.hasNext()) {
actualTokens.add(moveIt.next().getType());
}
assertEquals(expectedTokens, actualTokens);
}
}