no.uib.cipr.matrix

Class UpperTriangDenseMatrix

java.lang.Object

no.uib.cipr.matrix.AbstractMatrix

no.uib.cipr.matrix.UpperTriangDenseMatrix

All Implemented Interfaces:

Iterable<MatrixEntry>, Matrix

Direct Known Subclasses:

UnitUpperTriangDenseMatrix

public class UpperTriangDenseMatrix
extends AbstractMatrix

Upper triangular dense matrix. It has the same storage layout as the DenseMatrix, but only refers to elements above or on the main diagonal. The remaining elements are assumed to be zero, but since they are never accessed, they need not be.

Nested Class Summary

Nested classes/interfaces inherited from interface no.uib.cipr.matrix.Matrix

Matrix.Norm

Field Summary

Fields inherited from class no.uib.cipr.matrix.AbstractMatrix

numColumns, numRows

Constructor Summary

Constructors

Constructor and Description
UpperTriangDenseMatrix(int n) Constructor for UpperTriangDenseMatrix
UpperTriangDenseMatrix(Matrix A) Constructor for UpperTriangDenseMatrix
UpperTriangDenseMatrix(Matrix A, boolean deep) Constructor for UpperTriangDenseMatrix
UpperTriangDenseMatrix(Matrix A, int k) Constructor for UpperTriangDenseMatrix
UpperTriangDenseMatrix(Matrix A, int k, boolean deep) Constructor for UpperTriangDenseMatrix

Method Summary

Modifier and Type	Method and Description
void	add(int row, int column, double value) A(row,column) += value
UpperTriangDenseMatrix	copy() Creates a deep copy of the matrix
double	get(int row, int column) Returns A(row,column)
double[]	getData() Returns the matrix contents.
Iterator<MatrixEntry>	iterator()
Matrix	mult(double alpha, Matrix B, Matrix C) C = alpha*A*B
Vector	mult(double alpha, Vector x, Vector y) y = alpha*A*x
void	set(int row, int column, double value) A(row,column) = value
Matrix	set(Matrix A) A=B.
Matrix	solve(Matrix B, Matrix X) X = A\B.
Vector	solve(Vector b, Vector x) x = A\b.
String	toString()
Matrix	transAmult(double alpha, Matrix B, Matrix C) C = alpha*AT*B
Vector	transMult(double alpha, Vector x, Vector y) y = alpha*AT*x
Matrix	transSolve(Matrix B, Matrix X) X = AT\B.
Vector	transSolve(Vector b, Vector x) x = AT\b.
Matrix	zero() Zeros all the entries in the matrix, while preserving any underlying structure.

Methods inherited from class no.uib.cipr.matrix.AbstractMatrix

add, add, check, checkMultAdd, checkMultAdd, checkRank1, checkRank1, checkRank2, checkRank2, checkSize, checkSolve, checkSolve, checkTransABmultAdd, checkTransAmultAdd, checkTransBmultAdd, checkTransMultAdd, checkTranspose, checkTranspose, checkTransRank1, checkTransRank2, isSquare, max, max, mult, mult, multAdd, multAdd, multAdd, multAdd, norm, norm1, normF, normInf, numColumns, numRows, rank1, rank1, rank1, rank1, rank1, rank1, rank2, rank2, rank2, rank2, scale, set, transABmult, transABmult, transABmultAdd, transABmultAdd, transAmult, transAmultAdd, transAmultAdd, transBmult, transBmult, transBmultAdd, transBmultAdd, transMult, transMultAdd, transMultAdd, transpose, transpose, transRank1, transRank1, transRank2, transRank2

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Methods inherited from interface java.lang.Iterable

forEach, spliterator

Constructor Detail

UpperTriangDenseMatrix

public UpperTriangDenseMatrix(int n)

Constructor for UpperTriangDenseMatrix

Parameters:

n - Size of the matrix. Since the matrix must be square, this equals both the number of rows and columns

UpperTriangDenseMatrix

public UpperTriangDenseMatrix(Matrix A)

Constructor for UpperTriangDenseMatrix

Parameters:

A - Matrix to copy from. Only the upper triangular part is copied

UpperTriangDenseMatrix

public UpperTriangDenseMatrix(Matrix A,
                              boolean deep)

Constructor for UpperTriangDenseMatrix

Parameters:

A - Matrix to copy from. Only the upper triangular part is copied

deep - True for deep copy, false for reference (in which case A must be a dense matrix)

UpperTriangDenseMatrix

public UpperTriangDenseMatrix(Matrix A,
                              int k)

Constructor for UpperTriangDenseMatrix

Parameters:

A - Matrix to copy from. Only the upper triangular part is copied

k - Size of matrix to refer. k<min(numRows,numColumns)

UpperTriangDenseMatrix

public UpperTriangDenseMatrix(Matrix A,
                              int k,
                              boolean deep)

Constructor for UpperTriangDenseMatrix

Parameters:

