Uses of Interface
fr.cnes.sirius.patrius.math.linear.FieldMatrix

Packages that use FieldMatrix

Package	Description
fr.cnes.sirius.patrius.math.linear

Uses of FieldMatrix in fr.cnes.sirius.patrius.math.linear

Classes in fr.cnes.sirius.patrius.math.linear that implement FieldMatrix

Modifier and Type	Class and Description
class	AbstractFieldMatrix<T extends FieldElement<T>> Basic implementation of FieldMatrix methods regardless of the underlying storage.
class	Array2DRowFieldMatrix<T extends FieldElement<T>> Implementation of FieldMatrix using a FieldElement[][] array to store entries.
class	BlockFieldMatrix<T extends FieldElement<T>> Cache-friendly implementation of FieldMatrix using a flat arrays to store square blocks of the matrix.

Methods in fr.cnes.sirius.patrius.math.linear that return FieldMatrix

Modifier and Type	Method and Description
FieldMatrix<T>	AbstractFieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
FieldMatrix<T>	FieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
FieldMatrix<T>	BlockFieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
abstract FieldMatrix<T>	AbstractFieldMatrix.copy() Make a (deep) copy of this.
FieldMatrix<T>	FieldMatrix.copy() Make a (deep) copy of this.
FieldMatrix<T>	BlockFieldMatrix.copy() Make a (deep) copy of this.
FieldMatrix<T>	Array2DRowFieldMatrix.copy() Make a (deep) copy of this.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createColumnFieldMatrix(T[] columnData) Creates a column FieldMatrix using the data from the input array.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createFieldDiagonalMatrix(T[] diagonal) Returns a diagonal matrix with specified elements.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createFieldIdentityMatrix(Field<T> field, int dimension) Returns dimension x dimension identity matrix.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createFieldMatrix(Field<T> field, int rows, int columns) Returns a FieldMatrix with specified dimensions.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createFieldMatrix(T[][] data) Returns a FieldMatrix whose entries are the the values in the the input array.
abstract FieldMatrix<T>	AbstractFieldMatrix.createMatrix(int rowDimension, int columnDimension) Create a new FieldMatrix of the same type as the instance with the supplied row and column dimensions.
FieldMatrix<T>	FieldMatrix.createMatrix(int rowDimension, int columnDimension) Create a new FieldMatrix of the same type as the instance with the supplied row and column dimensions.
FieldMatrix<T>	BlockFieldMatrix.createMatrix(int rowDimension, int columnDimension) Create a new FieldMatrix of the same type as the instance with the supplied row and column dimensions.
FieldMatrix<T>	Array2DRowFieldMatrix.createMatrix(int rowDimension, int columnDimension) Create a new FieldMatrix of the same type as the instance with the supplied row and column dimensions.
static <T extends FieldElement<T>> FieldMatrix<T>	MatrixUtils.createRowFieldMatrix(T[] rowData) Create a row FieldMatrix using the data from the input array.
FieldMatrix<T>	AbstractFieldMatrix.getColumnMatrix(int column) Get the entries in column number column as a column matrix.
FieldMatrix<T>	FieldMatrix.getColumnMatrix(int column) Get the entries in column number column as a column matrix.
FieldMatrix<T>	BlockFieldMatrix.getColumnMatrix(int column) Get the entries in column number column as a column matrix.
FieldMatrix<T>	FieldDecompositionSolver.getInverse() Get the inverse (or pseudo-inverse) of the decomposed matrix.
FieldMatrix<T>	FieldLUDecomposition.getL() Returns the matrix L of the decomposition.
FieldMatrix<T>	FieldLUDecomposition.getP() Returns the P rows permutation matrix.
FieldMatrix<T>	AbstractFieldMatrix.getRowMatrix(int row) Get the entries in row number row as a row matrix.
FieldMatrix<T>	FieldMatrix.getRowMatrix(int row) Get the entries in row number row as a row matrix.
FieldMatrix<T>	BlockFieldMatrix.getRowMatrix(int row) Get the entries in row number row as a row matrix.
FieldMatrix<T>	AbstractFieldMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns) Get a submatrix.
FieldMatrix<T>	FieldMatrix.getSubMatrix(int[] selectedRows, int[] selectedColumns) Get a submatrix.
FieldMatrix<T>	AbstractFieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn) Get a submatrix.
FieldMatrix<T>	FieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn) Get a submatrix.
FieldMatrix<T>	BlockFieldMatrix.getSubMatrix(int startRow, int endRow, int startColumn, int endColumn) Get a submatrix.
FieldMatrix<T>	FieldLUDecomposition.getU() Returns the matrix U of the decomposition.
FieldMatrix<T>	AbstractFieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	FieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	BlockFieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	ArrayFieldVector.outerProduct(ArrayFieldVector<T> v) Compute the outer product.
FieldMatrix<T>	ArrayFieldVector.outerProduct(FieldVector<T> v) Compute the outer product.
FieldMatrix<T>	FieldVector.outerProduct(FieldVector<T> v) Compute the outer product.
FieldMatrix<T>	AbstractFieldMatrix.power(int p) Returns the result multiplying this with itself p times.
FieldMatrix<T>	FieldMatrix.power(int p) Returns the result multiplying this with itself p times.
FieldMatrix<T>	AbstractFieldMatrix.preMultiply(FieldMatrix<T> m) Premultiply this matrix by m.
FieldMatrix<T>	FieldMatrix.preMultiply(FieldMatrix<T> m) Premultiply this matrix by m.
FieldMatrix<T>	AbstractFieldMatrix.scalarAdd(T d) Increment each entry of this matrix.
FieldMatrix<T>	FieldMatrix.scalarAdd(T d) Increment each entry of this matrix.
FieldMatrix<T>	BlockFieldMatrix.scalarAdd(T d) Increment each entry of this matrix.
FieldMatrix<T>	AbstractFieldMatrix.scalarMultiply(T d) Multiply each entry by d.
FieldMatrix<T>	FieldMatrix.scalarMultiply(T d) Multiply each entry by d.
FieldMatrix<T>	BlockFieldMatrix.scalarMultiply(T d) Multiply each entry by d.
FieldMatrix<T>	FieldDecompositionSolver.solve(FieldMatrix<T> b) Solve the linear equation A × X = B for matrices A.
FieldMatrix<T>	AbstractFieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.
FieldMatrix<T>	FieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.
FieldMatrix<T>	BlockFieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.
FieldMatrix<T>	AbstractFieldMatrix.transpose() Returns the transpose of this matrix.
FieldMatrix<T>	FieldMatrix.transpose() Returns the transpose of this matrix.
FieldMatrix<T>	BlockFieldMatrix.transpose() Returns the transpose of this matrix.

