m0 = ot.CorrelationMatrix(2, t0)
print("tuple", t0, "=> CorrelationMatrix", m0)
m0 = ot.CovarianceMatrix(2, t0)
print("tuple", t0, "=> CovarianceMatrix", m0)
t0c = (1. + 3.j, 2. - 5.j, 3. + 7.j, 4. - 9.j)
m0 = ot.ComplexMatrix(2, 2, t0)
print("tuple", t0, "=> ComplexMatrix", m0)
m0 = ot.ComplexMatrix(2, 2, t0c)
print("tuple", t0c, "=> ComplexMatrix", m0)
m0 = ot.SquareComplexMatrix(2, t0)
print("tuple", t0, "=> SquareComplexMatrix", m0)
m0 = ot.SquareComplexMatrix(2, t0c)
print("tuple", t0c, "=> SquareComplexMatrix", m0)
# Check Matrix list constructor
l0 = [1., 2., 3., 4.]
m0 = ot.Matrix(2, 2, l0)
print("list", l0, "=> Matrix", m0)
m0 = ot.SquareMatrix(2, l0)
print("list", l0, "=> SquareMatrix", m0)
m0 = ot.SymmetricMatrix(2, l0)
print("list", l0, "=> SymmetricMatrix", m0)
import openturns as ot
ref_values = [[1.0, 0.0], [0.0, 0.5]]
mats = [ot.Matrix(ref_values),
ot.SquareMatrix(ref_values),
ot.TriangularMatrix(ref_values),
ot.SymmetricMatrix(ref_values),
ot.CovarianceMatrix(ref_values),
ot.CorrelationMatrix(ref_values)]
mats.extend([
ot.ComplexMatrix(ref_values),
ot.HermitianMatrix(ref_values),
ot.TriangularComplexMatrix(ref_values),
ot.SquareComplexMatrix(ref_values)])
for a in mats:
# try conversion
ref = ot.Matrix([[1.0, 0.0], [0.0, 0.5]])
iname = a.__class__.__name__
print('a=', a)
# try scalar mul
try:
s = 5.
ats = a * s
print('a*s=', ats)
sta = s * a
print('s*a=', sta)
#! /usr/bin/env python
from __future__ import print_function
import openturns as ot
from math import *
# DEFAULT CONSTRUCTOR AND STRING CONVERTER
print('test : default constructor and string converter')
# Default constructor
squareComplexMatrix0 = ot.SquareComplexMatrix()
# String converter
print('squareComplexMatrix0 = ', repr(squareComplexMatrix0))
# CONSTRUCTOR WITH SIZE, OPERATOR() AND STRING CONVERTER
print('test : constructor with size, operator() and string converter')
# Constructor with size
squareComplexMatrix1 = ot.SquareComplexMatrix(2)
# Check operator() methods
squareComplexMatrix1[0, 0] = 1. + 1j
squareComplexMatrix1[0, 1] = 3. + 1j
squareComplexMatrix1[1, 0] = 1.0j
squareComplexMatrix1[1, 1] = 5. + 1.j
# String converter
print('squareComplexMatrix1 = ', repr(squareComplexMatrix1))
# COPY CONSTRUCTOR AND STRING CONVERTER