Package | Description |
---|---|
cern.colt.matrix.tdcomplex |
Matrix interfaces and factories holding elements of dcomplex data type.
|
cern.colt.matrix.tdcomplex.algo |
Algorithms operating on complex matrices.
|
cern.colt.matrix.tdcomplex.algo.decomposition |
Complex matrix decompositions.
|
cern.colt.matrix.tdcomplex.impl |
Efficient and flexible dense and sparse 1, 2 and 3-dimensional matrices holding elements of dcomplex data type.
|
cern.colt.matrix.tdouble.impl |
Efficient and flexible dense and sparse 1, 2 and 3-dimensional matrices holding elements of double data type.
|
edu.emory.mathcs.utils |
Utility classes.
|
Modifier and Type | Method and Description |
---|---|
DComplexMatrix2D |
DComplexFactory2D.appendColumn(DComplexMatrix2D A,
DComplexMatrix1D b)
C = A||b; Constructs a new matrix which is the column-wise concatenation
of two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendColumns(DComplexMatrix2D A,
DComplexMatrix2D B)
C = A||B; Constructs a new matrix which is the column-wise concatenation
of two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendRow(DComplexMatrix2D A,
DComplexMatrix1D b)
C = A||b; Constructs a new matrix which is the row-wise concatenation of
two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendRows(DComplexMatrix2D A,
DComplexMatrix2D B)
C = A||B; Constructs a new matrix which is the row-wise concatenation of
two other matrices.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexDComplexFunction f)
Assigns the result of a function to each cell;
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D other)
Replaces all cell values of the receiver with the values of another
matrix.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction f)
Assigns the result of a function to each cell.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function,
IntArrayList rowList,
IntArrayList columnList)
Assigns the result of a function to all cells with a given indexes
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexProcedure cond,
DComplexDComplexFunction f)
Assigns the result of a function to all cells that satisfy a condition.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexProcedure cond,
double[] value)
Assigns a value to all cells that satisfy a condition.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexRealFunction f)
Assigns the result of a function to the real part of the receiver.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(double[] values)
Sets all cells to the state specified by values.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(double[][] values)
Sets all cells to the state specified by values.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(double re,
double im)
Sets all cells to the state specified by re and im.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(float[] values)
Sets all cells to the state specified by values.
|
DComplexMatrix2D |
DComplexMatrix2D.assignImaginary(DoubleMatrix2D other)
Replaces imaginary part of the receiver with the values of another real
matrix.
|
DComplexMatrix2D |
DComplexMatrix2D.assignReal(DoubleMatrix2D other)
Replaces real part of the receiver with the values of another real
matrix.
|
DComplexMatrix2D |
DComplexFactory2D.compose(DComplexMatrix2D[][] parts)
Constructs a block matrix made from the given parts.
|
DComplexMatrix2D |
DComplexFactory2D.composeBidiagonal(DComplexMatrix2D A,
DComplexMatrix2D B)
Constructs a bidiagonal block matrix from the given parts.
|
DComplexMatrix2D |
DComplexFactory2D.composeDiagonal(DComplexMatrix2D A,
DComplexMatrix2D B)
Constructs a diagonal block matrix from the given parts (the direct
sum of two matrices).
|
DComplexMatrix2D |
DComplexFactory2D.composeDiagonal(DComplexMatrix2D A,
DComplexMatrix2D B,
DComplexMatrix2D C)
Constructs a diagonal block matrix from the given parts.
|
DComplexMatrix2D |
DComplexMatrix2D.copy()
Constructs and returns a deep copy of the receiver.
|
DComplexMatrix2D |
DComplexFactory2D.diagonal(DComplexMatrix1D vector)
Constructs a new diagonal matrix whose diagonal elements are the elements
of vector.
|
DComplexMatrix2D |
DComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function)
Assigns the result of a function to each non-zero cell.
|
DComplexMatrix2D |
DComplexMatrix2D.getConjugateTranspose()
Returns a new matrix that is a complex conjugate of this matrix.
|
DComplexMatrix2D |
DComplexFactory2D.identity(int rowsAndColumns)
Constructs an identity matrix (having ones on the diagonal and zeros
elsewhere).
|
DComplexMatrix2D |
DComplexMatrix2D.like()
Construct and returns a new empty matrix of the same dynamic type
as the receiver, having the same number of rows and columns.
|
abstract DComplexMatrix2D |
DComplexMatrix2D.like(int rows,
int columns)
Construct and returns a new empty matrix of the same dynamic type
as the receiver, having the specified number of rows and columns.
|
abstract DComplexMatrix2D |
DComplexMatrix1D.like2D(int rows,
int columns)
Construct and returns a new 2-d matrix of the corresponding dynamic
type, entirely independent of the receiver.
|
abstract DComplexMatrix2D |
DComplexMatrix3D.like2D(int rows,
int columns)
Construct and returns a new 2-d matrix of the corresponding dynamic
type, sharing the same cells.
|
DComplexMatrix2D |
DComplexFactory2D.make(double[][] values)
Constructs a matrix with the given cell values.
|
DComplexMatrix2D |
DComplexFactory2D.make(int rows,
int columns)
Constructs a matrix with the given shape, each cell initialized with
zero.
|
DComplexMatrix2D |
DComplexFactory2D.make(int rows,
int columns,
double[] initialValue)
Constructs a matrix with the given shape, each cell initialized with the
given value.
|
DComplexMatrix2D |
DComplexFactory2D.random(int rows,
int columns)
Constructs a matrix with uniformly distributed values in (0,1)
(exclusive).
|
DComplexMatrix2D |
DComplexFactory2D.repeat(DComplexMatrix2D A,
int rowRepeat,
int columnRepeat)
C = A||A||..||A; Constructs a new matrix which is duplicated both along
the row and column dimension.
|
abstract DComplexMatrix2D |
DComplexMatrix1D.reshape(int rows,
int columns)
Returns new DoubleMatrix2D of size rows x columns whose elements are
taken column-wise from this matrix.
|
DComplexMatrix2D |
DComplexFactory2D.sample(DComplexMatrix2D matrix,
double[] value,
double nonZeroFraction)
Modifies the given matrix to be a randomly sampled matrix.
|
DComplexMatrix2D |
DComplexFactory2D.sample(int rows,
int columns,
double[] value,
double nonZeroFraction)
Constructs a randomly sampled matrix with the given shape.
|
DComplexMatrix2D |
DComplexMatrix3D.viewColumn(int column)
Constructs and returns a new 2-dimensional slice view representing
the slices and rows of the given column.
|
DComplexMatrix2D |
DComplexMatrix2D.viewColumnFlip()
Constructs and returns a new flip view along the column axis.
|
DComplexMatrix2D |
DComplexMatrix2D.viewDice()
Constructs and returns a new dice (transposition) view; Swaps
axes; example: 3 x 4 matrix --> 4 x 3 matrix.
|
DComplexMatrix2D |
DComplexMatrix2D.viewPart(int row,
int column,
int height,
int width)
Constructs and returns a new sub-range view that is a
height x width sub matrix starting at [row,column].
|
DComplexMatrix2D |
DComplexMatrix3D.viewRow(int row)
Constructs and returns a new 2-dimensional slice view representing
the slices and columns of the given row.
|
DComplexMatrix2D |
DComplexMatrix2D.viewRowFlip()
Constructs and returns a new flip view along the row axis.
|
DComplexMatrix2D |
DComplexMatrix2D.viewSelection(DComplexMatrix1DProcedure condition)
Constructs and returns a new selection view that is a matrix
holding all rows matching the given condition.
|
DComplexMatrix2D |
DComplexMatrix2D.viewSelection(int[] rowIndexes,
int[] columnIndexes)
Constructs and returns a new selection view that is a matrix
holding the indicated cells.
|
DComplexMatrix2D |
DComplexMatrix3D.viewSlice(int slice)
Constructs and returns a new 2-dimensional slice view representing
the rows and columns of the given slice.
|
DComplexMatrix2D |
DComplexMatrix2D.viewStrides(int rowStride,
int columnStride)
Constructs and returns a new stride view which is a sub matrix
consisting of every i-th cell.
|
DComplexMatrix2D |
DComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C)
Linear algebraic matrix-matrix multiplication; C = A x B;
Equivalent to A.zMult(B,C,1,0,false,false).
|
DComplexMatrix2D |
DComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB)
Linear algebraic matrix-matrix multiplication;
C = alpha * A x B + beta*C.
|
Modifier and Type | Method and Description |
---|---|
double[] |
DComplexMatrix2D.aggregate(DComplexMatrix2D other,
DComplexDComplexDComplexFunction aggr,
DComplexDComplexDComplexFunction f)
Applies a function to each corresponding cell of two matrices and
aggregates the results.
|
DComplexMatrix2D |
DComplexFactory2D.appendColumn(DComplexMatrix2D A,
DComplexMatrix1D b)
C = A||b; Constructs a new matrix which is the column-wise concatenation
of two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendColumns(DComplexMatrix2D A,
DComplexMatrix2D B)
C = A||B; Constructs a new matrix which is the column-wise concatenation
of two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendRow(DComplexMatrix2D A,
DComplexMatrix1D b)
C = A||b; Constructs a new matrix which is the row-wise concatenation of
two other matrices.
|
DComplexMatrix2D |
DComplexFactory2D.appendRows(DComplexMatrix2D A,
DComplexMatrix2D B)
C = A||B; Constructs a new matrix which is the row-wise concatenation of
two other matrices.
|
boolean |
DComplexMatrix2DProcedure.apply(DComplexMatrix2D element)
Applies a procedure to an argument.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D other)
Replaces all cell values of the receiver with the values of another
matrix.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction f)
Assigns the result of a function to each cell.
|
DComplexMatrix2D |
DComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function,
IntArrayList rowList,
IntArrayList columnList)
Assigns the result of a function to all cells with a given indexes
|
DComplexMatrix2D |
DComplexFactory2D.compose(DComplexMatrix2D[][] parts)
Constructs a block matrix made from the given parts.
|
DComplexMatrix2D |
DComplexFactory2D.composeBidiagonal(DComplexMatrix2D A,
DComplexMatrix2D B)
Constructs a bidiagonal block matrix from the given parts.
|
DComplexMatrix2D |
DComplexFactory2D.composeDiagonal(DComplexMatrix2D A,
DComplexMatrix2D B)
Constructs a diagonal block matrix from the given parts (the direct
sum of two matrices).
|
DComplexMatrix2D |
DComplexFactory2D.composeDiagonal(DComplexMatrix2D A,
DComplexMatrix2D B,
DComplexMatrix2D C)
Constructs a diagonal block matrix from the given parts.
|
void |
DComplexFactory2D.decompose(DComplexMatrix2D[][] parts,
DComplexMatrix2D matrix)
Splits a block matrix into its constituent blocks; Copies blocks of a
matrix into the given parts.
|
void |
DComplexFactory2D.decompose(DComplexMatrix2D[][] parts,
DComplexMatrix2D matrix)
Splits a block matrix into its constituent blocks; Copies blocks of a
matrix into the given parts.
|
DComplexMatrix1D |
DComplexFactory2D.diagonal(DComplexMatrix2D A)
Constructs a new vector consisting of the diagonal elements of A
.
|
DComplexMatrix2D |
DComplexFactory2D.repeat(DComplexMatrix2D A,
int rowRepeat,
int columnRepeat)
C = A||A||..||A; Constructs a new matrix which is duplicated both along
the row and column dimension.
|
DComplexMatrix2D |
DComplexFactory2D.sample(DComplexMatrix2D matrix,
double[] value,
double nonZeroFraction)
Modifies the given matrix to be a randomly sampled matrix.
|
DComplexMatrix2D |
DComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C)
Linear algebraic matrix-matrix multiplication; C = A x B;
Equivalent to A.zMult(B,C,1,0,false,false).
|
DComplexMatrix2D |
DComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB)
Linear algebraic matrix-matrix multiplication;
C = alpha * A x B + beta*C.
|
Modifier and Type | Method and Description |
---|---|
void |
DComplexProperty.checkSparse(DComplexMatrix2D A) |
void |
DComplexProperty.checkSquare(DComplexMatrix2D A)
Checks whether the given matrix A is square.
|
SparseDComplexCholeskyDecomposition |
SparseDComplexAlgebra.chol(DComplexMatrix2D matrix,
int order)
Constructs and returns the Cholesky-decomposition of the given matrix.
|
double[] |
SparseDComplexAlgebra.det(DComplexMatrix2D A)
Returns the determinant of matrix A.
|
boolean |
DComplexProperty.equals(DComplexMatrix2D A,
DComplexMatrix2D B)
Returns whether both given matrices A and B are equal.
|
boolean |
DComplexProperty.equals(DComplexMatrix2D A,
double[] value)
Returns whether all cells of the given matrix A are equal to the
given value.
|
SparseDComplexLUDecomposition |
SparseDComplexAlgebra.lu(DComplexMatrix2D matrix,
int order)
Constructs and returns the LU-decomposition of the given matrix.
|
double |
SparseDComplexAlgebra.norm1(DComplexMatrix2D A)
Returns the 1-norm of matrix A, which is the maximum absolute
column sum.
|
double |
SparseDComplexAlgebra.normInfinity(DComplexMatrix2D A)
Returns the infinity norm of matrix A, which is the maximum
absolute row sum.
|
SparseDComplexQRDecomposition |
SparseDComplexAlgebra.qr(DComplexMatrix2D matrix,
int order)
Constructs and returns the QR-decomposition of the given matrix.
|
DComplexMatrix1D |
SparseDComplexAlgebra.solve(DComplexMatrix2D A,
DComplexMatrix1D b)
Solves A*x = b.
|
Modifier and Type | Method and Description |
---|---|
DComplexMatrix2D |
SparseDComplexCholeskyDecomposition.getL()
Returns the triangular factor, L.
|
DComplexMatrix2D |
SparseDComplexLUDecomposition.getL()
Returns the lower triangular factor, L.
|
DComplexMatrix2D |
SparseDComplexCholeskyDecomposition.getLtranspose()
Returns the triangular factor, L'.
|
DComplexMatrix2D |
SparseDComplexQRDecomposition.getR()
Returns a copy of the upper triangular factor, R.
|
DComplexMatrix2D |
SparseDComplexLUDecomposition.getU()
Returns the upper triangular factor, U.
|
DComplexMatrix2D |
SparseDComplexQRDecomposition.getV()
Returns a copy of the Householder vectors v, from the Householder
reflections H = I - beta*v*v'.
|
Constructor and Description |
---|
SparseDComplexCholeskyDecomposition(DComplexMatrix2D A,
int order)
Constructs and returns a new Cholesky decomposition object for a sparse
symmetric and positive definite matrix; The decomposed matrices can be
retrieved via instance methods of the returned decomposition object.
|
SparseDComplexLUDecomposition(DComplexMatrix2D A,
int order,
boolean checkIfSingular)
Constructs and returns a new LU Decomposition object; The decomposed
matrices can be retrieved via instance methods of the returned
decomposition object.
|
SparseDComplexQRDecomposition(DComplexMatrix2D A,
int order)
Constructs and returns a new QR decomposition object; computed by
Householder reflections; If m < n then then the QR of A' is computed.
|
Modifier and Type | Class and Description |
---|---|
class |
DenseColumnDComplexMatrix2D
Dense 2-d matrix holding complex elements.
|
class |
DenseDComplexMatrix2D
Dense 2-d matrix holding complex elements.
|
class |
DenseLargeDComplexMatrix2D
Dense 2-d matrix holding complex elements.
Implementation: |
class |
DiagonalDComplexMatrix2D
Diagonal 2-d matrix holding complex elements.
|
class |
SparseCCDComplexMatrix2D
Sparse column-compressed 2-d matrix holding complex elements.
|
class |
SparseCCMDComplexMatrix2D
Sparse column-compressed-modified 2-d matrix holding complex
elements.
|
class |
SparseDComplexMatrix2D
Sparse hashed 2-d matrix holding complex elements.
|
class |
SparseRCDComplexMatrix2D
Sparse row-compressed 2-d matrix holding complex elements.
|
class |
SparseRCMDComplexMatrix2D
Sparse row-compressed-modified 2-d matrix holding complex elements.
|
class |
WrapperDComplexMatrix2D
2-d matrix holding complex elements; either a view wrapping another
matrix or a matrix whose views are wrappers.
|
Modifier and Type | Method and Description |
---|---|
DComplexMatrix2D |
SparseRCDComplexMatrix2D.assign(DComplexDComplexFunction function) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(DComplexDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexDComplexFunction function) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.assign(DComplexDComplexFunction function) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexDComplexFunction function) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
SparseDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexMatrix2D source) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
SparseDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexMatrix2D y,
DComplexDComplexDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexProcedure cond,
DComplexDComplexFunction function) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexProcedure cond,
DComplexDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexProcedure cond,
double[] value) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexProcedure cond,
double[] value) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(DComplexRealFunction function) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(DComplexRealFunction function) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.assign(double[] values) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(double[] values) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(double[] values) |
DComplexMatrix2D |
SparseDComplexMatrix2D.assign(double[] value) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(double[] values) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(double[][] values) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(double[][] values) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(double[][] values) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.assign(double re,
double im) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(double re,
double im) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(double re,
double im) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.assign(double re,
double im) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(double re,
double im) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.assign(float[] values) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.assign(float[] values) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assign(float[] values) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assign(float[] values) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assignImaginary(DoubleMatrix2D other) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assignImaginary(DoubleMatrix2D other) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.assignReal(DoubleMatrix2D other) |
DComplexMatrix2D |
DenseDComplexMatrix2D.assignReal(DoubleMatrix2D other) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function) |
DComplexMatrix2D |
DenseDComplexMatrix2D.forEachNonZero(IntIntDComplexFunction function) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.getConjugateTranspose() |
DComplexMatrix2D |
DenseDComplexMatrix2D.getConjugateTranspose() |
DComplexMatrix2D |
DenseLargeDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
DiagonalDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
SparseDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
SparseCCMDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
SparseRCMDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
DenseDComplexMatrix2D.like(int rows,
int columns) |
DComplexMatrix2D |
WrapperDComplexMatrix1D.like2D(int rows,
int columns) |
DComplexMatrix2D |
SparseDComplexMatrix1D.like2D(int rows,
int columns) |
DComplexMatrix2D |
DenseDComplexMatrix3D.like2D(int rows,
int columns) |
DComplexMatrix2D |
DenseDComplexMatrix1D.like2D(int rows,
int columns) |
DComplexMatrix2D |
WrapperDComplexMatrix3D.like2D(int rows,
int columns) |
DComplexMatrix2D |
SparseDComplexMatrix3D.like2D(int rows,
int columns) |
DComplexMatrix2D |
WrapperDComplexMatrix1D.reshape(int rows,
int columns) |
DComplexMatrix2D |
SparseDComplexMatrix1D.reshape(int rows,
int columns) |
DComplexMatrix2D |
DenseDComplexMatrix1D.reshape(int rows,
int columns) |
DComplexMatrix2D |
WrapperDComplexMatrix3D.viewColumn(int column) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewColumnFlip() |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewDice() |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewPart(int row,
int column,
int height,
int width) |
DComplexMatrix2D |
WrapperDComplexMatrix3D.viewRow(int row) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewRowFlip() |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewSelection(int[] rowIndexes,
int[] columnIndexes) |
DComplexMatrix2D |
WrapperDComplexMatrix3D.viewSlice(int slice) |
DComplexMatrix2D |
WrapperDComplexMatrix2D.viewStrides(int _rowStride,
int _columnStride) |
DComplexMatrix2D |
SparseRCDComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB) |
DComplexMatrix2D |
DenseColumnDComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB) |
DComplexMatrix2D |
SparseCCDComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB) |
DComplexMatrix2D |
DenseDComplexMatrix2D.zMult(DComplexMatrix2D B,
DComplexMatrix2D C,
double[] alpha,
double[] beta,
boolean transposeA,
boolean transposeB) |
Constructor and Description |
---|
WrapperDComplexMatrix2D(DComplexMatrix2D newContent) |
Modifier and Type | Method and Description |
---|---|
DComplexMatrix2D |
DenseColumnDoubleMatrix2D.getIfft2(boolean scale)
Returns new complex matrix which is the 2D inverse of the discrete
Fourier transform (IDFT) of this matrix.
|
DComplexMatrix2D |
DenseColumnDoubleMatrix2D.getIfftColumns(boolean scale)
Returns new complex matrix which is the inverse of the discrete Fourier
transform (IDFT) of each column of this matrix.
|
DComplexMatrix2D |
DenseColumnDoubleMatrix2D.getIfftRows(boolean scale)
Returns new complex matrix which is the inverse of the discrete Fourier
transform (IDFT) of each row of this matrix.
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Modifier and Type | Method and Description |
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static DComplexMatrix2D |
Utils.complex(DoubleMatrix2D real,
DoubleMatrix2D imaginary) |
static DComplexMatrix2D |
Utils.polar(DoubleMatrix2D r,
DoubleMatrix2D theta) |
static DComplexMatrix2D |
Utils.polar(DoubleMatrix2D r,
DoubleMatrix2D theta,
boolean radians) |
static DComplexMatrix2D |
Utils.unflatten(DComplexMatrix1D a,
boolean col)
Creates a 2-dimensional copy of the given matrix
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