Package no.uib.cipr.matrix
Class UpperSymmPackMatrix
- java.lang.Object
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- no.uib.cipr.matrix.AbstractMatrix
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- no.uib.cipr.matrix.UpperSymmPackMatrix
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- All Implemented Interfaces:
java.lang.Iterable<MatrixEntry>,Matrix
- Direct Known Subclasses:
UpperSPDPackMatrix
public class UpperSymmPackMatrix extends AbstractMatrix
Upper symmetric packed matrix. Same storage asUpperTriangPackMatrix, but the lower triangular part is known by symmetry.
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Nested Class Summary
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Nested classes/interfaces inherited from interface no.uib.cipr.matrix.Matrix
Matrix.Norm
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Field Summary
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Fields inherited from class no.uib.cipr.matrix.AbstractMatrix
numColumns, numRows
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Constructor Summary
Constructors Constructor Description UpperSymmPackMatrix(int n)Constructor for UpperSymmPackMatrixUpperSymmPackMatrix(Matrix A)Constructor for UpperSymmPackMatrixUpperSymmPackMatrix(Matrix A, boolean deep)Constructor for UpperSymmPackMatrix
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description voidadd(int row, int column, double value)A(row,column) += valueUpperSymmPackMatrixcopy()Creates a deep copy of the matrixdoubleget(int row, int column)ReturnsA(row,column)double[]getData()Returns the matrix contents.VectormultAdd(double alpha, Vector x, Vector y)y = alpha*A*x + yMatrixrank1(double alpha, Vector x, Vector y)A = alpha*x*yT + A.Matrixrank2(double alpha, Vector x, Vector y)A = alpha*x*yT + alpha*y*xT + A.voidset(int row, int column, double value)A(row,column) = valueMatrixset(Matrix B)A=B.Matrixsolve(Matrix B, Matrix X)X = A\B.Vectorsolve(Vector b, Vector x)x = A\b.VectortransMultAdd(double alpha, Vector x, Vector y)y = alpha*AT*x + yMatrixtranspose()Transposes the matrix in-place.MatrixtransSolve(Matrix B, Matrix X)X = AT\B.VectortransSolve(Vector b, Vector x)x = AT\b.Matrixzero()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, iterator, max, max, mult, mult, mult, mult, multAdd, multAdd, multAdd, norm, norm1, normF, normInf, numColumns, numRows, rank1, rank1, rank1, rank1, rank1, rank2, rank2, rank2, scale, set, toString, transABmult, transABmult, transABmultAdd, transABmultAdd, transAmult, transAmult, transAmultAdd, transAmultAdd, transBmult, transBmult, transBmultAdd, transBmultAdd, transMult, transMult, transMultAdd, transpose, transRank1, transRank1, transRank2, transRank2
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Constructor Detail
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UpperSymmPackMatrix
public UpperSymmPackMatrix(int n)
Constructor for UpperSymmPackMatrix- Parameters:
n- Size of the matrix. Since the matrix must be square, this equals both the number of rows and columns
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UpperSymmPackMatrix
public UpperSymmPackMatrix(Matrix A)
Constructor for UpperSymmPackMatrix- Parameters:
A- Matrix to copy contents from. Only the entries of the relevant part are copied
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UpperSymmPackMatrix
public UpperSymmPackMatrix(Matrix A, boolean deep)
Constructor for UpperSymmPackMatrix- Parameters:
A- Matrix to copy contents from. Only the entries of the relevant part are copieddeep- True if the copy is deep, else false (giving a shallow copy). For shallow copies,Amust be a packed matrix
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Method Detail
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add
public void add(int row, int column, double value)Description copied from interface:MatrixA(row,column) += value- Specified by:
addin interfaceMatrix- Overrides:
addin classAbstractMatrix
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set
public void set(int row, int column, double value)Description copied from interface:MatrixA(row,column) = value- Specified by:
setin interfaceMatrix- Overrides:
setin classAbstractMatrix
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get
public double get(int row, int column)Description copied from interface:MatrixReturnsA(row,column)- Specified by:
getin interfaceMatrix- Overrides:
getin classAbstractMatrix
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copy