Methods in fr.cnes.sirius.patrius.math.linear with parameters of type FieldMatrix

Modifier and Type	Method and Description
FieldMatrix<T>	AbstractFieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
FieldMatrix<T>	FieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
FieldMatrix<T>	BlockFieldMatrix.add(FieldMatrix<T> m) Compute the sum of this and m.
static Array2DRowRealMatrix	MatrixUtils.bigFractionMatrixToRealMatrix(FieldMatrix<BigFraction> m) Convert a FieldMatrix/BigFraction matrix to a RealMatrix.
protected void	AbstractFieldMatrix.checkAdditionCompatible(FieldMatrix<T> m) Check if a matrix is addition compatible with the instance.
protected void	AbstractFieldMatrix.checkMultiplicationCompatible(FieldMatrix<T> m) Check if a matrix is multiplication compatible with the instance.
protected void	AbstractFieldMatrix.checkSubtractionCompatible(FieldMatrix<T> m) Check if a matrix is subtraction compatible with the instance.
static Array2DRowRealMatrix	MatrixUtils.fractionMatrixToRealMatrix(FieldMatrix<Fraction> m) Convert a FieldMatrix/Fraction matrix to a RealMatrix.
FieldMatrix<T>	AbstractFieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	FieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	BlockFieldMatrix.multiply(FieldMatrix<T> m) Postmultiply this matrix by m.
FieldMatrix<T>	AbstractFieldMatrix.preMultiply(FieldMatrix<T> m) Premultiply this matrix by m.
FieldMatrix<T>	FieldMatrix.preMultiply(FieldMatrix<T> m) Premultiply this matrix by m.
void	AbstractFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix) Set the entries in column number column as a column matrix.
void	FieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix) Set the entries in column number column as a column matrix.
void	BlockFieldMatrix.setColumnMatrix(int column, FieldMatrix<T> matrix) Set the entries in column number column as a column matrix.
void	AbstractFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix) Set the entries in row number row as a row matrix.
void	FieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix) Set the entries in row number row as a row matrix.
void	BlockFieldMatrix.setRowMatrix(int row, FieldMatrix<T> matrix) Set the entries in row number row as a row matrix.
FieldMatrix<T>	FieldDecompositionSolver.solve(FieldMatrix<T> b) Solve the linear equation A × X = B for matrices A.
FieldMatrix<T>	AbstractFieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.
FieldMatrix<T>	FieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.
FieldMatrix<T>	BlockFieldMatrix.subtract(FieldMatrix<T> m) Subtract m from this matrix.

Constructors in fr.cnes.sirius.patrius.math.linear with parameters of type FieldMatrix

Constructor and Description
FieldLUDecomposition(FieldMatrix<T> matrix) Calculates the LU-decomposition of the given matrix.