C# (CSharp) LinearAlgebra.Double.Matrix 예제들

프로그래밍 언어: C# (CSharp)

hotexamples.com에서의 예제들: 2

C# (CSharp) LinearAlgebra.Double.Matrix - 2개의 예제가 발견되었습니다. 이것들은 오픈소스 프로젝트에서 추출된 C# (CSharp)의 LinearAlgebra.Double.Matrix에 대한 실세계 최고 등급의 예제들입니다. 예제들을 평가하여 예제의 품질 향상에 도움을 줄 수 있습니다.

예제 #1

파일 보기

        public void CanWriteDoubleMatrices()
        {
            var mat1 = new LinearAlgebra.Double.DenseMatrix(5, 3);

            for (var i = 0; i < mat1.ColumnCount; i++)
            {
                mat1[i, i] = i + .1;
            }

            var mat2 = new LinearAlgebra.Double.DenseMatrix(4, 5);

            for (var i = 0; i < mat2.RowCount; i++)
            {
                mat2[i, i] = i + .1;
            }

            var mat3 = new LinearAlgebra.Double.SparseMatrix(5, 4);

            mat3[0, 0] = 1.1;
            mat3[0, 2] = 2.2;
            mat3[4, 3] = 3.3;

            var mat4 = new LinearAlgebra.Double.SparseMatrix(3, 5);

            mat4[0, 0] = 1.1;
            mat4[0, 2] = 2.2;
            mat4[2, 4] = 3.3;

            var write = new LinearAlgebra.Double.Matrix[] { mat1, mat2, mat3, mat4 };

            var names = new[] { "mat1", "dense_matrix_2", "s1", "sparse2" };

            if (File.Exists("testd.mat"))
            {
                File.Delete("testd.mat");
            }

            var writer = new MatlabMatrixWriter("testd.mat");

            writer.WriteMatrices(write, names);
            writer.Dispose();

            var reader = new MatlabMatrixReader <double>("testd.mat");
            var read   = reader.ReadMatrices(names);

            Assert.AreEqual(write.Length, read.Count);

            for (var i = 0; i < write.Length; i++)
            {
                var w = write[i];
                var r = read[names[i]];

                Assert.AreEqual(w.RowCount, r.RowCount);
                Assert.AreEqual(w.ColumnCount, r.ColumnCount);
                Assert.IsTrue(w.Equals(r));
            }
        }

예제 #2

파일 보기

파일: MatlabWriterTests.cs 프로젝트: transformersprimeabcxyz/mathnet-numerics-data-mathnet

        public void CanWriteDoubleMatrices()
        {
            var mat1 = new LinearAlgebra.Double.DenseMatrix(5, 3);
            for (var i = 0; i < mat1.ColumnCount; i++)
            {
                mat1[i, i] = i + .1;
            }

            var mat2 = new LinearAlgebra.Double.DenseMatrix(4, 5);
            for (var i = 0; i < mat2.RowCount; i++)
            {
                mat2[i, i] = i + .1;
            }

            var mat3 = new LinearAlgebra.Double.SparseMatrix(5, 4);
            mat3[0, 0] = 1.1;
            mat3[0, 2] = 2.2;
            mat3[4, 3] = 3.3;

            var mat4 = new LinearAlgebra.Double.SparseMatrix(3, 5);
            mat4[0, 0] = 1.1;
            mat4[0, 2] = 2.2;
            mat4[2, 4] = 3.3;

            var write = new LinearAlgebra.Double.Matrix[] { mat1, mat2, mat3, mat4 };

            var names = new[] { "mat1", "dense_matrix_2", "s1", "sparse2" };
            if (File.Exists("testd.mat"))
            {
                File.Delete("testd.mat");
            }

            var writer = new MatlabMatrixWriter("testd.mat");
            writer.WriteMatrices(write, names);
            writer.Dispose();

            var reader = new MatlabMatrixReader<double>("testd.mat");
            var read = reader.ReadMatrices(names);

            Assert.AreEqual(write.Length, read.Count);

            for (var i = 0; i < write.Length; i++)
            {
                var w = write[i];
                var r = read[names[i]];

                Assert.AreEqual(w.RowCount, r.RowCount);
                Assert.AreEqual(w.ColumnCount, r.ColumnCount);
                Assert.IsTrue(w.Equals(r));
            }
        }