public UpperSymmPackMatrix copy()
Description copied from interface:MatrixCreates a deep copy of the matrix- Specified by:
copyin interfaceMatrix- Overrides:
copyin classAbstractMatrix- Returns:
- A
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multAdd
public Vector multAdd(double alpha, Vector x, Vector y)
Description copied from interface:Matrixy = alpha*A*x + y- Specified by:
multAddin interfaceMatrix- Overrides:
multAddin classAbstractMatrixx- Vector of sizeA.numColumns()y- Vector of sizeA.numRows()- Returns:
- y
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transMultAdd
public Vector transMultAdd(double alpha, Vector x, Vector y)
Description copied from interface:Matrixy = alpha*AT*x + y- Specified by:
transMultAddin interfaceMatrix- Overrides:
transMultAddin classAbstractMatrixx- Vector of sizeA.numRows()y- Vector of sizeA.numColumns()- Returns:
- y
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rank1
public Matrix rank1(double alpha, Vector x, Vector y)
Description copied from interface:MatrixA = alpha*x*yT + A. The matrix must be square, and the vectors of the same length- Specified by:
rank1in interfaceMatrix- Overrides:
rank1in classAbstractMatrix- Returns:
- A
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rank2
public Matrix rank2(double alpha, Vector x, Vector y)
Description copied from interface:MatrixA = alpha*x*yT + alpha*y*xT + A. The matrix must be square, and the vectors of the same length- Specified by:
rank2in interfaceMatrix- Overrides:
rank2in classAbstractMatrix- Returns:
- A
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solve
public Matrix solve(Matrix B, Matrix X)
Description copied from interface:MatrixX = A\B. Not all matrices support this operation, those that do not throwUnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver- Specified by:
solvein interfaceMatrix- Overrides:
solvein classAbstractMatrix- Parameters:
B- Matrix with the same number of rows asA, and the same number of columns asXX- Matrix with a number of rows equalA.numColumns(), and the same number of columns asB- Returns:
- X
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solve
public Vector solve(Vector b, Vector x)
Description copied from interface:Matrixx = A\b. Not all matrices support this operation, those that do not throwUnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver- Specified by:
solvein interfaceMatrix- Overrides:
solvein classAbstractMatrix- Parameters:
b- Vector of sizeA.numRows()x- Vector of sizeA.numColumns()- Returns:
- x
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transSolve
public Matrix transSolve(Matrix B, Matrix X)
Description copied from interface:MatrixX = AT\B. Not all matrices support this operation, those that do not throwUnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated transpose solver- Specified by:
transSolvein interfaceMatrix- Overrides:
transSolvein classAbstractMatrix- Parameters:
B- Matrix with a number of rows equalA.numColumns(), and the same number of columns asXX- Matrix with the same number of rows asA, and the same number of columns asB- Returns:
- X
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transSolve
public Vector transSolve(Vector b, Vector x)
Description copied from interface:Matrixx = AT\b. Not all matrices support this operation, those that do not throwUnsupportedOperationException. Note that it is often more efficient to use a matrix decomposition and its associated solver- Specified by:
transSolvein interfaceMatrix- Overrides:
transSolvein classAbstractMatrix- Parameters:
b- Vector of sizeA.numColumns()x- Vector of sizeA.numRows()- Returns:
- x
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transpose
public Matrix transpose()
Description copied from interface:MatrixTransposes the matrix in-place. In most cases, the matrix must be square for this to work.- Specified by:
transposein interfaceMatrix- Overrides:
transposein classAbstractMatrix- Returns:
- This matrix
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getData
public double[] getData()
Returns the matrix contents. Ordering depends on the underlying storage assumptions
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set
public Matrix set(Matrix B)
Description copied from interface:MatrixA=B. The matrices must be of the same size- Specified by:
setin interfaceMatrix- Overrides:
setin classAbstractMatrix- Returns:
- A
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