#region License Information /* HeuristicLab * Copyright (C) 2002-2011 Heuristic and Evolutionary Algorithms Laboratory (HEAL) * * This file is part of HeuristicLab. * * HeuristicLab is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * HeuristicLab 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with HeuristicLab. If not, see . */ #endregion using System; using HeuristicLab.Common; using HeuristicLab.Data; using HeuristicLab.Encodings.PermutationEncoding; using HeuristicLab.Random; using Microsoft.VisualStudio.TestTools.UnitTesting; namespace HeuristicLab.Problems.QuadraticAssignment.Tests_33 { /// ///This is a test class for the QAP move evaluators /// [TestClass()] public class QAPSwapMoveEvaluatorTest { private const int ProblemSize = 10; private static DoubleMatrix symmetricDistances, symmetricWeights, asymmetricDistances, asymmetricWeights, nonZeroDiagonalWeights, nonZeroDiagonalDistances; private static Permutation assignment; private static MersenneTwister random; private TestContext testContextInstance; /// ///Gets or sets the test context which provides ///information about and functionality for the current test run. /// public TestContext TestContext { get { return testContextInstance; } set { testContextInstance = value; } } [ClassInitialize] public static void MyClassInitialize(TestContext testContext) { random = new MersenneTwister(); symmetricDistances = new DoubleMatrix(ProblemSize, ProblemSize); symmetricWeights = new DoubleMatrix(ProblemSize, ProblemSize); asymmetricDistances = new DoubleMatrix(ProblemSize, ProblemSize); asymmetricWeights = new DoubleMatrix(ProblemSize, ProblemSize); nonZeroDiagonalDistances = new DoubleMatrix(ProblemSize, ProblemSize); nonZeroDiagonalWeights = new DoubleMatrix(ProblemSize, ProblemSize); for (int i = 0; i < ProblemSize - 1; i++) { for (int j = i + 1; j < ProblemSize; j++) { symmetricDistances[i, j] = random.Next(ProblemSize * 100); symmetricDistances[j, i] = symmetricDistances[i, j]; symmetricWeights[i, j] = random.Next(ProblemSize * 100); symmetricWeights[j, i] = symmetricWeights[i, j]; asymmetricDistances[i, j] = random.Next(ProblemSize * 100); asymmetricDistances[j, i] = random.Next(ProblemSize * 100); asymmetricWeights[i, j] = random.Next(ProblemSize * 100); asymmetricWeights[j, i] = random.Next(ProblemSize * 100); nonZeroDiagonalDistances[i, j] = random.Next(ProblemSize * 100); nonZeroDiagonalDistances[j, i] = random.Next(ProblemSize * 100); nonZeroDiagonalWeights[i, j] = random.Next(ProblemSize * 100); nonZeroDiagonalWeights[j, i] = random.Next(ProblemSize * 100); } nonZeroDiagonalDistances[i, i] = random.Next(ProblemSize * 100); nonZeroDiagonalWeights[i, i] = random.Next(ProblemSize * 100); } int index = random.Next(ProblemSize); if (nonZeroDiagonalDistances[index, index] == 0) nonZeroDiagonalDistances[index, index] = random.Next(1, ProblemSize * 100); index = random.Next(ProblemSize); if (nonZeroDiagonalWeights[index, index] == 0) nonZeroDiagonalWeights[index, index] = random.Next(1, ProblemSize * 100); assignment = new Permutation(PermutationTypes.Absolute, ProblemSize, random); } [TestMethod] public void Swap2MoveEvaluatorFastEvaluationTest() { for (int i = 0; i < 500; i++) { Swap2Move lastMove = new Swap2Move(random.Next(ProblemSize), random.Next(ProblemSize)); Permutation prevAssignment = (Permutation)assignment.Clone(); Swap2Manipulator.Apply(assignment, lastMove.Index1, lastMove.Index2); Permutation nextAssignment = (Permutation)assignment.Clone(); Swap2Move currentMove = new Swap2Move(random.Next(ProblemSize), random.Next(ProblemSize)); Swap2Manipulator.Apply(nextAssignment, currentMove.Index1, currentMove.Index2); double moveBefore = QAPSwap2MoveEvaluator.Apply(prevAssignment, currentMove, symmetricWeights, symmetricDistances); double moveAfter = QAPSwap2MoveEvaluator.Apply(assignment, currentMove, moveBefore, symmetricWeights, symmetricDistances, lastMove); double before = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); double after = QAPEvaluator.Apply(nextAssignment, symmetricWeights, symmetricDistances); Assert.IsTrue(moveAfter.IsAlmost(after - before), "Failed on symmetric matrices: " + Environment.NewLine + "Quality changed from " + before + " to " + after + " (" + (after - before).ToString() + "), but move quality change was " + moveAfter + "."); moveBefore = QAPSwap2MoveEvaluator.Apply(prevAssignment, currentMove, asymmetricWeights, asymmetricDistances); moveAfter = QAPSwap2MoveEvaluator.Apply(assignment, currentMove, moveBefore, asymmetricWeights, asymmetricDistances, lastMove); before = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); after = QAPEvaluator.Apply(nextAssignment, asymmetricWeights, asymmetricDistances); Assert.IsTrue(moveAfter.IsAlmost(after - before), "Failed on asymmetric matrices: " + Environment.NewLine + "Quality changed from " + before + " to " + after + " (" + (after - before).ToString() + "), but move quality change was " + moveAfter + "."); moveBefore = QAPSwap2MoveEvaluator.Apply(prevAssignment, currentMove, nonZeroDiagonalWeights, nonZeroDiagonalDistances); moveAfter = QAPSwap2MoveEvaluator.Apply(assignment, currentMove, moveBefore, nonZeroDiagonalWeights, nonZeroDiagonalDistances, lastMove); before = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); after = QAPEvaluator.Apply(nextAssignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); Assert.IsTrue(moveAfter.IsAlmost(after - before), "Failed on non-zero diagonal matrices: " + Environment.NewLine + "Quality changed from " + before + " to " + after + " (" + (after - before).ToString() + "), but move quality change was " + moveAfter + "."); } } [TestMethod] public void Swap2MoveEvaluatorTest() { for (int i = 0; i < 500; i++) { int index1 = random.Next(ProblemSize); int index2 = random.Next(ProblemSize); // SYMMETRIC MATRICES double before = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); Swap2Manipulator.Apply(assignment, index1, index2); double after = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); double move = QAPSwap2MoveEvaluator.Apply(assignment, new Swap2Move(index1, index2, assignment), symmetricWeights, symmetricDistances); Assert.IsTrue(move.IsAlmost(before - after), "Failed on symmetric matrices"); // ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); Permutation clone = (Permutation)assignment.Clone(); Swap2Manipulator.Apply(assignment, index1, index2); after = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); move = QAPSwap2MoveEvaluator.Apply(clone, new Swap2Move(index1, index2), asymmetricWeights, asymmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on asymmetric matrices"); // NON-ZERO DIAGONAL ASSYMETRIC MATRICES before = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); clone = (Permutation)assignment.Clone(); Swap2Manipulator.Apply(assignment, index1, index2); after = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); move = QAPSwap2MoveEvaluator.Apply(clone, new Swap2Move(index1, index2), nonZeroDiagonalWeights, nonZeroDiagonalDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on non-zero diagonal matrices"); } } [TestMethod] public void InversionMoveEvaluatorTest() { for (int i = 0; i < 500; i++) { int index1 = random.Next(ProblemSize); int index2 = random.Next(ProblemSize); if (index1 > index2) { int h = index1; index1 = index2; index2 = h; } // SYMMETRIC MATRICES double before = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); InversionManipulator.Apply(assignment, Math.Min(index1, index2), Math.Max(index1, index2)); double after = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); double move = QAPInversionMoveEvaluator.Apply(assignment, new InversionMove(index1, index2, assignment), symmetricWeights, symmetricDistances); Assert.IsTrue(move.IsAlmost(before - after), "Failed on symmetric matrices"); // ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); Permutation clone = (Permutation)assignment.Clone(); InversionManipulator.Apply(assignment, index1, index2); after = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); move = QAPInversionMoveEvaluator.Apply(clone, new InversionMove(index1, index2), asymmetricWeights, asymmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on asymmetric matrices"); // NON-ZERO DIAGONAL ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); clone = (Permutation)assignment.Clone(); InversionManipulator.Apply(assignment, index1, index2); after = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); move = QAPInversionMoveEvaluator.Apply(clone, new InversionMove(index1, index2), nonZeroDiagonalWeights, nonZeroDiagonalDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on non-zero diagonal matrices"); } } [TestMethod] public void TranslocationMoveEvaluatorTest() { for (int i = 0; i < 500; i++) { int index1 = random.Next(assignment.Length - 1); int index2 = random.Next(index1 + 1, assignment.Length); int insertPointLimit = assignment.Length - index2 + index1 - 1; // get insertion point in remaining part int insertPoint; if (insertPointLimit > 0) insertPoint = random.Next(insertPointLimit); else insertPoint = 0; // SYMMETRIC MATRICES double before = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); Permutation clone = new Cloner().Clone(assignment); TranslocationManipulator.Apply(assignment, index1, index2, insertPoint); double after = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); double move = QAPTranslocationMoveEvaluator.Apply(clone, new TranslocationMove(index1, index2, insertPoint, assignment), symmetricWeights, symmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on symmetric matrices"); // ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); clone = new Cloner().Clone(assignment); TranslocationManipulator.Apply(assignment, index1, index2, insertPoint); after = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); move = QAPTranslocationMoveEvaluator.Apply(clone, new TranslocationMove(index1, index2, insertPoint, assignment), asymmetricWeights, asymmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on asymmetric matrices"); // NON-ZERO DIAGONAL ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); clone = new Cloner().Clone(assignment); TranslocationManipulator.Apply(assignment, index1, index2, insertPoint); after = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); move = QAPTranslocationMoveEvaluator.Apply(clone, new TranslocationMove(index1, index2, insertPoint, assignment), nonZeroDiagonalWeights, nonZeroDiagonalDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on non-zero diagonal matrices"); } } [TestMethod] public void ScrambleMoveEvaluatorTest() { for (int i = 0; i < 500; i++) { ScrambleMove scramble = StochasticScrambleMultiMoveGenerator.GenerateRandomMove(assignment, random); // SYMMETRIC MATRICES double before = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); double move = QAPScrambleMoveEvaluator.Apply(assignment, scramble, symmetricWeights, symmetricDistances); ScrambleManipulator.Apply(assignment, scramble.StartIndex, scramble.ScrambledIndices); double after = QAPEvaluator.Apply(assignment, symmetricWeights, symmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on symmetric matrices"); // ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); move = QAPScrambleMoveEvaluator.Apply(assignment, scramble, asymmetricWeights, asymmetricDistances); ScrambleManipulator.Apply(assignment, scramble.StartIndex, scramble.ScrambledIndices); after = QAPEvaluator.Apply(assignment, asymmetricWeights, asymmetricDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on asymmetric matrices"); // NON-ZERO DIAGONAL ASYMMETRIC MATRICES before = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); move = QAPScrambleMoveEvaluator.Apply(assignment, scramble, nonZeroDiagonalWeights, nonZeroDiagonalDistances); ScrambleManipulator.Apply(assignment, scramble.StartIndex, scramble.ScrambledIndices); after = QAPEvaluator.Apply(assignment, nonZeroDiagonalWeights, nonZeroDiagonalDistances); Assert.IsTrue(move.IsAlmost(after - before), "Failed on non-zero diagonal matrices"); } } } }