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# -*- coding: utf-8 -*-
#-------------------------------------------------------------------------------
# This file is part of Code_Saturne, a general-purpose CFD tool.
#
# Copyright (C) 1998-2019 EDF S.A.
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
# Street, Fifth Floor, Boston, MA 02110-1301, USA.
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
# Library modules import
#-------------------------------------------------------------------------------
import string
import unittest
#-------------------------------------------------------------------------------
# Application modules import
#-------------------------------------------------------------------------------
from code_saturne.model.XMLvariables import Model, Variables
from code_saturne.model.XMLmodel import ModelTest
from code_saturne.model.XMLengine import *
from code_saturne.model.TurbulenceNeptuneModel import TurbulenceModelsDescription
class NumericalParamEquatModel(Model):
"""
This class manages the turbulence objects in the XML file
"""
def __init__(self, case) :
"""
Constuctor.
"""
#
# XML file parameters
self.case = case
self.XMLThermo = self.case.xmlGetNode('thermophysical_models')
self.XMLNodeVariable = self.XMLThermo.xmlGetNode('variables')
self.XMLClosure = self.case.xmlGetNode('closure_modeling')
self.XMLTurbulence = self.XMLClosure.xmlInitNode('turbulence')
self.XMLTurbVariable = self.XMLTurbulence.xmlInitNode('variables')
self.XMLAddScalar = self.case.xmlInitNode('additional_scalars')
self.XMLScalar = self.XMLAddScalar.xmlInitNode('scalars')
self.XMLnonCond = self.XMLThermo.xmlInitNode('non_condensable_list')
self.imgra_model = ['iterative_handling', \
'sweep_linear', \
'sweep_linear_ext_neigh', \
'least_square_linear', \
'least_square_linear_ext_neigh', \
'iterative_handling_weighted', \
'least_square_linear_weighted', \
'least_square_linear_ext_neigh_weighted']
def defaultValues(self) :
default = {}
default['max_iter_number'] = 10000
default['solver_precision'] = 1e-5
default['solver_precision_alpha'] = 1e-8
default['solver_precision_enthal'] = 1e-7
default['slope_test'] = 'on'
default['flux_reconstruction'] = 'off'
default['order_scheme'] = 'solu'
default['order_scheme_pressure_turbulence'] = 'upwind'
default['solver'] = 'automatic'
default['gradient_reconstruction'] = 'sweep_linear_ext_neigh'
return default
def getVariableList(self) :
"""
return list of variables
"""
list = []
from code_saturne.model.MainFieldsModel import MainFieldsModel
for node in self.XMLNodeVariable.xmlGetNodeList('variable') :
if self._isPressure(node) != 1 :
# control to add enthalpy only if solved!!!
if self._isEnthalpy(node) == 1 :
field = node['field_id']
if MainFieldsModel(self.case).getEnergyResolution(field) == "on":
list.append(node['label'])
else:
list.append(node['label'])
if self.XMLTurbVariable != None:
for node in self.XMLTurbVariable.xmlGetNodeList('variable') :
list.append(node['label'])
for node in self.XMLScalar.xmlGetNodeList('variable') :
list.append(node['label'])
for node in self.XMLnonCond.xmlGetNodeList('variable') :
list.append(node['label'])
del MainFieldsModel
return list
def _isPressure(self, node) :
"""
Return : 1 if name of node is 'pressure', 0 if not
"""
if node and node['name'] == 'pressure':
return 1
else:
return 0
def _isTurbulenceVariable(self, node) :
"""
Return : 1 if name of node is a turbulence variable, 0 if not
"""
if node and node['name'] in TurbulenceModelsDescription.turbulenceVariables['all'] :
return 1
else:
return 0
def _isAlpha(self, node) :
"""
Return : 1 if name of node is 'alpha', 0 if not
"""
if node and node['name'] == 'volume_fraction':
return 1
else:
return 0
def _isEnthalpy(self, node):
"""
Return : 1 if name of node is 'enthalpy', 0 if not
"""
if node and node['name'] == 'enthalpy':
return 1
else:
return 0
def _getSchemeLabelNode(self, label):
""" Private method: return node called with label'label' for scheme nodes"""
for node in self.XMLNodeVariable.xmlGetNodeList('variable') :
if node['label'] == label:
if node['label'] == 'Pressure':
raise ValueError("This method does not run with pressure")
else:
return node
for node in self.XMLTurbVariable.xmlGetNodeList('variable') :
if node['label'] == label:
return node
