public void ReductionTestBig() { int[,] actualWeights = GenerateMatrixWithValue(sizeN: 6, value: 0); // some random values that change nothing actualWeights[0, 2] = 3; actualWeights[1, 3] = 6; actualWeights[1, 5] = 1; actualWeights[3, 1] = 13; actualWeights[3, 5] = 3; actualWeights[5, 0] = 0; actualWeights[5, 1] = 8; // minimum value in this row - 4 actualWeights[4, 0] = Infinity; actualWeights[4, 1] = 22; actualWeights[4, 2] = Infinity; actualWeights[4, 3] = 23; actualWeights[4, 4] = Infinity; actualWeights[4, 5] = 4; const int expectedReductionResult = 4; int[,] expectedWeights = (int[, ])actualWeights.Clone(); for (int i = 0; i < 6; i++) { expectedWeights[4, i] -= expectedReductionResult; } int actualReductionResult = BranchAndBound.Reduction(actualWeights); Assert.Equal(expectedReductionResult, actualReductionResult); Assert.True(actualWeights.AreDeepEqual(expectedWeights)); }
public void ReductionTestSmall() { int[,] actualWeights = GenerateSampleWeights(); int[,] expectedWeights = new int[3, 3]; expectedWeights[0, 0] = Infinity; expectedWeights[0, 1] = 0; expectedWeights[0, 2] = 0; expectedWeights[1, 0] = 0; expectedWeights[1, 1] = Infinity; expectedWeights[1, 2] = 0; expectedWeights[2, 0] = 1; expectedWeights[2, 1] = 0; expectedWeights[2, 2] = Infinity; const int expectedReductionResult = 11; int actualReductionResult = BranchAndBound.Reduction(actualWeights); Assert.Equal(expectedReductionResult, actualReductionResult); // test does not care about the main diagonal SetMainDiagonal(actualWeights, Infinity); Assert.True(actualWeights.AreDeepEqual(expectedWeights)); }