SquareComplexMatrix¶

class SquareComplexMatrix(*args)¶

Complex square matrix.

Parameters

sizeint, $n > 0$ , optional: Matrix size. Default is 1.
valuessequence of complex with size $n^2$ , optional: Values. OpenTURNS uses column-major ordering (like Fortran) for reshaping the flat list of values. Default creates a zero matrix.

Examples

Create a matrix

>>> import openturns as ot
>>> M = ot.SquareComplexMatrix(2, range(2 * 2))
>>> print(M)
[[ (0,0) (2,0) ]
 [ (1,0) (3,0) ]]

Get or set terms

>>> print(M[0, 0])
0j
>>> M[0, 0] = 1.0
>>> print(M[0, 0])
(1+0j)
>>> print(M[:, 0])
[[ (1,0) ]
 [ (1,0) ]]

Create an openturns matrix from a square numpy 2d-array (or matrix, or 2d-list)…

>>> import numpy as np
>>> np_2d_array = np.array([[1.0, 2.0], [3.0, 4.0]])
>>> ot_matrix = ot.SquareComplexMatrix(np_2d_array)

and back

>>> np_matrix = np.matrix(ot_matrix)

Methods

`clean`(threshold)	Clean the matrix according to a specific threshold.
`conjugate`()	Accessor to the conjugate complex matrix.
`conjugateTranspose`()	Accessor to the transposed conjugate complex matrix.
`getClassName`()	Accessor to the object's name.
`getId`()	Accessor to the object's id.
`getImplementation`()	Accessor to the underlying implementation.
`getName`()	Accessor to the object's name.
`getNbColumns`()	Accessor to the number of columns.
`getNbRows`()	Accessor to the number of rows.
`imag`()	Accessor to the imaginary part.
`isEmpty`()	Test whether the matrix is empty or not.
`real`()	Accessor to the real part.
`setName`(name)	Accessor to the object's name.
`transpose`()	Accessor to the transposed complex matrix.

getDimension
solveLinearSystem

__init__(*args)¶

clean(threshold)¶

Clean the matrix according to a specific threshold.

Parameters

thresholdpositive float: Numerical sample which is the collection of points stored by the history strategy.

conjugate()¶

Accessor to the conjugate complex matrix.

Returns

NComplexMatrix: The conjugate matrix $\mat{N}$ of size $n_r \times n_c$ associated with the given complex matrix $\mat{M}$ such as $N_{i, j} = \overline{M}_{i, j}$ .

conjugateTranspose()¶

Accessor to the transposed conjugate complex matrix.

Returns

NComplexMatrix: The transposed conjugate matrix $\mat{N}$ of size $n_c \times n_r$ associated with the given complex matrix $\mat{M}$ such as $N_{i, j} = \overline{M}_{j, i}$ .

getClassName()¶

Accessor to the object’s name.

Returns

class_namestr: The object class name (object.__class__.__name__).

getId()¶

Accessor to the object’s id.

Returns

idint: Internal unique identifier.

getImplementation()¶

Accessor to the underlying implementation.

Returns

implImplementation: A copy of the underlying implementation object.

getName()¶

Accessor to the object’s name.

Returns

namestr: The name of the object.

getNbColumns()¶

Accessor to the number of columns.

Returns

ncinteger: The number of columns of $\mat{M}$ .

getNbRows()¶

Accessor to the number of rows.

Returns

nrinteger: The number of rows of $\mat{M}$ .

imag()¶

Accessor to the imaginary part.

Returns

imatMatrix: A real matix $\mat{A}$ of size $n_r \times n_c$ such $A_{i, j} = \mathrm{Im} (M_{i, j})$ .

isEmpty()¶

Test whether the matrix is empty or not.

Returns

isEmptybool: Flag telling whether the dimensions of the matrix is zero.

real()¶

Accessor to the real part.

Returns

rmatMatrix: A real matix $\mat{A}$ of size $n_r \times n_c$ such $A_{i, j} = \mathrm{Re} (M_{i, j})$ .

setName(name)¶

Accessor to the object’s name.

Parameters

namestr: The name of the object.

transpose()¶

Accessor to the transposed complex matrix.

Returns

NComplexMatrix: The transposed matrix $\mat{N}$ of size $n_c \times n_r$ associated with the given complex matrix $\mat{M}$ such as $N_{i, j} = M_{j, i}$ .

OpenTURNS

An Open source initiative for the Treatment of Uncertainties, Risks'N Statistics

Previous topic

Next topic

This Page

SquareComplexMatrix¶