for node in self.XMLScalar.xmlGetNodeList('variable') :
if node['label'] == label:
return node
for node in self.XMLnonCond.xmlGetNodeList('variable') :
if node['label'] == label:
return node
raise ValueError("This label does not exist: " + label)
@Variables.undoGlobal
def setSchemeModel(self, label, value) :
"""
Put value of order scheme for variable or scalar labelled label
only if it 's different of default value
"""
self.isInList(value, ('upwind', 'centered', 'solu'))
node = self._getSchemeLabelNode(label)
defval = self.defaultValues()['order_scheme']
if (self._isTurbulenceVariable(node)) :
defval = self.defaultValues()['order_scheme_pressure_turbulence']
if value == defval :
node.xmlRemoveChild('scheme')
else:
n = node.xmlInitNode('scheme')
n['choice'] = value
if value == "upwind":
self.setSlopeTestStatus(label, "off")
else:
self.setSlopeTestStatus(label, "on")
@Variables.noUndo
def getSchemeModel(self, label) :
"""
Return value of order scheme for variable labelled label
"""
node = self._getSchemeLabelNode(label)
value = self.defaultValues()['order_scheme']
if (self._isTurbulenceVariable(node)) :
value = self.defaultValues()['order_scheme_pressure_turbulence']
n = node.xmlGetNode('scheme')
if n:
value = n['choice']
return value
@Variables.undoLocal
def setSlopeTestStatus(self, label, status) :
"""
Put status of slope test for variable labelled label
"""
self.isOnOff(status)
node = self._getSchemeLabelNode(label)
if status == self.defaultValues()['slope_test']:
node.xmlRemoveChild('slope_test')
else:
n = node.xmlInitNode('slope_test')
n['status'] = status
@Variables.noUndo
def getSlopeTestStatus(self, label) :
"""
Return value of slope test for variable labelled label
"""
node = self._getSchemeLabelNode(label)
value = self.defaultValues()['slope_test']
n = node.xmlGetNode('slope_test')
if n:
value = n['status']
return value
@Variables.undoLocal
def setSolverModel(self, label, value) :
"""
Put value of solver for variable or scalar labelled label
"""
self.isInList(value, ('automatic', 'jacobi', 'pcg', 'cgstab', 'jacobi_saturne', 'pcg_saturne', 'bicgstab_saturne', 'bicgstab2_saturne', 'gmres_saturne', 'gauss_seidel_saturne', 'sym_gauss_seidel_saturne', 'pcr3_saturne'))
node = self._getSchemeLabelNode(label)
default = self.defaultValues()['solver']
if value == default:
node.xmlRemoveChild('solver')
else:
n = node.xmlInitNode('solver')
n['choice'] = value
@Variables.noUndo
def getSolverModel(self, label) :
"""
Return value of solver for variable labelled label
"""
node = self._getSchemeLabelNode(label)
value = self.defaultValues()['solver']
n = node.xmlGetNode('solver')
if n:
value = n['choice']
return value
@Variables.undoLocal
def setSolverPrecision(self, label, value) :
"""
Put value of solveur precision for variable labelled label
"""
self.isPositiveFloat(value)
node = self._getSchemeLabelNode(label)
default = self.defaultValues()['solver_precision']
if self._isAlpha(node):
default = self.defaultValues()['solver_precision_alpha']
elif self._isEnthalpy(node):
default = self.defaultValues()['solver_precision_enthal']
if value != default:
node.xmlSetData('solver_precision', value)
else:
node.xmlRemoveChild('solver_precision')
@Variables.noUndo
def getSolverPrecision(self, label) :
"""
Return value of solveur precision for variable labelled label
"""
node = self._getSchemeLabelNode(label)
default = self.defaultValues()['solver_precision']
if self._isAlpha(node):
default = self.defaultValues()['solver_precision_alpha']
elif self._isEnthalpy(node):
default = self.defaultValues()['solver_precision_enthal']
value = node.xmlGetDouble('solver_precision')
if value == None:
value = default
return value
@Variables.undoLocal
def setMaximumIteration(self, label, value) :
"""
Put number of maximum iterations for variable labelled label
"""
self.isInt(value)
node = self._getSchemeLabelNode(label)
default = self.defaultValues()['max_iter_number']
if value != default :
node.xmlSetData('max_iter_number', value)
else:
node.xmlRemoveChild('max_iter_number')
@Variables.noUndo
def getMaximumIteration(self, label) :
"""
Return number of maximum iterations for variable labelled label
"""
node = self._getSchemeLabelNode(label)
value = node.xmlGetInt('max_iter_number')
if value == None:
