Class CholeskyDecomposition
- java.lang.Object
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- org.apache.commons.math4.legacy.linear.CholeskyDecomposition
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public class CholeskyDecomposition extends Object
Calculates the Cholesky decomposition of a matrix.The Cholesky decomposition of a real symmetric positive-definite matrix A consists of a lower triangular matrix L with same size such that: A = LLT. In a sense, this is the square root of A.
This class is based on the class with similar name from the JAMA library, with the following changes:
- a
getLT
method has been added, - the
isspd
method has been removed, since the constructor of this class throws aNonPositiveDefiniteMatrixException
when a matrix cannot be decomposed, - a
getDeterminant
method has been added, - the
solve
method has been replaced by agetSolver
method and the equivalent method provided by the returnedDecompositionSolver
.
- a
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Field Summary
Fields Modifier and Type Field Description static double
DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
Default threshold below which diagonal elements are considered null and matrix not positive definite.static double
DEFAULT_RELATIVE_SYMMETRY_THRESHOLD
Default threshold above which off-diagonal elements are considered too different and matrix not symmetric.
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Constructor Summary
Constructors Constructor Description CholeskyDecomposition(RealMatrix matrix)
Calculates the Cholesky decomposition of the given matrix.CholeskyDecomposition(RealMatrix matrix, double relativeSymmetryThreshold, double absolutePositivityThreshold)
Calculates the Cholesky decomposition of the given matrix.
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description double
getDeterminant()
Return the determinant of the matrix.RealMatrix
getL()
Returns the matrix L of the decomposition.RealMatrix
getLT()
Returns the transpose of the matrix L of the decomposition.DecompositionSolver
getSolver()
Get a solver for finding the A × X = B solution in least square sense.
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Field Detail
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DEFAULT_RELATIVE_SYMMETRY_THRESHOLD
public static final double DEFAULT_RELATIVE_SYMMETRY_THRESHOLD
Default threshold above which off-diagonal elements are considered too different and matrix not symmetric.- See Also:
- Constant Field Values
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DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
public static final double DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
Default threshold below which diagonal elements are considered null and matrix not positive definite.- See Also:
- Constant Field Values
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Constructor Detail
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CholeskyDecomposition
public CholeskyDecomposition(RealMatrix matrix)
Calculates the Cholesky decomposition of the given matrix.Calling this constructor is equivalent to call
CholeskyDecomposition(RealMatrix, double, double)
with the thresholds set to the default valuesDEFAULT_RELATIVE_SYMMETRY_THRESHOLD
andDEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
- Parameters:
matrix
- the matrix to decompose- Throws:
NonSquareMatrixException
- if the matrix is not square.NonSymmetricMatrixException
- if the matrix is not symmetric.NonPositiveDefiniteMatrixException
- if the matrix is not strictly positive definite.- See Also:
CholeskyDecomposition(RealMatrix, double, double)
,DEFAULT_RELATIVE_SYMMETRY_THRESHOLD
,DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
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CholeskyDecomposition
public CholeskyDecomposition(RealMatrix matrix, double relativeSymmetryThreshold, double absolutePositivityThreshold)
Calculates the Cholesky decomposition of the given matrix.- Parameters:
matrix
- the matrix to decomposerelativeSymmetryThreshold
- threshold above which off-diagonal elements are considered too different and matrix not symmetricabsolutePositivityThreshold
- threshold below which diagonal elements are considered null and matrix not positive definite- Throws:
NonSquareMatrixException
- if the matrix is not square.NonSymmetricMatrixException
- if the matrix is not symmetric.NonPositiveDefiniteMatrixException
- if the matrix is not strictly positive definite.- See Also:
CholeskyDecomposition(RealMatrix)
,DEFAULT_RELATIVE_SYMMETRY_THRESHOLD
,DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
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Method Detail
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getL
public RealMatrix getL()
Returns the matrix L of the decomposition.L is an lower-triangular matrix
- Returns:
- the L matrix
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getLT
public RealMatrix getLT()
Returns the transpose of the matrix L of the decomposition.LT is an upper-triangular matrix
- Returns:
- the transpose of the matrix L of the decomposition
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getDeterminant
public double getDeterminant()
Return the determinant of the matrix.- Returns:
- determinant of the matrix
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getSolver
public DecompositionSolver getSolver()
Get a solver for finding the A × X = B solution in least square sense.- Returns:
- a solver
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