# *************************************************************************** # * Copyright (c) 2016 Ofentse Kgoa * # * Copyright (c) 2018 Bernd Hahnebach * # * Based on the FemElementGeometry1D by Bernd Hahnebach * # * * # * This file is part of the FreeCAD CAx development system. * # * * # * This program is free software; you can redistribute it and/or modify * # * it under the terms of the GNU Lesser General Public License (LGPL) * # * as published by the Free Software Foundation; either version 2 of * # * the License, or (at your option) any later version. * # * for detail see the LICENCE text file. * # * * # * 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 Library General Public License for more details. * # * * # * You should have received a copy of the GNU Library General Public * # * License along with this program; if not, write to the Free Software * # * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * # * USA * # * * # *************************************************************************** __title__ = "FreeCAD FEM element fluid 1D task panel for the document object" __author__ = "Ofentse Kgoa, Bernd Hahnebach" __url__ = "https://www.freecad.org" ## @package task_element_fluid1D # \ingroup FEM # \brief task panel for element fluid 1D object from PySide import QtCore from PySide import QtGui import FreeCAD import FreeCADGui from FreeCAD import Units from femguiutils import selection_widgets from femobjects import element_fluid1D from . import base_femtaskpanel class _TaskPanel(base_femtaskpanel._BaseTaskPanel): """ The TaskPanel for editing References property of ElementFluid1D objects """ def __init__(self, obj): super().__init__(obj) # parameter widget self.parameterWidget = FreeCADGui.PySideUic.loadUi( FreeCAD.getHomePath() + "Mod/Fem/Resources/ui/ElementFluid1D.ui" ) QtCore.QObject.connect( self.parameterWidget.cb_section_type, QtCore.SIGNAL("activated(int)"), self.sectiontype_changed, ) QtCore.QObject.connect( self.parameterWidget.cb_liquid_section_type, QtCore.SIGNAL("activated(int)"), self.liquidsectiontype_changed, ) QtCore.QObject.connect( self.parameterWidget.if_manning_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.manning_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_manning_radius, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.manning_radius_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_manning_coefficient, QtCore.SIGNAL("valueChanged(double)"), self.manning_coefficient_changed, ) QtCore.QObject.connect( self.parameterWidget.if_enlarge_area1, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.enlarge_area1_changed, ) QtCore.QObject.connect( self.parameterWidget.if_enlarge_area2, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.enlarge_area2_changed, ) QtCore.QObject.connect( self.parameterWidget.if_contract_area1, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.contract_area1_changed, ) QtCore.QObject.connect( self.parameterWidget.if_contract_area2, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.contract_area2_changed, ) QtCore.QObject.connect( self.parameterWidget.if_inletpressure, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.inlet_pressure_changed, ) QtCore.QObject.connect( self.parameterWidget.if_outletpressure, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.outlet_pressure_changed, ) QtCore.QObject.connect( self.parameterWidget.if_inletflowrate, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.inlet_flowrate_changed, ) QtCore.QObject.connect( self.parameterWidget.if_outletflowrate, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.outlet_flowrate_changed, ) QtCore.QObject.connect( self.parameterWidget.gb_inletpressure, QtCore.SIGNAL("clicked(bool)"), self.inlet_pressure_active, ) QtCore.QObject.connect( self.parameterWidget.gb_outletpressure, QtCore.SIGNAL("clicked(bool)"), self.outlet_pressure_active, ) QtCore.QObject.connect( self.parameterWidget.gb_inletflowrate, QtCore.SIGNAL("clicked(bool)"), self.inlet_flowrate_active, ) QtCore.QObject.connect( self.parameterWidget.gb_outletflowrate, QtCore.SIGNAL("clicked(bool)"), self.outlet_flowrate_active, ) QtCore.QObject.connect( self.parameterWidget.if_entrance_pipe_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.entrance_pipe_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_entrance_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.entrance_