value = self.defaultValues()['max_iter_number']
return value
def getPressureNodefields(self):
for node in self.XMLNodeVariable.xmlGetNodeList('variable') :
if node['label'] == 'Pressure':
return node
#-------------------------------------------------------------------------------
# DefineUsersScalars test case
#-------------------------------------------------------------------------------
class NumericalParamEquatTestCase(ModelTest):
"""
"""
def checkNumericalParamEquatInstantiation(self):
"""Check whether the NumericalParamEquationModel class could be instantiated"""
model = None
model = NumericalParamEquatModel(self.case)
assert model != None, 'Could not instantiate NumericalParamEquationModel'
def checkGetVariableList(self):
"""Check whether the NumericalParamEquationModel class could get the VariableList"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
assert mdl.getVariableList() == ['enthalpy1', 'alpha1', 'U1', 'V1', 'W1'],\
'Could not get VariableList'
def checkGetandSetSchemeModel(self):
"""Check whether the NumericalParamEquationModel class could be set and get SchemeModel"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
mdl.setSchemeModel('pressure','solu')
doc = '''<variable field_id="none" label="Pressure" name="pressure">
<listing_printing status="on"/>
<postprocessing_recording status="on"/>
<scheme choice="solu"/>
</variable>'''
assert mdl.getPressureNodefields() == self.xmlNodeFromString(doc),\
'Could not set SchemeModel'
assert mdl.getSchemeModel('Pressure') == 'solu',\
'Could not get SchemeModel'
def checkGetandSetSlopeTestStatus(self):
"""Check whether the NumericalParamEquationModel class could be set and get SlopeTestStatus"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
mdl.setSlopeTestStatus('Pressure','off')
doc = '''<variable field_id="none" label="Pressure" name="pressure">
<listing_printing status="on"/>
<postprocessing_recording status="on"/>
<slope_test status="off"/>
</variable>'''
assert mdl.getPressureNodefields() == self.xmlNodeFromString(doc),\
'Could not set SlopeTestStatus'
assert mdl.getSlopeTestStatus('Pressure') == 'off',\
'Could not get SlopeTestStatus'
def checkGetandSetSolverModel(self):
"""Check whether the NumericalParamEquationModel class could be set and get SolverModel"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
mdl.setSolverModel('Pressure','jacobi')
doc = '''<variable field_id="none" label="Pressure" name="pressure">
<listing_printing status="on"/>
<postprocessing_recording status="on"/>
<solver choice="jacobi"/>
</variable>'''
assert mdl.getPressureNodefields() == self.xmlNodeFromString(doc),\
'Could not set SolverModel'
assert mdl.getSolverModel('Pressure') == 'jacobi',\
'Could not get SolverModel'
def checkGetandSetSolverPrecision(self):
"""Check whether the NumericalParamEquationModel class could be set and get SolverPrecision"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
mdl.setSolverPrecision('Pressure',56.23)
doc = '''<variable field_id="none" label="Pressure" name="pressure">
<listing_printing status="on"/>
<postprocessing_recording status="on"/>
<solver_precision>
56.23
</solver_precision>
</variable>'''
assert mdl.getPressureNodefields() == self.xmlNodeFromString(doc),\
'Could not set SolverPrecision'
assert mdl.getSolverPrecision('Pressure') == 56.23,\
'Could not get SolverPrecision'
def checkGetandSetMaximumIteration(self):
"""Check whether the NumericalParamEquationModel class could be set and get MaximumIteration"""
from MainFieldsModel import MainFieldsModel
MainFieldsModel(self.case).addField()
mdl = NumericalParamEquatModel(self.case)
mdl.setMaximumIteration('Pressure',18)
doc = '''<variable field_id="none" label="Pressure" name="pressure">
<listing_printing status="on"/>
<postprocessing_recording status="on"/>
<max_iter_number>
18
</max_iter_number>
</variable>'''
assert mdl.getPressureNodefields() == self.xmlNodeFromString(doc),\
'Could not set MaximumIteration'
assert mdl.getMaximumIteration('Pressure') == 18,\
'Could not get MaximumIteration'
def suite():
testSuite = unittest.makeSuite(NumericalParamEquatTestCase, "check")
return testSuite
def runTest():
print("NumericalParamEquatTestCase")
runner = unittest.TextTestRunner()
runner.run(suite())
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