A - Matrix to copy from. Only the upper triangular part is copied

k - Size of matrix to refer. k<min(numRows,numColumns)

deep - True for deep copy, false for reference (in which case A must be a dense matrix)

Method Detail

add

public void add(int row,
                int column,
                double value)

Description copied from interface: Matrix

A(row,column) += value

Specified by:

add in interface Matrix

get

public double get(int row,
                  int column)

Description copied from interface: Matrix

Returns A(row,column)

Specified by:

get in interface Matrix

set

public void set(int row,
                int column,
                double value)

Description copied from interface: Matrix

A(row,column) = value

Specified by:

set in interface Matrix

set

public Matrix set(Matrix A)

Description copied from interface: Matrix

A=B. The matrices must be of the same size

Specified by:

set in interface Matrix

Returns:

A

copy

public UpperTriangDenseMatrix copy()

Description copied from interface: Matrix

Creates a deep copy of the matrix

Specified by:

copy in interface Matrix

Overrides:

copy in class AbstractMatrix

Returns:

A

mult

public Vector mult(double alpha,
                   Vector x,
                   Vector y)

Description copied from interface: Matrix

y = alpha*A*x

Specified by:

mult in interface Matrix

Overrides:

mult in class AbstractMatrix

x - Vector of size A.numColumns()

y - Vector of size A.numRows()

Returns:

y

transMult

public Vector transMult(double alpha,
                        Vector x,
                        Vector y)

Description copied from interface: Matrix

y = alpha*AT*x

Specified by:

transMult in interface Matrix

Overrides:

transMult in class AbstractMatrix

x - Vector of size A.numRows()

y - Vector of size A.numColumns()

Returns:

y

mult

public Matrix mult(double alpha,
                   Matrix B,
                   Matrix C)

Description copied from interface: Matrix

C = alpha*A*B

Specified by:

mult in interface Matrix

Overrides:

mult in class AbstractMatrix

B - Matrix such that B.numRows() == A.numColumns() and B.numColumns() == C.numColumns()

C - Matrix such that C.numRows() == A.numRows() and B.numColumns() == C.numColumns()

Returns:

C

transAmult

public Matrix transAmult(double alpha,
                         Matrix B,
                         Matrix C)

Description copied from interface: Matrix

C = alpha*AT*B

Specified by:

transAmult in interface Matrix

Overrides:

transAmult in class AbstractMatrix

B - Matrix such that B.numRows() == A.numRows() and B.numColumns() == C.numColumns()

C - Matrix such that C.numRows() == A.numColumns() and B.numColumns() == C.numColumns()

Returns:

C

solve

public Matrix solve(Matrix B,
                    Matrix X)

Description copied from interface: Matrix

X = A\B. Not all matrices support this operation, those that do not throw UnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver

Specified by:

solve in interface Matrix

Overrides:

solve in class AbstractMatrix

Parameters:

B - Matrix with the same number of rows as A, and the same number of columns as X

X - Matrix with a number of rows equal A.numColumns() , and the same number of columns as B

Returns:

X

solve

public Vector solve(Vector b,
                    Vector x)

Description copied from interface: Matrix

x = A\b. Not all matrices support this operation, those that do not throw UnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver

Specified by:

solve in interface Matrix

Overrides:

solve in class AbstractMatrix

Parameters:

b - Vector of size A.numRows()

x - Vector of size A.numColumns()

Returns:

x

transSolve

public Matrix transSolve(Matrix B,
                         Matrix X)

Description copied from interface: Matrix

X = AT\B. Not all matrices support this operation, those that do not throw UnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated transpose solver

Specified by:

transSolve in interface Matrix

Overrides:

transSolve in class AbstractMatrix

Parameters:

B - Matrix with a number of rows equal A.numColumns() , and the same number of columns as X

X - Matrix with the same number of rows as A, and the same number of columns as B

Returns:

X

transSolve

public Vector transSolve(Vector b,
                         Vector x)

Description copied from interface: Matrix

x = AT\b. Not all matrices support this operation, those that do not throw UnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver

Specified by:

transSolve in interface Matrix

Overrides:

transSolve in class AbstractMatrix

Parameters:

b - Vector of size A.numColumns()

x - Vector of size A.numRows()

Returns:

x

iterator

public Iterator<MatrixEntry> iterator()

Specified by:

iterator in interface Iterable<MatrixEntry>

Overrides:

iterator in class AbstractMatrix

getData

public double[] getData()

Returns the matrix contents. Ordering depends on the underlying storage assumptions

zero

public Matrix zero()

Description copied from interface: Matrix

Zeros all the entries in the matrix, while preserving any underlying structure. Useful for general, unstructured matrices.

Specified by:

zero in interface Matrix

Overrides:

zero in class AbstractMatrix

Returns:

A

toString

public String toString()

Overrides:

toString in class AbstractMatrix