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#! /usr/bin/env python
from __future__ import print_function
from openturns import *
TESTPREAMBLE()
try:
# TEST NUMBER ZERO : DEFAULT CONSTRUCTOR AND STRING CONVERTER
print("test number zero : default constructor and string converter")
# Default constructor
symmetricTensor0 = SymmetricTensor()
# String converter
print("symmetricTensor0 = ", repr(symmetricTensor0))
# TEST NUMBER ONE : CONSTRUCTOR WITH SIZE, OPERATOR() AND STRING CONVERTER
print(
"test number one : constructor with size, operator() and string converter")
# Constructor with size
symmetricTensor1 = SymmetricTensor(2, 3)
# Check operator() methods
symmetricTensor1[0, 0, 0] = 1.
symmetricTensor1[1, 0, 0] = 2.
symmetricTensor1[1, 1, 0] = 3.
symmetricTensor1[0, 0, 1] = 4.
symmetricTensor1[1, 0, 1] = 5.
symmetricTensor1[1, 1, 1] = 6.
symmetricTensor1[0, 0, 2] = 7.
symmetricTensor1[1, 0, 2] = 8.
symmetricTensor1[1, 1, 2] = 9.
# String converter
print("symmetricTensor1 = ", repr(symmetricTensor1))
print("values = %.6f" % symmetricTensor1[0, 0, 0], " %.6f" % symmetricTensor1[0, 1, 0], " %.6f" % symmetricTensor1[1, 0, 0], " %.6f" % symmetricTensor1[1, 1, 0], " %.6f" % symmetricTensor1[0, 0, 1], " %.6f" % symmetricTensor1[
0, 1, 1], " %.6f" % symmetricTensor1[1, 0, 1], " %.6f" % symmetricTensor1[1, 1, 1], " %.6f" % symmetricTensor1[0, 0, 2], " %.6f" % symmetricTensor1[0, 1, 2], " %.6f" % symmetricTensor1[1, 0, 2], " %.6f" % symmetricTensor1[1, 1, 2])
# TEST NUMBER TWO : COPY CONSTRUCTOR AND STRING CONVERTER
print("test number two : copy constructor and string converter")
# Copy constructor
symmetricTensor2 = SymmetricTensor(symmetricTensor1)
# String converter
print("symmetricTensor2 = ", repr(symmetricTensor2))
# TEST NUMBER THREE : GET DIMENSIONS METHODS
print("test number three : get dimensions methods")
# Get dimension methods
print("symmetricTensor1's nbRows = ", symmetricTensor1.getNbRows())
print("symmetricTensor1's nbColumns = ", symmetricTensor1.getNbColumns())
print("symmetricTensor1's nbSheets = ", symmetricTensor1.getNbSheets())
# TEST NUMBER FOUR : ASSIGNMENT METHOD
print("test number four : assignment method")
# no sense with python
# TEST NUMBER FIVE : ISEMPTY METHOD
print("test number five : isEmpty method")
# Check method isEmpty
symmetricTensor5 = SymmetricTensor()
symmetricTensor6 = SymmetricTensor()
print("symmetricTensor1 is empty = ", symmetricTensor1.isEmpty())
print("symmetricTensor0 is empty = ", symmetricTensor0.isEmpty())
print("symmetricTensor5 is empty = ", symmetricTensor5.isEmpty())
print("symmetricTensor6 is empty = ", symmetricTensor6.isEmpty())
# TEST NUMBER SIX : GETSHEET AND SETSHEET METHODS
print("symmetricTensor1 = ", repr(symmetricTensor1))
sheet1 = symmetricTensor1.getSheet(1)
print("symmetricTensor1.getSheet(1) = ", repr(sheet1))
sheet2 = SymmetricMatrix(2)
sheet2[0, 0] = 0.4
sheet2[1, 0] = 0.5
sheet2[1, 1] = 0.6
print("sheet2 = ", repr(sheet2))
symmetricTensor1.setSheet(1, sheet2)
print("symmetricTensor1 = ", repr(symmetricTensor1))
except:
import sys
print("t_SymmetricTensor_std.py", sys.exc_info()[0], sys.exc_info()[1])
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