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_diaphragm_pipe_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.diaphragm_pipe_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_diaphragm_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.diaphragm_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_bend_pipe_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.bend_pipe_area_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_bradius_pdiameter, QtCore.SIGNAL("valueChanged(double)"), self.bradius_pdiameter_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_bend_angle, QtCore.SIGNAL("valueChanged(double)"), self.bend_angle_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_bend_loss_coefficient, QtCore.SIGNAL("valueChanged(double)"), self.bend_loss_coefficient_changed, ) QtCore.QObject.connect( self.parameterWidget.if_gatevalve_pipe_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.gatevalve_pipe_area_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_gatevalve_closing_coeff, QtCore.SIGNAL("valueChanged(double)"), self.gatevalve_closing_coeff_changed, ) QtCore.QObject.connect( self.parameterWidget.if_colebrooke_pipe_area, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.colebrooke_pipe_area_changed, ) QtCore.QObject.connect( self.parameterWidget.if_colebrooke_radius, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.colebrooke_radius_changed, ) QtCore.QObject.connect( self.parameterWidget.if_colebrooke_grain_diameter, QtCore.SIGNAL("valueChanged(Base::Quantity)"), self.colebrooke_grain_diameter_changed, ) QtCore.QObject.connect( self.parameterWidget.sb_colebrooke_form_factor, QtCore.SIGNAL("valueChanged(double)"), self.colebrooke_form_factor_changed, ) QtCore.QObject.connect( self.parameterWidget.tw_pump_characteristics, QtCore.SIGNAL("cellChanged(int, int)"), self.pump_characteristics_changed, ) # some fluid types deactivated since they are not implemented in ccx writer self.parameterWidget.cb_section_type.addItems( element_fluid1D.ElementFluid1D.known_fluid_types ) self.parameterWidget.cb_liquid_section_type.addItems( element_fluid1D.ElementFluid1D.known_liquid_types ) self.parameterWidget.cb_gas_section_type.addItems( element_fluid1D.ElementFluid1D.known_gas_types ) self.parameterWidget.cb_channel_section_type.addItems( element_fluid1D.ElementFluid1D.known_channel_types ) self.get_fluidsection_props() self.updateParameterWidget() # geometry selection widget self.selectionWidget = selection_widgets.GeometryElementsSelection( obj.References, ["Edge"], False, True ) # form made from param and selection widget self.form = [self.parameterWidget, self.selectionWidget] def accept(self): self.set_fluidsection_props() self.obj.References = self.selectionWidget.references self.selectionWidget.finish_selection() return super().accept() def reject(self): self.selectionWidget.finish_selection() return super().reject() def get_fluidsection_props(self): self.SectionType = self.obj.SectionType self.LiquidSectionType = self.obj.LiquidSectionType self.ManningArea = self.obj.ManningArea self.ManningRadius = self.obj.ManningRadius self.ManningCoefficient = self.obj.ManningCoefficient self.EnlargeArea1 = self.obj.EnlargeArea1 self.EnlargeArea2 = self.obj.EnlargeArea2 self.ContractArea1 = self.obj.ContractArea1 self.ContractArea2 = self.obj.ContractArea2 self.OutletPressure = self.obj.OutletPressure self.InletPressure = self.obj.InletPressure self.OutletFlowRate = self.obj.OutletFlowRate self.InletFlowRate = self.obj.InletFlowRate self.OutletPressureActive = self.obj.OutletPressureActive self.InletPressureActive = self.obj.InletPressureActive self.OutletFlowRateActive = self.obj.OutletFlowRateActive self.InletFlowRateActive = self.obj.InletFlowRateActive self.EntrancePipeArea = self.obj.EntrancePipeArea self.EntranceArea = self.obj.EntranceArea self.DiaphragmPipeArea = self.obj.DiaphragmPipeArea self.DiaphragmArea = self.obj.DiaphragmArea self.BendPipeArea = self.obj.BendPipeArea self.BendRadiusDiameter = self.obj.BendRadiusDiameter self.BendAngle = self.obj.BendAngle self.BendLossCoefficient = self.obj.BendLossCoefficient self.GateValvePipeArea = self.obj.GateValvePipeArea self.GateValveClosingCoeff = self.obj.GateValveClosingCoeff self.ColebrookeArea = self.obj.ColebrookeArea self.ColebrookeRadius = self.obj.ColebrookeRadius self.ColebrookeGrainDiameter = self.obj.ColebrookeGrainDiameter self.ColebrookeFormFactor = self.obj.ColebrookeFormFactor self.PumpFlowRate = self.obj.PumpFlowRate self.PumpHeadLoss = self.obj.PumpHeadLoss def set_fluidsection_props(self): self.obj.LiquidSectionType = self.LiquidSectionType self.obj.SectionType = self.SectionType self.obj.ManningArea = self.ManningArea self.obj.ManningRadius = self.ManningRadius self.obj.ManningCoefficient = self.ManningCoefficient self.obj.EnlargeArea1 = self.EnlargeArea1 self.obj.EnlargeArea2 = self.EnlargeArea2 self.obj.ContractArea1 = self.ContractArea1 self.obj.ContractArea2 = self.ContractArea2 self.obj.OutletPressure = self.OutletPressure self.obj.InletPressure = self.InletPressure self.obj.OutletFlowRate = self.OutletFlowRate self.obj.InletFlowRate = self.InletFlowRate self.obj.OutletPressureActive = self.OutletPressureActive self.obj.InletPressureActive = self.InletPressureActive self.obj.OutletFlowRateActive = self.OutletFlowRateActive self.obj.InletFlowRateActive = self.InletFlowRateActive self.obj.EntrancePipeArea = self.EntrancePipeArea self.obj.EntranceArea = self.EntranceArea self.obj.DiaphragmPipeArea = self.DiaphragmPipeArea self.obj.DiaphragmArea = self.DiaphragmArea self.obj.BendPipeArea = self.BendPipeArea self.obj.BendRadiusDiameter = self.BendRadiusDiameter self.obj.BendAngle = self.BendAngle self.obj.BendLossCoefficient = self.BendLossCoefficient self.obj.GateValvePipeArea = self.GateValvePipeArea self.obj.GateValveClosingCoeff = self.GateValveClosingCoeff self.obj.ColebrookeArea = self.ColebrookeArea self.obj.ColebrookeRadius = self.ColebrookeRadius self.obj.ColebrookeGrainDiameter = self.ColebrookeGrainDiameter self.obj.ColebrookeFormFactor = self.ColebrookeFormFactor self.obj.PumpFlowRate = self.PumpFlowRate self.obj.PumpHeadLoss = self.PumpHeadLoss def updateParameterWidget(self): "fills the widgets" index_sectiontype = self.parameterWidget.cb_section_type.findText(self.SectionType) self.parameterWidget.cb_section_type.setCurrentIndex(index_sectiontype) self.parameterWidget.sw_section_type.setCurrentIndex(index_sectiontype) index_liquidsectiontype = self.parameterWidget.cb_liquid_section_type.findText( self.LiquidSectionType ) self.parameterWidget.cb_liquid_section_type.setCurrentIndex(index_liquidsectiontype) self.parameterWidget.sw_liquid_section_type.setCurrentIndex(index_liquidsectiontype) self.parameterWidget.if_manning_area.setText(self.ManningArea.UserString) self.parameterWidget.if_manning_radius.setText(self.ManningRadius.UserString) self.parameterWidget.sb_manning_coefficient.setValue(self.ManningCoefficient) self.parameterWidget.if_enlarge_area1.setText(self.EnlargeArea1.UserString) self.parameterWidget.if_enlarge_area2.setText(self.EnlargeArea2.UserString) self.parameterWidget.if_contract_area1.setText(self.ContractArea1.UserString) self.parameterWidget.if_contract_area2.setText(self.ContractArea2.UserString) self.parameterWidget.if_inletpressure.setText( FreeCAD.Units.Quantity(1000 * self.InletPressure, FreeCAD.Units.Pressure).UserString ) self.parameterWidget.if_outletpressure.setText( FreeCAD.Units.Quantity(1000 * self.OutletPressure, FreeCAD.Units.Pressure).UserString ) self.parameterWidget.if_inletflowrate.setText(str(self.InletFlowRate)) self.parameterWidget.if_outletflowrate.setText(str(self.OutletFlowRate)) self.parameterWidget.gb_inletpressure.setChecked(self.InletPressureActive) self.parameterWidget.gb_outletpressure.setChecked(self.OutletPressureActive) self.parameterWidget.gb_inletflowrate.setChecked(self.InletFlowRateActive) self.parameterWidget.gb_outletflowrate.setChecked(self.OutletFlowRateActive) self.parameterWidget.if_entrance_pipe_area.setText(self.EntrancePipeArea.UserString) self.parameterWidget.if_entrance_area.setText(self.EntranceArea.UserString) self.parameterWidget.if_diaphragm_pipe_area.setText(self.DiaphragmPipeArea.UserString) self.parameterWidget.if_diaphragm_area.setText(self.DiaphragmArea.UserString) self.parameterWidget.if_bend_pipe_area.setText(self.BendPipeArea.UserString) self.parameterWidget.sb_bradius_pdiameter.setValue(self.BendRadiusDiameter) self.parameterWidget.sb_bend_angle.setValue(self.BendAngle) self.parameterWidget.sb_bend_loss_coefficient.setValue(self.BendLossCoefficient) self.parameterWidget.if_gatevalve_pipe_area.setText(self.GateValvePipeArea.UserString) self.parameterWidget.sb_gatevalve_closing_coeff.setValue(self.GateValveClosingCoeff) self.parameterWidget.if_colebrooke_pipe_area.setText(self.ColebrookeArea.UserString) self.parameterWidget.if_colebrooke_radius.setText(self.ColebrookeRadius.UserString) self.parameterWidget.if_colebrooke_grain_diameter.setText( self.ColebrookeGrainDiameter.UserString ) self.parameterWidget.sb_colebrooke_form_factor.setValue(self.ColebrookeFormFactor) for i in range(len(self.PumpFlowRate)): self.parameterWidget.tw_pump_characteristics.setItem( i, 0, QtGui.QTableWidgetItem(str(self.PumpFlowRate[i])) ) self.parameterWidget.tw_pump_characteristics.setItem( i, 1, QtGui.QTableWidgetItem(str(self.PumpHeadLoss[i])) ) def sectiontype_changed(self, index): if index < 0: return self.parameterWidget.cb_section_type.setCurrentIndex(index) self.parameterWidget.sw_section_type.setCurrentIndex(index) # parameterWidget returns unicode self.SectionType = str(self.parameterWidget.cb_section_type.itemText(index)) def liquidsectiontype_changed(self, index): if index < 0: return self.parameterWidget.cb_liquid_section_type.setCurrentIndex(index) self.parameterWidget.sw_liquid_section_type.setCurrentIndex(index) # parameterWidget returns unicode self.LiquidSectionType = str(self.parameterWidget.cb_liquid_section_type.itemText(index)) def manning_area_changed(self, base_quantity_value): self.ManningArea = base_quantity_value def manning_radius_changed(self, base_quantity_value): self.ManningRadius = base_quantity_value def manning_coefficient_changed(self, base_quantity_value): self.ManningCoefficient = base_quantity_value def enlarge_area1_changed(self, base_quantity_value): self.EnlargeArea1 = base_quantity_value def enlarge_area2_changed(self, base_quantity_value): self.EnlargeArea2 = base_quantity_value def contract_area1_changed(self, base_quantity_value): self.ContractArea1 = base_quantity_value def contract_area2_changed(self, base_quantity_value): self.ContractArea2 = base_quantity_value def inlet_pressure_changed(self, base_quantity_value): self.InletPressure = Units.Quantity(base_quantity_value).getValueAs("MPa").Value def outlet_pressure_changed(self, base_quantity_value): self.OutletPressure = Units.Quantity(base_quantity_value).getValueAs("MPa").Value def inlet_flowrate_changed(self, base_quantity_value): self.InletFlowRate = Units.Quantity(base_quantity_value).getValueAs("kg/s").Value def outlet_flowrate_changed(self, base_quantity_value): self.OutletFlowRate = Units.Quantity(base_quantity_value).getValueAs("kg/s").Value def inlet_pressure_active(self, active): self.InletPressureActive = active def outlet_pressure_active(self, active): self.OutletPressureActive = active def inlet_flowrate_active(self, active): self.InletFlowRateActive = active def outlet_flowrate_active(self, active): self.OutletFlowRateActive = active def entrance_pipe_area_changed(self, base_quantity_value): self.EntrancePipeArea = base_quantity_value def entrance_area_changed(self, base_quantity_value): self.EntranceArea = base_quantity_value def diaphragm_pipe_area_changed(self, base_quantity_value): self.DiaphragmPipeArea = base_quantity_value def diaphragm_area_changed(self, base_quantity_value): self.DiaphragmArea = base_quantity_value def bend_pipe_area_changed(self, base_quantity_value): self.BendPipeArea = base_quantity_value def bradius_pdiameter_changed(self, base_quantity_value): self.BendRadiusDiameter = base_quantity_value def bend_angle_changed(self, base_quantity_value): self.BendAngle = base_quantity_value def bend_loss_coefficient_changed(self, base_quantity_value): self.BendLossCoefficient = base_quantity_value def gatevalve_pipe_area_changed(self, base_quantity_value): self.GateValvePipeArea = base_quantity_value def gatevalve_closing_coeff_changed(self, base_quantity_value): self.GateValveClosingCoeff = base_quantity_value def colebrooke_pipe_area_changed(self, base_quantity_value): self.ColebrookeArea = base_quantity_value def colebrooke_radius_changed(self, base_quantity_value): self.ColebrookeRadius = base_quantity_value def colebrooke_grain_diameter_changed(self, base_quantity_value): self.ColebrookeGrainDiameter = base_quantity_value def colebrooke_form_factor_changed(self, base_quantity_value): self.ColebrookeFormFactor = base_quantity_value def pump_characteristics_changed(self, row, column): if column == 0: self.PumpFlowRate[row] = float( self.parameterWidget.tw_pump_characteristics.item(row, column).text() ) else: self.PumpHeadLoss[row] = float( self.parameterWidget.tw_pump_characteristics.item(row, column).text() )