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

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/*
* Copyright 2008 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.Predicate;
import com.google.common.base.Predicates;
import com.google.javascript.jscomp.graph.LinkedDirectedGraph;
import com.google.javascript.jscomp.graph.DiGraph;
import com.google.javascript.jscomp.graph.DiGraph.DiGraphEdge;
import com.google.javascript.jscomp.graph.DiGraph.DiGraphNode;
import junit.framework.TestCase;
/**
* Tests for {@link CheckPathsBetweenNodes}.
*
*/
public class CheckPathsBetweenNodesTest extends TestCase {
/**
* Predicate satisfied by strings with a given prefix.
*/
private static class PrefixPredicate implements Predicate<String> {
String prefix;
PrefixPredicate(String prefix) {
this.prefix = prefix;
}
@Override
public boolean apply(String input) {
return input.startsWith(prefix);
}
}
private static final Predicate<String> FALSE = Predicates.alwaysFalse();
private static final Predicate<DiGraphEdge<String, String>> ALL_EDGE =
Predicates.alwaysTrue();
private static final Predicate<DiGraphEdge<String, String>> NO_EDGE =
Predicates.alwaysFalse();
/** Tests straight-line graphs. */
public void testSimple() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.connect("a", "-", "b");
g.connect("b", "-", "c");
g.connect("c", "-", "d");
g.connect("a", "x", "d");
CheckPathsBetweenNodes<String, String> test = null;
// Simple case: the sole path from a to d has a matching node.
assertGood(createTest(g, "a", "d", Predicates.equalTo("b"), edgeIs("-")));
//Test two edge cases where satisfying node is the first and last node on
// the path.
assertGood(createTest(g, "a", "d", Predicates.equalTo("a"), edgeIs("-")));
assertGood(createTest(g, "a", "d", Predicates.equalTo("d"), edgeIs("-")));
// Traverse no edges, so no paths.
assertGood(createTest(g, "a", "d", FALSE, NO_EDGE));
// No path with matching edges contains b.
assertBad(createTest(g, "a", "d", Predicates.equalTo("b"), edgeIs("x")));
}
/**
* Tests a graph where some paths between the nodes are valid and others
* are invalid.
*/
public void testSomeValidPaths() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.createDirectedGraphNode("e");
g.connect("a", "1", "b");
g.connect("b", "2", "c");
g.connect("b", "3", "e");
g.connect("e", "4", "d");
g.connect("c", "5", "d");
assertBad(createTest(g, "a", "d", Predicates.equalTo("c"), ALL_EDGE));
assertBad(createTest(g, "a", "d", Predicates.equalTo("z"), ALL_EDGE));
}
/** Tests a graph with many valid paths. */
public void testManyValidPaths() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c1");
g.createDirectedGraphNode("c2");
g.createDirectedGraphNode("c3");
DiGraphNode<String, String> d = g.createDirectedGraphNode("d");
g.connect("a", "-", "b");
g.connect("b", "-", "c1");
g.connect("b", "-", "c2");
g.connect("c2", "-", "d");
g.connect("c1", "-", "d");
g.connect("a", "-", "c3");
g.connect("c3", "-", "d");
assertGood(createTest(g, "a", "d", new PrefixPredicate("c"), ALL_EDGE));
}
/** Tests a graph with some cycles. */
public void testCycles1() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.createDirectedGraphNode("e");
g.createDirectedGraphNode("f");
g.connect("a", "-", "b");
g.connect("b", "-", "c");
g.connect("c", "-", "d");
g.connect("d", "-", "e");
g.connect("e", "-", "f");
g.connect("f", "-", "b");
assertGood(createTest(g, "a", "e", Predicates.equalTo("b"), ALL_EDGE));
assertGood(createTest(g, "a", "e", Predicates.equalTo("c"), ALL_EDGE));
assertGood(createTest(g, "a", "e", Predicates.equalTo("d"), ALL_EDGE));
assertGood(createTest(g, "a", "e", Predicates.equalTo("e"), ALL_EDGE));
assertBad(createTest(g, "a", "e", Predicates.equalTo("f"), ALL_EDGE));
}
/**
* Tests another graph with cycles. The topology of this graph was inspired
* by a control flow graph that was being incorrectly analyzed by an early
* version of CheckPathsBetweenNodes.
*/
public void testCycles2() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.connect("a", "-", "b");
g.connect("b", "-", "c");
g.connect("c", "-", "b");
g.connect("b", "-", "d");
assertGood(createTest(g, "a", "d", Predicates.equalTo("a"), ALL_EDGE));
assertBad(createTest(g, "a", "d", Predicates.equalTo("z"), ALL_EDGE));
}
/**
* Tests another graph with cycles. The topology of this graph was inspired
* by a control flow graph that was being incorrectly analyzed by an early
* version of CheckPathsBetweenNodes.
