openturns-examples 1.7-3 / usr / share / openturns / examples / t_features.py

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/usr/share/openturns/examples/t_features.py is in openturns-examples 1.7-3.

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The actual contents of the file can be viewed below. 

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#! /usr/bin/env python

from __future__ import print_function
import os

width = 40

# check that python can load OpenTURNS module
print('1: Python module load'.ljust(width), end=' ')
try:
    import openturns as ot
    print('OK')
except:
    print('no')

# check that python can find the Viewer module
# If it fails, check that matplotlib package is installed
print('2: Viewer (matplotlib)'.ljust(width), end=' ')
try:
    import openturns.viewer
    print('OK')
except:
    print('no')

# check that OpenTURNS can run R
# It should produce a file named testDraw.png
print('3: drawing (R)'.ljust(width), end=' ')
try:
    graph = ot.Normal().drawPDF()
    fname = 'testDraw.png'
    try:
        graph.draw(fname)
        os.remove(fname)
    except:
        raise
    print('OK')
except:
    print('no')

# check that rot package is installed
print('4: linear model (R.rot)'.ljust(width), end=' ')
try:
    lm = ot.LinearModelFactory().build(
        ot.Normal(2).getSample(10), ot.Normal().getSample(10))
    print('OK')
except:
    print('no')

# check XML support
print('5: serialization (LibXML2)'.ljust(width), end=' ')
try:
    storageManager = ot.XMLStorageManager('myFile.xml')
    print('OK')
except:
    print('no')

# check that analytical function are available
print('6: analytical function (muParser)'.ljust(width), end=' ')
try:
    f = ot.NumericalMathFunction(['x1', 'x2'], ['y'], ['x1+x2'])
    print('OK')
except:
    print('no')

# check that hmat library was found
print('7: HMatrix (hmat-oss)'.ljust(width), end=' ')
try:
    # This is a little bit tricky because HMat 1.0 fails with 1x1 matrices
    ot.ResourceMap.SetAsUnsignedInteger(
        'TemporalNormalProcess-SamplingMethod', 1)
    vertices = [[0.0, 0.0, 0.0]]
    vertices.append([1.0, 0.0, 0.0])
    vertices.append([0.0, 1.0, 0.0])
    vertices.append([0.0, 0.0, 1.0])
    simplices = [[0, 1, 2, 3]]
    # Discard messages from HMat
    ot.Log.Show(0)
    process = ot.TemporalNormalProcess(
        ot.ExponentialModel(3), ot.Mesh(vertices, simplices))
    f = process.getRealization()
    print('OK')
except:
    print('no')

# check that nlopt library was found
print('8: optimization (NLopt)'.ljust(width), end=' ')
try:
    problem = ot.OptimizationProblem()
    algo = ot.SLSQP()
    algo.setProblem(problem)
    print('OK')
except:
    print('no')

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