/*******************************************************************************
* Copyright (c) 2000, 2009 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
*******************************************************************************/
package org.eclipse.jdt.ui.tests.refactoring.reorg;
import junit.framework.Test;
import junit.framework.TestSuite;
import org.eclipse.test.performance.Dimension;
import org.eclipse.ltk.core.refactoring.RefactoringStatus;
import org.eclipse.ltk.core.refactoring.participants.RenameRefactoring;
import org.eclipse.jdt.core.ICompilationUnit;
import org.eclipse.jdt.core.IMethod;
import org.eclipse.jdt.core.IPackageFragment;
import org.eclipse.jdt.internal.corext.refactoring.rename.RenameVirtualMethodProcessor;
import org.eclipse.jdt.ui.tests.refactoring.infra.RefactoringPerformanceTestSetup;
public class RenameMethodWithOverloadPerfTests extends RepeatingRefactoringPerformanceTestCase {
public static Test suite() {
// we must make sure that cold is executed before warm
TestSuite suite= new TestSuite("RenameMethodWithOverloadPerfTests");
suite.addTest(new RenameMethodWithOverloadPerfTests("testCold_10_10"));
suite.addTest(new RenameMethodWithOverloadPerfTests("test_10_10"));
suite.addTest(new RenameMethodWithOverloadPerfTests("test_100_10"));
suite.addTest(new RenameMethodWithOverloadPerfTests("test_1000_10"));
return new RefactoringPerformanceTestSetup(suite);
}
public static Test setUpTest(Test someTest) {
return new RefactoringPerformanceTestSetup(someTest);
}
public RenameMethodWithOverloadPerfTests(String name) {
super(name);
}
public void testCold_10_10() throws Exception {
executeRefactoring(10, 10, false, 10);
}
public void test_10_10() throws Exception {
executeRefactoring(10, 10, true, 10);
}
public void test_100_10() throws Exception {
tagAsSummary("Rename method with overloading", Dimension.ELAPSED_PROCESS);
executeRefactoring(100, 10, true, 10);
}
public void test_1000_10() throws Exception {
executeRefactoring(1000, 10, true, 10);
}
protected void doExecuteRefactoring(int numberOfCus, int numberOfRefs, boolean measure) throws Exception {
ICompilationUnit cunit= generateSources(numberOfCus, numberOfRefs);
IMethod method= cunit.findPrimaryType().getMethod("setString", new String[] {"QString;"});
RenameVirtualMethodProcessor processor= new RenameVirtualMethodProcessor(method);
processor.setNewElementName("set");
executeRefactoring(new RenameRefactoring(processor), measure, RefactoringStatus.FATAL);
}
private ICompilationUnit generateSources(int numberOfCus, int numberOfRefs) throws Exception {
IPackageFragment definition= getTestProject().getSourceFolder().createPackageFragment("def", false, null);
StringBuffer buf= new StringBuffer();
buf.append("package def;\n");
buf.append("public class A {\n");
buf.append(" public void set(Object s) {\n");
buf.append(" }\n");
buf.append(" public void setString(String s) {\n");
buf.append(" }\n");
buf.append("}\n");
ICompilationUnit result= definition.createCompilationUnit("A.java", buf.toString(), false, null);
IPackageFragment references= getTestProject().getSourceFolder().createPackageFragment("ref", false, null);
for(int i= 0; i < numberOfCus; i++) {
createReferenceCu(references, i, numberOfRefs);
}
return result;
}
private void createReferenceCu(IPackageFragment pack, int index, int numberOfRefs) throws Exception {
StringBuffer buf= new StringBuffer();
buf.append("package " + pack.getElementName() + ";\n");
buf.append("import def.A;\n");
buf.append("public class Ref" + index + " {\n");
buf.append(" public void ref(A a) {\n");
buf.append(" String s= \"Eclipse\";\n");
for (int i= 0; i < numberOfRefs; i++) {
buf.append(" a.set(s);\n");
buf.append(" a.setString(s);\n");
}
buf.append(" }\n");
buf.append("}\n");
pack.createCompilationUnit("Ref" + index + ".java", buf.toString(), false, null);
}
protected void assertMeasurements() {
assertPerformanceInRelativeBand(Dimension.CPU_TIME, -100, +10);
}
}