*/
public void testCycles3() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.connect("a", "-", "b");
g.connect("b", "-", "c");
g.connect("c", "-", "b");
g.connect("b", "-", "d");
g.connect("c", "-", "d");
assertGood(createTest(g, "a", "d", Predicates.equalTo("a"), ALL_EDGE));
assertBad(createTest(g, "a", "d", Predicates.equalTo("z"), ALL_EDGE));
}
/**
* Much of the tests are done by testing all paths. We quickly verified
* that some paths are indeed correct for the some path case.
*/
public void testSomePath1() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.createDirectedGraphNode("d");
g.connect("a", "-", "b");
g.connect("a", "-", "c");
g.connect("b", "-", "d");
g.connect("c", "-", "d");
assertTrue(createTest(g, "a", "d", Predicates.equalTo("b"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertTrue(createTest(g, "a", "d", Predicates.equalTo("c"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertTrue(createTest(g, "a", "d", Predicates.equalTo("a"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertTrue(createTest(g, "a", "d", Predicates.equalTo("d"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertFalse(createTest(g, "a", "d", Predicates.equalTo("NONE"), ALL_EDGE)
.somePathsSatisfyPredicate());
}
public void testSomePath2() {
// No Paths between nodes, by definition, always false.
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
assertFalse(createTest(g, "a", "b", Predicates.equalTo("b"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertFalse(createTest(g, "a", "b", Predicates.equalTo("d"), ALL_EDGE)
.somePathsSatisfyPredicate());
assertTrue(createTest(g, "a", "b", Predicates.equalTo("a"), ALL_EDGE)
.somePathsSatisfyPredicate());
}
public void testSomePathRevisiting() {
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("1");
g.createDirectedGraphNode("2a");
g.createDirectedGraphNode("2b");
g.createDirectedGraphNode("3");
g.createDirectedGraphNode("4a");
g.createDirectedGraphNode("4b");
g.createDirectedGraphNode("5");
g.connect("1", "-", "2a");
g.connect("1", "-", "2b");
g.connect("2a", "-", "3");
g.connect("2b", "-", "3");
g.connect("3", "-", "4a");
g.connect("3", "-", "4b");
g.connect("4a", "-", "5");
g.connect("4b", "-", "5");
CountingPredicate<String> p =
new CountingPredicate<String>(Predicates.equalTo("4a"));
assertTrue(createTest(g, "1", "5", p, ALL_EDGE)
.somePathsSatisfyPredicate());
// Make sure we are not doing more traversals than we have to.
assertEquals(4, p.count);
}
public void testNonInclusive() {
// No Paths between nodes, by definition, always false.
DiGraph<String, String> g = LinkedDirectedGraph.create();
g.createDirectedGraphNode("a");
g.createDirectedGraphNode("b");
g.createDirectedGraphNode("c");
g.connect("a", "-", "b");
g.connect("b", "-", "c");
assertFalse(createNonInclusiveTest(g, "a", "b",
Predicates.equalTo("a"), ALL_EDGE).somePathsSatisfyPredicate());
assertFalse(createNonInclusiveTest(g, "a", "b",
Predicates.equalTo("b"), ALL_EDGE).somePathsSatisfyPredicate());
assertTrue(createNonInclusiveTest(g, "a", "c",
Predicates.equalTo("b"), ALL_EDGE).somePathsSatisfyPredicate());
}
private static <N, E> void assertGood(CheckPathsBetweenNodes<N, E> test) {
assertTrue(test.allPathsSatisfyPredicate());
}
private static <N, E> void assertBad(CheckPathsBetweenNodes<N, E> test) {
assertFalse(test.allPathsSatisfyPredicate());
}
private static CheckPathsBetweenNodes<String, String> createTest(
DiGraph<String, String> graph,
String entry,
String exit,
Predicate<String> nodePredicate,
Predicate<DiGraphEdge<String, String>> edgePredicate) {
return new CheckPathsBetweenNodes<String, String>(graph,
graph.getDirectedGraphNode(entry), graph.getDirectedGraphNode(exit),
nodePredicate, edgePredicate);
}
private static CheckPathsBetweenNodes<String, String>
createNonInclusiveTest(
DiGraph<String, String> graph,
String entry,
String exit,
Predicate<String> nodePredicate,
Predicate<DiGraphEdge<String, String>> edgePredicate) {
return new CheckPathsBetweenNodes<String, String>(graph,
graph.getDirectedGraphNode(entry), graph.getDirectedGraphNode(exit),
nodePredicate, edgePredicate, false);
}
private static Predicate<DiGraphEdge<String, String>>
edgeIs(final Object val) {
return new Predicate<DiGraphEdge<String, String>>() {
@Override
public boolean apply(DiGraphEdge<String, String> input) {
return input.getValue().equals(val);
}
};
}
private static class CountingPredicate<T> implements Predicate<T> {
private int count = 0;
private final Predicate<T> delegate;
private CountingPredicate(Predicate<T> delegate) {
this.delegate = delegate;
}
@Override
public boolean apply(T input) {
count ++;
return delegate.apply(input);
}
}
}