IGLib  1.7.2
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IG.Test.TestMatrixDecompositonMathNet Class Reference

Unit tests for matrix decompositions from MathDotNet library. More...

Public Member Functions

void AccessOutOfRangeMatrix1 ()
 
void LU_MathNet ()
 Unit test for testing correctness of the LU decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void Cholesky_MathNet ()
 Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void QR_MathNet ()
 Unit test for testing correctness of the QR decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void Eigen_MathNet ()
 Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void AccessOutOfRangeMatrix1 ()
 
void LU_MathNet ()
 Unit test for testing correctness of the LU decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void Cholesky_MathNet ()
 Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void QR_MathNet ()
 Unit test for testing correctness of the QR decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 
void Eigen_MathNet ()
 Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant). More...
 

Detailed Description

Unit tests for matrix decompositions from MathDotNet library.

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Member Function Documentation

void IG.Test.TestMatrixDecompositonMathNet.AccessOutOfRangeMatrix1 ( )
inline

References IG.Num.A.

void IG.Test.TestMatrixDecompositonMathNet.LU_MathNet ( )
inline

Unit test for testing correctness of the LU decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomInvertible(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.Cholesky_MathNet ( )
inline

Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, IG.Num.MatrixBase.IsSymmetric(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomPositiveDefiniteSymmetric(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.QR_MathNet ( )
inline

Unit test for testing correctness of the QR decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomInvertible(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.Eigen_MathNet ( )
inline

Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, IG.Num.MatrixBase.IsSymmetric(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomPositiveDefiniteSymmetric(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.AccessOutOfRangeMatrix1 ( )
inline
void IG.Test.TestMatrixDecompositonMathNet.LU_MathNet ( )
inline

Unit test for testing correctness of the LU decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, NUnit.Framework.Assert.AreEqual(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomInvertible(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.Cholesky_MathNet ( )
inline

Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, NUnit.Framework.Assert.AreEqual(), IG.Num.MatrixBase.IsSymmetric(), NUnit.Framework.Assert.IsTrue(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomPositiveDefiniteSymmetric(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.QR_MathNet ( )
inline

Unit test for testing correctness of the QR decomposition of a matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, NUnit.Framework.Assert.AreEqual(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomInvertible(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().

void IG.Test.TestMatrixDecompositonMathNet.Eigen_MathNet ( )
inline

Unit test for testing correctness of the Cholesky (LLT) decomposition of a symmetric positive definite matrix and of operations performed with such decomposition (solution of system of equations, matrix inversion, determinant).

References IG.Num.A, NUnit.Framework.Assert.AreEqual(), IG.Num.MatrixBase.IsSymmetric(), NUnit.Framework.Assert.IsTrue(), IG.Num.MatrixBase.Multiply(), IG.Num.MatrixBase.NormForbenius, IG.Num.MatrixBase.SetIdentity(), IG.Num.VectorBase.SetRandom(), IG.Num.MatrixBase.SetRandomPositiveDefiniteSymmetric(), IG.Num.MatrixBase.SetZero(), IG.Num.VectorBase.Subtract(), and IG.Num.MatrixBase.Subtract().


The documentation for this class was generated from the following file: