|
||||||||||
PREV NEXT | FRAMES NO FRAMES |
Packages that use ComplexFloatMatrix | |
---|---|
org.jblas.la | Main linear algebra package. |
Uses of ComplexFloatMatrix in org.jblas.la |
---|
Methods in org.jblas.la that return ComplexFloatMatrix | |
---|---|
static ComplexFloatMatrix |
MatrixFunctions.absi(ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloat v,
ComplexFloatMatrix result)
Add a scalar to a matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix other)
Code for operators |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Add two matrices. |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.addi(float v,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.and(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.and(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.and(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(float value,
ComplexFloatMatrix result)
|
static ComplexFloatMatrix |
SimpleBlas.axpy(ComplexFloat da,
ComplexFloatMatrix dx,
ComplexFloatMatrix dy)
|
ComplexFloatMatrix |
ComplexFloatMatrix.columnMeans()
|
ComplexFloatMatrix |
ComplexFloatMatrix.columnSums()
Return a vector containing the sums of the columns (having number of columns many entries) |
static ComplexFloatMatrix |
ComplexFloatMatrix.concatHorizontally(ComplexFloatMatrix A,
ComplexFloatMatrix B)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.concatVertically(ComplexFloatMatrix A,
ComplexFloatMatrix B)
|
ComplexFloatMatrix |
ComplexFloatMatrix.conji()
|
ComplexFloatMatrix |
ComplexFloatMatrix.copy(ComplexFloatMatrix a)
Copy ComplexFloatMatrix a to this. |
static ComplexFloatMatrix |
SimpleBlas.copy(ComplexFloatMatrix x,
ComplexFloatMatrix y)
|
ComplexFloatMatrix |
ComplexFloatMatrix.diag()
Get diagonal of the matrix. |
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix x)
Creates a new matrix where the values of the given vector are the diagonal values of the matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.div(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloat a,
ComplexFloatMatrix result)
(Elementwise) division with a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) division |
ComplexFloatMatrix |
ComplexFloatMatrix.divi(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(float a,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.dup()
Returns a duplicate of this matrix. |
static ComplexFloatMatrix |
Eigen.eigenvalues(FloatMatrix A)
Computes the eigenvalues of a general matrix. |
static ComplexFloatMatrix[] |
Eigen.eigenvectors(FloatMatrix A)
Computes the eigenvalues and eigenvectors of a general matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eq(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(float value,
ComplexFloatMatrix result)
|
static ComplexFloatMatrix |
SimpleBlas.gemm(ComplexFloat alpha,
ComplexFloatMatrix a,
ComplexFloatMatrix b,
ComplexFloat beta,
ComplexFloatMatrix c)
|
static ComplexFloatMatrix |
SimpleBlas.gerc(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y,
ComplexFloatMatrix a)
Compute A <- alpha * x * y^H + A (general rank-1 update) |
static ComplexFloatMatrix |
SimpleBlas.geru(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y,
ComplexFloatMatrix a)
Compute A <- alpha * x * y^T + A (general rank-1 update) |
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix indices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix indices,
int c)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(int[] indices)
Working with slices (Man! 30+ methods just to make this a bit flexible...) |
ComplexFloatMatrix |
ComplexFloatMatrix.get(int[] indices,
int c)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(int[] rindices,
int[] cindices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(int r,
ComplexFloatMatrix indices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(int r,
int[] indices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.getColumn(int c)
|
ComplexFloatMatrix |
ComplexFloatMatrix.getRow(int r)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmul(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmul(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmul(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloat v,
ComplexFloatMatrix result)
Matrix-Matrix Multiplication with a scalar (for symmetry, does the same as muli(scalar) |
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Matrix-Matrix Multiplication |
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(float v,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloat v,
ComplexFloatMatrix result)
(Elementwise) Multiplication with a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) Multiplication |
ComplexFloatMatrix |
ComplexFloatMatrix.muli(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(float v,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ne(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.neg()
|
ComplexFloatMatrix |
ComplexFloatMatrix.negi()
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(float value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.not()
|
ComplexFloatMatrix |
ComplexFloatMatrix.noti()
|
static ComplexFloatMatrix |
ComplexFloatMatrix.ones(int length)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.ones(int rows,
int columns)
Creates a new matrix in which all values are equal 1. |
ComplexFloatMatrix |
ComplexFloatMatrix.or(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.or(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.or(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(float value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] rindices,
int[] cindices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] rindices,
int[] cindices,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] rindices,
int[] cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
int c,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
int c,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int i,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int i,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
int[] indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
int[] indices,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int rowIndex,
int columnIndex,
ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int rowIndex,
int columnIndex,
float value)
