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/**
 * Copyright (C) 2010-2018 Gordon Fraser, Andrea Arcuri and EvoSuite
 * contributors
 *
 * This file is part of EvoSuite.
 *
 * EvoSuite is free software: you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published
 * by the Free Software Foundation, either version 3.0 of the License, or
 * (at your option) any later version.
 *
 * EvoSuite is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
 * Lesser Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with EvoSuite. If not, see .
 */
package org.evosuite.testsuite;

import org.evosuite.Properties;
import org.evosuite.TestGenerationContext;
import org.evosuite.TimeController;
import org.evosuite.Properties.SecondaryObjective;
import org.evosuite.coverage.TestFitnessFactory;
import org.evosuite.ga.ConstructionFailedException;
import org.evosuite.junit.CoverageAnalysis;
import org.evosuite.junit.writer.TestSuiteWriter;
import org.evosuite.rmi.ClientServices;
import org.evosuite.rmi.service.ClientState;
import org.evosuite.rmi.service.ClientStateInformation;
import org.evosuite.statistics.RuntimeVariable;
import org.evosuite.testcase.*;
import org.evosuite.testcase.execution.ExecutionTracer;
import org.evosuite.utils.LoggingUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import java.util.*;

/**
 * 

* TestSuiteMinimizer class. *

* * @author Gordon Fraser */ public class TestSuiteMinimizer { /** * Logger */ private final static Logger logger = LoggerFactory.getLogger(TestSuiteMinimizer.class); private final List> testFitnessFactories = new ArrayList>(); /** * Assume the search has not started until startTime != 0 */ protected static long startTime = 0L; /** *

* Constructor for TestSuiteMinimizer. *

* * @param factory a {@link org.evosuite.coverage.TestFitnessFactory} object. */ public TestSuiteMinimizer(TestFitnessFactory factory) { this.testFitnessFactories.add(factory); } public TestSuiteMinimizer(List> factories) { this.testFitnessFactories.addAll(factories); } /** *

