public CpuMathUtilsUnitTests() { // Padded array whose length is a multiple of 4 float[] testArray1 = new float[16] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f }; // Unpadded array whose length is not a multiple of 4. float[] testArray2 = new float[15] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f }; _testArrays = new float[][] { testArray1, testArray2 }; _testIndexArray = new int[9] { 0, 2, 5, 6, 8, 11, 12, 13, 14 }; _comparer = new FloatEqualityComparer(); _matMulComparer = new FloatEqualityComparerForMatMul(); // Padded matrices whose dimensions are multiples of 8 float[] testMatrix1 = new float[8 * 8] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f }; float[] testMatrix2 = new float[8 * 16]; for (int i = 0; i < testMatrix2.Length; i++) { testMatrix2[i] = i + 1; } _testMatrices = new float[][] { testMatrix1, testMatrix2 }; // Padded source vectors whose dimensions are multiples of 8 float[] testSrcVector1 = new float[8] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f }; float[] testSrcVector2 = new float[16] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f, 16f }; _testSrcVectors = new float[][] { testSrcVector1, testSrcVector2 }; // Padded destination vectors whose dimensions are multiples of 8 float[] testDstVector1 = new float[8] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f }; float[] testDstVector2 = new float[16] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f }; _testDstVectors = new float[][] { testDstVector1, testDstVector2 }; }
static CpuMathUtilsUnitTests() { // Padded array whose length is a multiple of 4 float[] testArray1 = new float[16] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f }; // Unpadded array whose length is not a multiple of 4. float[] testArray2 = new float[15] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f }; _testArrays = new float[][] { testArray1, testArray2 }; _testIndexArray = new int[9] { 0, 2, 5, 6, 8, 11, 12, 13, 14 }; _comparer = new FloatEqualityComparer(); _matMulComparer = new FloatEqualityComparerForMatMul(); // Padded matrices whose dimensions are multiples of 8 float[] testMatrix1 = new float[8 * 8] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f }; float[] testMatrix2 = new float[8 * 16]; for (int i = 0; i < testMatrix2.Length; i++) { testMatrix2[i] = i + 1; } AlignedArray testMatrixAligned1 = new AlignedArray(8 * 8, _vectorAlignment); AlignedArray testMatrixAligned2 = new AlignedArray(8 * 16, _vectorAlignment); testMatrixAligned1.CopyFrom(testMatrix1); testMatrixAligned2.CopyFrom(testMatrix2); _testMatrices = new AlignedArray[] { testMatrixAligned1, testMatrixAligned2 }; // Padded source vectors whose dimensions are multiples of 8 float[] testSrcVector1 = new float[8] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f }; float[] testSrcVector2 = new float[16] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f, 16f }; AlignedArray testSrcVectorAligned1 = new AlignedArray(8, _vectorAlignment); AlignedArray testSrcVectorAligned2 = new AlignedArray(16, _vectorAlignment); testSrcVectorAligned1.CopyFrom(testSrcVector1); testSrcVectorAligned2.CopyFrom(testSrcVector2); _testSrcVectors = new AlignedArray[] { testSrcVectorAligned1, testSrcVectorAligned2 }; // Padded destination vectors whose dimensions are multiples of 8 float[] testDstVector1 = new float[8] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f }; float[] testDstVector2 = new float[16] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f }; AlignedArray testDstVectorAligned1 = new AlignedArray(8, _vectorAlignment); AlignedArray testDstVectorAligned2 = new AlignedArray(16, _vectorAlignment); testDstVectorAligned1.CopyFrom(testDstVector1); testDstVectorAligned2.CopyFrom(testDstVector2); _testDstVectors = new AlignedArray[] { testDstVectorAligned1, testDstVectorAligned2 }; #if NETCOREAPP3_0 DisableAvxEnvironmentVariables = new Dictionary <string, string>() { { disableAvx, "0" } }; DisableAvxAndSseEnvironmentVariables = new Dictionary <string, string>() { { disableAvx, "0" }, { disableSse, "0" } }; #endif }
static CpuMathUtilsUnitTests() { // Padded array whose length is a multiple of 4 float[] testArray1 = new float[32] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f, 16f }; // Unpadded array whose length is not a multiple of 4. float[] testArray2 = new float[30] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f }; // Small Input Size Array float[] testArray3 = new float[15] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f }; _testArrays = new float[][] { testArray1, testArray2, testArray3 }; _testIndexArray = new int[18] { 0, 2, 5, 6, 8, 11, 12, 13, 14, 16, 18, 21, 22, 24, 26, 27, 28, 29 }; _comparer = new FloatEqualityComparer(); _matMulComparer = new FloatEqualityComparerForMatMul(); // Padded matrices whose dimensions are multiples of 8 float[] testMatrix1 = new float[8 * 8] { 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f, 1.96f, -2.38f, -9.76f, 13.84f, -106.37f, -26.93f, 32.45f, 3.29f }; float[] testMatrix2 = new float[8 * 16]; for (int i = 0; i < testMatrix2.Length; i++) { testMatrix2[i] = i + 1; } AlignedArray testMatrixAligned1 = new AlignedArray(8 * 8, _vectorAlignment); AlignedArray testMatrixAligned2 = new AlignedArray(8 * 16, _vectorAlignment); testMatrixAligned1.CopyFrom(testMatrix1); testMatrixAligned2.CopyFrom(testMatrix2); _testMatrices = new AlignedArray[] { testMatrixAligned1, testMatrixAligned2 }; // Padded source vectors whose dimensions are multiples of 8 float[] testSrcVector1 = new float[8] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f }; float[] testSrcVector2 = new float[16] { 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f, 16f }; AlignedArray testSrcVectorAligned1 = new AlignedArray(8, _vectorAlignment); AlignedArray testSrcVectorAligned2 = new AlignedArray(16, _vectorAlignment); testSrcVectorAligned1.CopyFrom(testSrcVector1); testSrcVectorAligned2.CopyFrom(testSrcVector2); _testSrcVectors = new AlignedArray[] { testSrcVectorAligned1, testSrcVectorAligned2 }; // Padded destination vectors whose dimensions are multiples of 8 float[] testDstVector1 = new float[8] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f }; float[] testDstVector2 = new float[16] { 0f, 1f, 2f, 3f, 4f, 5f, 6f, 7f, 8f, 9f, 10f, 11f, 12f, 13f, 14f, 15f }; AlignedArray testDstVectorAligned1 = new AlignedArray(8, _vectorAlignment); AlignedArray testDstVectorAligned2 = new AlignedArray(16, _vectorAlignment); testDstVectorAligned1.CopyFrom(testDstVector1); testDstVectorAligned2.CopyFrom(testDstVector2); _testDstVectors = new AlignedArray[] { testDstVectorAligned1, testDstVectorAligned2 }; if ((SkipAvxSse || IsNetCore) && !IsNetCore2OrOlder) { _disableAvxEnvironmentVariables = new Dictionary <string, string>() { { _disableAvx, "0" } }; _disableAvxAndSseEnvironmentVariables = new Dictionary <string, string>() { { _disableAvx, "0" }, { _disableSse, "0" } }; } }