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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.
#-------------------------------------------------------------------------------
"""
This module contains the following classes:
- BoundaryConditionsEnergyView
"""
#-------------------------------------------------------------------------------
# Standard modules
#-------------------------------------------------------------------------------
import string, logging
#-------------------------------------------------------------------------------
# Third-party modules
#-------------------------------------------------------------------------------
from code_saturne.Base.QtCore import *
from code_saturne.Base.QtGui import *
from code_saturne.Base.QtWidgets import *
#-------------------------------------------------------------------------------
# Application modules import
#-------------------------------------------------------------------------------
from code_saturne.Pages.BoundaryConditionsEnergy import Ui_BoundaryConditionsEnergy
from code_saturne.model.Common import GuiParam
from code_saturne.Base.QtPage import DoubleValidator, ComboModel, from_qvariant
from code_saturne.model.MainFieldsModel import MainFieldsModel
from code_saturne.model.ThermodynamicsModel import ThermodynamicsModel
#-------------------------------------------------------------------------------
# log config
#-------------------------------------------------------------------------------
logging.basicConfig()
log = logging.getLogger("BoundaryConditionsEnergyView")
log.setLevel(GuiParam.DEBUG)
#-------------------------------------------------------------------------------
# Main class
#-------------------------------------------------------------------------------
class BoundaryConditionsEnergyView(QWidget, Ui_BoundaryConditionsEnergy) :
"""
Boundary condition for energy
"""
def __init__(self, parent):
"""
Constructor
"""
QWidget.__init__(self, parent)
Ui_BoundaryConditionsEnergy.__init__(self)
self.setupUi(self)
# Connections
self.comboBoxEnergy.activated[str].connect(self.__slotChoiceEnergy)
self.__modelEnergy = ComboModel(self.comboBoxEnergy, 1, 1)
self.lineEditEnergy.textChanged[str].connect(self.__slotEnergy)
validatorEner = DoubleValidator(self.lineEditEnergy)
self.lineEditEnergy.setValidator(validatorEner)
def setup(self, case, fieldId):
"""
Setup the widget
"""
self.case = case
self.__boundary = None
self.__currentField = fieldId
def showWidget(self, boundary):
"""
Show the widget
"""
self.__boundary = boundary
for nb in range(len(self.__modelEnergy.getItems())):
self.__modelEnergy.delItem(0)
if self.__boundary.getNature() == "inlet" or self.__boundary.getNature() == "outlet":
self.__modelEnergy.addItem(self.tr("Imposed enthalpy"), 'dirichlet')
self.__modelEnergy.addItem(self.tr("Thermal flux"), 'flux')
self.__modelEnergy.addItem(self.tr("Temperature"), 'timp_K')
self.__modelEnergy.addItem(self.tr("Saturation enthalpy"), 'hsat_P')
elif self.__boundary.getNature() == "wall" :
self.__modelEnergy.addItem(self.tr("Flux"), 'flux')
self.__modelEnergy.addItem(self.tr("Temperature"), 'temperature')
if self.__boundary.getNature() == "inlet" or self.__boundary.getNature() == "outlet":
if MainFieldsModel(self.case).getEnergyResolution(self.__currentField) == 'on' :
energychoice = self.__boundary.getEnthalpyChoice(self.__currentField)
self.__modelEnergy.setItem(str_model=energychoice)
if energychoice == "hsat_P" :
self.lineEditEnergy.hide()
self.labelEnergy.hide()
else :
self.lineEditEnergy.show()
self.labelEnergy.show()
val = self.__boundary.getEnthalpy(self.__currentField)
self.lineEditEnergy.setText(str(val))
if energychoice == 'dirichlet' :
self.labelEnergy.setText('J/kg')
elif energychoice == 'flux' :
self.labelEnergy.setText('W/m2')
else :
self.labelEnergy.setText('K')
self.show()
if ThermodynamicsModel(self.case).getMaterials(self.__currentField) == 'user_material' :
self.__modelEnergy.disableItem(2)
self.__modelEnergy.disableItem(3)
else :
self.__modelEnergy.enableItem(2)
self.__modelEnergy.enableItem(3)
else :
self.hideWidget()
elif self.__boundary.getNature() == "wall" :
if len(MainFieldsModel(self.case).getEnthalpyResolvedField()) != 0 :
energychoice = self.__boundary.getEnthalpyChoice("none")
self.__modelEnergy.setItem(str_model=energychoice)
val = self.__boundary.getEnthalpy("none")
self.lineEditEnergy.setText(str(val))
if energychoice == 'flux' :
self.labelEnergy.setText('W/m2')
else :
self.labelEnergy.setText('K')
self.lineEditEnergy.show()
self.labelEnergy.show()
self.show()
else :
self.hideWidget()
def hideWidget(self):
"""
Hide the widget
"""
self.hide()
@pyqtSlot(str)
def __slotChoiceEnergy(self, text):
"""
INPUT choice of method of calculation of the energy
"""
energy_choice = self.__modelEnergy.dicoV2M[str(text)]
self.__boundary.setEnthalpyChoice(self.__currentField, energy_choice)
if energy_choice == "hsat_P" :
self.lineEditEnergy.hide()
self.labelEnergy.hide()
else :
self.lineEditEnergy.show()
self.labelEnergy.show()
val = self.__boundary.getEnthalpy(self.__currentField)
self.lineEditEnergy.setText(str(val))
if energy_choice == 'dirichlet':
self.labelEnergy.setText('J/kg')
elif energy_choice == 'flux' :
self.labelEnergy.setText('W/m2')
else :
self.labelEnergy.setText('K')
@pyqtSlot(str)
def __slotEnergy(self, text):
"""
INPUT energy value
"""
if self.lineEditEnergy.validator().state == QValidator.Acceptable:
value = from_qvariant(text, float)
self.__boundary.setEnthalpy(self.__currentField, value)
def tr(self, text):
"""
Translation
"""
return text
#-------------------------------------------------------------------------------
# End
#-------------------------------------------------------------------------------
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