* minimize *

* * @param suite a {@link org.evosuite.testsuite.TestSuiteChromosome} object. * @param minimizePerTest true is to minimize tests, false is to minimize suites. */ public void minimize(TestSuiteChromosome suite, boolean minimizePerTest) { startTime = System.currentTimeMillis(); SecondaryObjective strategy = Properties.SECONDARY_OBJECTIVE[0]; ClientServices.getInstance().getClientNode().trackOutputVariable(RuntimeVariable.Result_Size, suite.size()); ClientServices.getInstance().getClientNode().trackOutputVariable(RuntimeVariable.Result_Length, suite.totalLengthOfTestCases()); logger.info("Minimization Strategy: " + strategy + ", " + suite.size() + " tests"); suite.clearMutationHistory(); if (minimizePerTest) minimizeTests(suite); else minimizeSuite(suite); ClientServices.getInstance().getClientNode().trackOutputVariable(RuntimeVariable.Minimized_Size, suite.size()); ClientServices.getInstance().getClientNode().trackOutputVariable(RuntimeVariable.Minimized_Length, suite.totalLengthOfTestCases()); } private void updateClientStatus(int progress) { ClientState state = ClientState.MINIMIZATION; ClientStateInformation information = new ClientStateInformation(state); information.setProgress(progress); ClientServices.getInstance().getClientNode().changeState(state, information); } private void filterJUnitCoveredGoals(List goals) { if (Properties.JUNIT.isEmpty()) return; LoggingUtils.getEvoLogger().info("* Determining coverage of existing tests"); String[] testClasses = Properties.JUNIT.split(":"); for (String testClass : testClasses) { try { Class junitClass = Class.forName(testClass, true, TestGenerationContext.getInstance().getClassLoaderForSUT()); Set coveredGoals = CoverageAnalysis.getCoveredGoals(junitClass, goals); LoggingUtils.getEvoLogger().info("* Removing " + coveredGoals.size() + " goals already covered by JUnit (total: " + goals.size() + ")"); //logger.warn("Removing " + coveredGoals + " goals already covered by JUnit (total: " + goals + ")"); goals.removeAll(coveredGoals); logger.info("Remaining goals: " + goals.size() + ": " + goals); } catch(ClassNotFoundException e){ LoggingUtils.getEvoLogger().warn("* Failed to find JUnit test suite: " + Properties.JUNIT); } } } /** * Minimize test suite with respect to the isCovered Method of the goals * defined by the supplied TestFitnessFactory * * @param suite a {@link org.evosuite.testsuite.TestSuiteChromosome} object. */ private void minimizeTests(TestSuiteChromosome suite) { logger.info("Minimizing per test"); ExecutionTracer.enableTraceCalls(); for (TestChromosome test : suite.getTestChromosomes()) { test.setChanged(true); // implies test.clearCachedResults(); } List goals = new ArrayList(); for (TestFitnessFactory ff : testFitnessFactories) { goals.addAll(ff.getCoverageGoals()); } filterJUnitCoveredGoals(goals); int currentGoal = 0; int numGoals = goals.size(); if (Properties.MINIMIZE_SORT) Collections.sort(goals); Set covered = new LinkedHashSet(); List minimizedTests = new ArrayList(); TestSuiteWriter minimizedSuite = new TestSuiteWriter(); for (TestFitnessFunction goal : goals) { updateClientStatus(numGoals > 0 ? 100 * currentGoal / numGoals : 100); currentGoal++; if (isTimeoutReached()) { /* * FIXME: if timeout, this algorithm should be changed in a way that the modifications * done so far are not lost */ logger.warn("Minimization timeout. Roll back to original test suite"); return; } logger.info("Considering goal: " + goal); if (Properties.MINIMIZE_SKIP_COINCIDENTAL) { for (TestChromosome test : minimizedTests) { if (isTimeoutReached()) { logger.warn("Minimization timeout. Roll back to original test suite"); return; } if (goal.isCovered(test)) { logger.info("Covered by minimized test: " + goal); covered.add(goal); //test.getTestCase().addCoveredGoal(goal); // FIXME why? goal.isCovered(test) is already adding the goal break; } } } if (covered.contains(goal)) { logger.info("Already covered: " + goal); logger.info("Now the suite covers " + covered.size() + "/" + goals.size() + " goals"); continue; } List coveringTests = new ArrayList(); for (TestChromosome test : suite.getTestChromosomes()) { if (goal.isCovered(test)) { coveringTests.add(test); } } Collections.sort(coveringTests); if (!coveringTests.isEmpty()) { TestChromosome test = coveringTests.get(0); org.evosuite.testcase.TestCaseMinimizer minimizer = new org.evosuite.testcase.TestCaseMinimizer( goal); TestChromosome copy = (TestChromosome) test.clone(); minimizer.minimize(copy); if (isTimeoutReached()) { logger.warn("Minimization timeout. Roll back to original test suite"); return; } // TODO: Need proper list of covered goals copy.getTestCase().clearCoveredGoals(); // Add ALL goals covered by the minimized test for (TestFitnessFunction g : goals) { if (g.isCovered(copy)) { // isCovered(copy) adds the goal covered.add(g); logger.info("Goal covered by minimized test: " + g); } } minimizedTests.add(copy); minimizedSuite.insertTest(copy.getTestCase()); logger.info("After new test the suite covers " + covered.size() + "/" + goals.size() + " goals"); } else { logger.info("Goal is not covered: " + goal); } } logger.info("Minimized suite covers " + covered.size() + "/" + goals.size() + " goals"); suite.tests.clear(); for (TestCase test : minimizedSuite.getTestCases()) { suite.addTest(test); } if (Properties.MINIMIZE_SECOND_PASS) { removeRedundantTestCases(suite, goals); } double suiteCoverage = suite.getCoverage(); logger.info("Setting coverage to: " + suiteCoverage); ClientState state = ClientState.MINIMIZATION; ClientStateInformation information = new ClientStateInformation(state); information.setProgress(100); information.setCoverage((int) (Math.round(suiteCoverage * 100))); ClientServices.getInstance().getClientNode().changeState(state, information); for (TestFitnessFunction goal : goals) { if (!covered.contains(goal)) logger.info("Failed to cover: " + goal); } // suite.tests = minimizedTests; } private boolean isTimeoutReached() { return !TimeController.getInstance().isThereStillTimeInThisPhase(); } /** * Minimize test suite with respect to the isCovered Method of the goals * defined by the supplied TestFitnessFactory * * @param suite a {@link org.evosuite.testsuite.TestSuiteChromosome} object. */ private void minimizeSuite(TestSuiteChromosome suite) { // Remove previous results as they do not contain method calls // in the case of whole suite generation for (ExecutableChromosome test : suite.getTestChromosomes()) { test.setChanged(true); test.clearCachedResults(); } SecondaryObjective strategy = Properties.SECONDARY_OBJECTIVE[0]; boolean size = false; if (strategy.equals("size")) { size = true; // If we want to remove tests, start with shortest Collections.sort(suite.tests, new Comparator() { @Override public int compare(TestChromosome chromosome1, TestChromosome chromosome2) { return chromosome1.size() - chromosome2.size(); } }); } else if (strategy.equals("maxlength")) { // If we want to remove the longest test, start with longest Collections.sort(suite.tests, new Comparator() { @Override public int compare(TestChromosome chromosome1, TestChromosome chromosome2) { return chromosome2.size() - chromosome1.size(); } }); } List goals = new ArrayList(); List fitness = new ArrayList(); for (TestFitnessFactory ff : testFitnessFactories) { goals.addAll(ff.getCoverageGoals()); fitness.add(ff.getFitness(suite)); } boolean changed = true; while (changed && !isTimeoutReached()) { changed = false; removeEmptyTestCases(suite); for (TestChromosome testChromosome : suite.tests) { if (isTimeoutReached()) break; for (int i = testChromosome.size() - 1; i >= 0; i--) { if (isTimeoutReached()) break; logger.debug("Current size: " + suite.size() + "/" + suite.totalLengthOfTestCases()); logger.debug("Deleting statement " + testChromosome.getTestCase().getStatement(i).getCode() + " from test"); TestChromosome originalTestChromosome = (TestChromosome) testChromosome.clone(); boolean modified = false; try { TestFactory testFactory = TestFactory.getInstance(); modified = testFactory.deleteStatementGracefully(testChromosome.getTestCase(), i); } catch (ConstructionFailedException e) { modified = false; } if(!modified){ testChromosome.setChanged(false); testChromosome.setTestCase(originalTestChromosome.getTestCase()); logger.debug("Deleting failed"); continue; } testChromosome.setChanged(true); testChromosome.getTestCase().clearCoveredGoals(); List modifiedVerFitness = new ArrayList(); for (TestFitnessFactory ff : testFitnessFactories) modifiedVerFitness.add(ff.getFitness(suite)); int compare_ff = 0; for (int i_fit = 0; i_fit < modifiedVerFitness.size(); i_fit++) { if (Double.compare(modifiedVerFitness.get(i_fit), fitness.get(i_fit)) < 0) { compare_ff = -1; // new value is lower than previous one break; } else if (Double.compare(modifiedVerFitness.get(i_fit), fitness.get(i_fit)) > 0) { compare_ff = 1; // new value is greater than previous one break; } } // the value 0 if d1 (previous fitness) is numerically equal to d2 (new fitness) if (compare_ff == 0) { continue; // if we can guarantee that we have the same fitness value with less statements, better } else if (compare_ff < -1) // a value less than 0 if d1 is numerically less than d2 { fitness = modifiedVerFitness; changed = true; /** * This means, that we try to delete statements equally * from each test case (If size is 'false'.) The hope is * that the median length of the test cases is shorter, * as opposed to the average length. */ if (!size) break; } // and a value greater than 0 if d1 is numerically greater than d2 else if (compare_ff == 1) { // Restore previous state logger.debug("Can't remove statement " + originalTestChromosome.getTestCase().getStatement(i).getCode()); logger.debug("Restoring fitness from " + modifiedVerFitness + " to " + fitness); testChromosome.setTestCase(originalTestChromosome.getTestCase()); testChromosome.setLastExecutionResult(originalTestChromosome.getLastExecutionResult()); testChromosome.setChanged(false); } } } } this.removeEmptyTestCases(suite); this.removeRedundantTestCases(suite, goals); } private void removeEmptyTestCases(TestSuiteChromosome suite) { Iterator it = suite.tests.iterator(); while (it.hasNext()) { ExecutableChromosome test = it.next(); if (test.size() == 0) { logger.debug("Removing empty test case"); it.remove(); } } } private void removeRedundantTestCases(TestSuiteChromosome suite, List goals) { // Subsuming tests are inserted in the back, so we start inserting the final tests from there List tests = suite.getTestChromosomes(); logger.debug("Before removing redundant tests: " + tests.size()); Collections.reverse(tests); List finalTests = new ArrayList(); Set coveredGoals = new LinkedHashSet(); for (TestChromosome test : tests) { boolean addsNewGoals = false; for (TestFitnessFunction goal : goals) { if (!coveredGoals.contains(goal)) { if (goal.isCovered(test)) { addsNewGoals = true; coveredGoals.add(goal); } } } if (addsNewGoals) { coveredGoals.addAll(test.getTestCase().getCoveredGoals()); finalTests.add(test); } } Collections.reverse(finalTests); suite.getTestChromosomes().clear(); suite.getTestChromosomes().addAll(finalTests); logger.debug("After removing redundant tests: " + tests.size()); } }




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