Set matrix element |
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int[] rindices,
int[] cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int[] indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int r,
ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int i,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int r,
int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int rowIndex,
int columnIndex,
float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int[] rindices,
int[] cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int[] indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int r,
ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int i,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int r,
int[] indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int rowIndex,
int columnIndex,
float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloat alpha,
ComplexFloatMatrix x)
Computes a rank-1-update A = A + alpha * x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y)
Computes a rank-1-update A = A + alpha * x * y'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloatMatrix x)
Computes a rank-1-update A = A + x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloatMatrix x,
ComplexFloatMatrix y)
Computes a rank-1-update A = A + x * y'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(float alpha,
ComplexFloatMatrix x)
Computes a rank-1-update A = A + alpha * x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(float alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdiv(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdiv(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdiv(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloat a,
ComplexFloatMatrix result)
(Elementwise) division with a scalar, with operands switched. |
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) division, with operands switched. |
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(float a,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.reshape(int newRows,
int newColumns)
Reshape the matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.rowMeans()
|
ComplexFloatMatrix |
ComplexFloatMatrix.rowSums()
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsub(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsub(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsub(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloat a,
ComplexFloatMatrix result)
Subtract a matrix from a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Subtract two matrices, but subtract first from second matrix, that is, compute result = other - this. |
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(float a,
ComplexFloatMatrix result)
|
static ComplexFloatMatrix |
SimpleBlas.scal(ComplexFloat alpha,
ComplexFloatMatrix x)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.scalar(float s)
Create a 1 * 1 - matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloat v,
ComplexFloatMatrix result)
Subtract a scalar from a matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Subtract two matrices. |
ComplexFloatMatrix |
ComplexFloatMatrix.subi(float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(float v,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.swapColumns(int i,
int j)
|
ComplexFloatMatrix |
ComplexFloatMatrix.swapRows(int i,
int j)
|
ComplexFloatMatrix |
ComplexFloatMatrix.transpose()
Return transposed copy of this matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.truth()
|
ComplexFloatMatrix |
ComplexFloatMatrix.truthi()
|
ComplexFloatMatrix |
ComplexFloatMatrix.xor(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xor(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xor(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloat value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(float value)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(float value,
ComplexFloatMatrix result)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.zeros(int length)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.zeros(int rows,
int columns)
Creates a new matrix in which all values are equal 0. |
Methods in org.jblas.la with parameters of type ComplexFloatMatrix | |
---|---|
static ComplexFloatMatrix |
MatrixFunctions.absi(ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.add(ComplexFloatMatrix other)
|
void |
ComplexFloatMatrix.addColumnVector(ComplexFloatMatrix x)
Add a vector to all columns of the matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloat v,
ComplexFloatMatrix result)
Add a scalar to a matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix other)
Code for operators |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Add two matrices. |
ComplexFloatMatrix |
ComplexFloatMatrix.addi(float v,
ComplexFloatMatrix result)
|
void |
ComplexFloatMatrix.addRowVector(ComplexFloatMatrix x)
Add a row vector to all rows of the matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.and(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.andi(float value,
ComplexFloatMatrix result)
|
void |
ComplexFloatMatrix.assertMultipliesWith(ComplexFloatMatrix a)
|
void |
ComplexFloatMatrix.assertSameLength(ComplexFloatMatrix a)
|
void |
ComplexFloatMatrix.assertSameSize(ComplexFloatMatrix a)
Assert that two matrices have the same size. |
static float |
SimpleBlas.asum(ComplexFloatMatrix x)
|
static ComplexFloatMatrix |
SimpleBlas.axpy(ComplexFloat da,
ComplexFloatMatrix dx,
ComplexFloatMatrix dy)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.concatHorizontally(ComplexFloatMatrix A,
ComplexFloatMatrix B)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.concatVertically(ComplexFloatMatrix A,
ComplexFloatMatrix B)
|
ComplexFloatMatrix |
ComplexFloatMatrix.copy(ComplexFloatMatrix a)
Copy ComplexFloatMatrix a to this. |
static ComplexFloatMatrix |
SimpleBlas.copy(ComplexFloatMatrix x,
ComplexFloatMatrix y)
|
static ComplexFloatMatrix |
ComplexFloatMatrix.diag(ComplexFloatMatrix x)
Creates a new matrix where the values of the given vector are the diagonal values of the matrix. |
ComplexFloatMatrix |
ComplexFloatMatrix.div(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloat a,
ComplexFloatMatrix result)
(Elementwise) division with a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.divi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) division |
ComplexFloatMatrix |
ComplexFloatMatrix.divi(float a,
ComplexFloatMatrix result)
|
ComplexFloat |
ComplexFloatMatrix.dotc(ComplexFloatMatrix other)
|
static ComplexFloat |
SimpleBlas.dotc(ComplexFloatMatrix x,
ComplexFloatMatrix y)
Compute x^T * y (dot product) |
ComplexFloat |
ComplexFloatMatrix.dotu(ComplexFloatMatrix other)
|
static ComplexFloat |
SimpleBlas.dotu(ComplexFloatMatrix x,
ComplexFloatMatrix y)
Compute x^T * y (dot product) |
ComplexFloatMatrix |
ComplexFloatMatrix.eq(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.eqi(float value,
ComplexFloatMatrix result)
|
static ComplexFloatMatrix |
SimpleBlas.gemm(ComplexFloat alpha,
ComplexFloatMatrix a,
ComplexFloatMatrix b,
ComplexFloat beta,
ComplexFloatMatrix c)
|
static ComplexFloatMatrix |
SimpleBlas.gerc(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y,
ComplexFloatMatrix a)
Compute A <- alpha * x * y^H + A (general rank-1 update) |
static ComplexFloatMatrix |
SimpleBlas.geru(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y,
ComplexFloatMatrix a)
Compute A <- alpha * x * y^T + A (general rank-1 update) |
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix indices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(ComplexFloatMatrix indices,
int c)
|
ComplexFloatMatrix |
ComplexFloatMatrix.get(int r,
ComplexFloatMatrix indices)
|
static int |
SimpleBlas.iamax(ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmul(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloat v,
ComplexFloatMatrix result)
Matrix-Matrix Multiplication with a scalar (for symmetry, does the same as muli(scalar) |
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Matrix-Matrix Multiplication |
ComplexFloatMatrix |
ComplexFloatMatrix.mmuli(float v,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.mul(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloat v,
ComplexFloatMatrix result)
(Elementwise) Multiplication with a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.muli(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) Multiplication |
ComplexFloatMatrix |
ComplexFloatMatrix.muli(float v,
ComplexFloatMatrix result)
|
boolean |
ComplexFloatMatrix.multipliesWith(ComplexFloatMatrix a)
Check whether this can be multiplied with a. |
ComplexFloatMatrix |
ComplexFloatMatrix.ne(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.nei(float value,
ComplexFloatMatrix result)
|
static float |
SimpleBlas.nrm2(ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.or(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.ori(float value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] rindices,
int[] cindices,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int[] indices,
int c,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
ComplexFloat v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.put(int r,
int[] indices,
ComplexFloatMatrix x)
|
void |
ComplexFloatMatrix.putColumn(int c,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putImag(int r,
ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix rindices,
ComplexFloatMatrix cindices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix indices,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(ComplexFloatMatrix indices,
int c,
float v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.putReal(int r,
ComplexFloatMatrix indices,
float v)
|
void |
ComplexFloatMatrix.putRow(int r,
ComplexFloatMatrix v)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloat alpha,
ComplexFloatMatrix x)
Computes a rank-1-update A = A + alpha * x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloat alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y)
Computes a rank-1-update A = A + alpha * x * y'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloatMatrix x)
Computes a rank-1-update A = A + x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(ComplexFloatMatrix x,
ComplexFloatMatrix y)
Computes a rank-1-update A = A + x * y'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(float alpha,
ComplexFloatMatrix x)
Computes a rank-1-update A = A + alpha * x * x'. |
ComplexFloatMatrix |
ComplexFloatMatrix.rankOneUpdate(float alpha,
ComplexFloatMatrix x,
ComplexFloatMatrix y)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdiv(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloat a,
ComplexFloatMatrix result)
(Elementwise) division with a scalar, with operands switched. |
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
(Elementwise) division, with operands switched. |
ComplexFloatMatrix |
ComplexFloatMatrix.rdivi(float a,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsub(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloat a,
ComplexFloatMatrix result)
Subtract a matrix from a scalar |
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Subtract two matrices, but subtract first from second matrix, that is, compute result = other - this. |
ComplexFloatMatrix |
ComplexFloatMatrix.rsubi(float a,
ComplexFloatMatrix result)
|
boolean |
ComplexFloatMatrix.sameLength(ComplexFloatMatrix a)
|
boolean |
ComplexFloatMatrix.sameSize(ComplexFloatMatrix a)
Checks whether two matrices have the same size. |
static ComplexFloatMatrix |
SimpleBlas.scal(ComplexFloat alpha,
ComplexFloatMatrix x)
|
ComplexFloatMatrix |
ComplexFloatMatrix.sub(ComplexFloatMatrix other)
|
void |
ComplexFloatMatrix.subColumnVector(ComplexFloatMatrix x)
Add a vector to all columns of the matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloat v,
ComplexFloatMatrix result)
Subtract a scalar from a matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.subi(ComplexFloatMatrix other,
ComplexFloatMatrix result)
Subtract two matrices. |
ComplexFloatMatrix |
ComplexFloatMatrix.subi(float v,
ComplexFloatMatrix result)
|
void |
ComplexFloatMatrix.subRowVector(ComplexFloatMatrix x)
Add a row vector to all rows of the matrix |
ComplexFloatMatrix |
ComplexFloatMatrix.xor(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloat value,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloatMatrix other)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(ComplexFloatMatrix other,
ComplexFloatMatrix result)
|
ComplexFloatMatrix |
ComplexFloatMatrix.xori(float value,
ComplexFloatMatrix result)
|
|
||||||||||
PREV NEXT | FRAMES NO FRAMES |