def csrenameCB(self, gtkobj): meshobj = self.toolbox.current_mesh csname = meshobj.selectedCSName() menuitem = meshmenu.csmenu.Rename newnameparam = menuitem.get_arg('name') newnameparam.value = csname if parameterwidgets.getParameterValues( newnameparam, title="Rename cross section " + csname): menuitem.callWithDefaults(mesh=meshobj.path(), cross_section=csname)
def csrenameCB(self, gtkobj): meshobj = self.toolbox.current_mesh csname = meshobj.selectedCSName() menuitem = meshmenu.csmenu.Rename newnameparam = menuitem.get_arg('name') newnameparam.value = csname if parameterwidgets.getParameterValues( newnameparam, title="Rename cross section " + csname): menuitem.callWithDefaults(mesh=meshobj.path(), cross_section=csname)
def cseditCB(self, gtkobj): meshobj = self.toolbox.current_mesh csname = meshobj.selectedCSName() menuitem = meshmenu.csmenu.Edit csparam = menuitem.get_arg('cross_section') csparam.value = meshobj.selectedCS() if parameterwidgets.getParameterValues(csparam, title='Edit cross section ' + csname): menuitem.callWithDefaults(mesh=meshobj.path(), name=csname)
def cseditCB(self, gtkobj): meshobj = self.toolbox.current_mesh csname = meshobj.selectedCSName() menuitem = meshmenu.csmenu.Edit csparam = menuitem.get_arg('cross_section') csparam.value = meshobj.selectedCS() if parameterwidgets.getParameterValues( csparam, title='Edit cross section ' + csname): menuitem.callWithDefaults(mesh=meshobj.path(), name=csname)
def fieldinitbuttonCB(self, *args): # gtk callback, initialize field fld, bc = self.selectedFieldOrBC() if fld is not None: menuitem = meshmenu.Set_Field_Initializer # We can't simply use # parameter.getParameters(menuitem.get_arg('initializer')) # here, because the menu item's parameter accepts members # of the FieldInit base class, but we need to create a # widget for the appropriate derived class # (ScalarFieldInit, et al). It's the derived classes that # are the registered classes. param = parameter.RegisteredParameter( 'initializer', fieldinit.fieldInitDict[fld.classname()]) # Set the parameter value to the current initializer of # the appropriate field in the current mesh (context) -- # this is the value that the initializer widget will start # with. If it doesn't get set here, it will just have the # most recently-set one, which may be for a different # mesh. param.value = self.currentMeshContext().get_initializer(fld) init = parameterwidgets.getParameterValues( param, title = 'Initialize field ' + fld.name(), scope=self) if init is not None: menuitem.callWithDefaults(mesh=self.currentFullMeshName(), field=fld, initializer=init[0]) if bc is not None: menuitem = meshmenu.Boundary_Conditions.Set_BC_Initializer iparam = menuitem.get_arg('initializer') iparam.set(bc.get_initializer()) bcparam = menuitem.get_arg('bc') bcparam.set(bc.name()) # Make a bc parameter widget and put it in the local # widgetscope so that the initializer RCF can find it. bcwidget = bcparam.makeWidget() self.addWidget(bcwidget) if parameterwidgets.getParameters( iparam, scope=self, title='Initialize BC ' + bc.name()): menuitem.callWithDefaults(mesh=self.currentFullMeshName()) self.removeWidget(bcwidget) bcwidget.destroy()
def fieldinitbuttonCB(self, *args): # gtk callback, initialize field fld, bc = self.selectedFieldOrBC() if fld is not None: menuitem = meshmenu.Set_Field_Initializer # We can't simply use # parameter.getParameters(menuitem.get_arg('initializer')) # here, because the menu item's parameter accepts members # of the FieldInit base class, but we need to create a # widget for the appropriate derived class # (ScalarFieldInit, et al). It's the derived classes that # are the registered classes. param = parameter.RegisteredParameter( 'initializer', fieldinit.fieldInitDict[fld.classname()]) # Set the parameter value to the current initializer of # the appropriate field in the current mesh (context) -- # this is the value that the initializer widget will start # with. If it doesn't get set here, it will just have the # most recently-set one, which may be for a different # mesh. param.value = self.currentMeshContext().get_initializer(fld) init = parameterwidgets.getParameterValues( param, title = 'Initialize field ' + fld.name(), scope=self) if init is not None: menuitem.callWithDefaults(mesh=self.currentFullMeshName(), field=fld, initializer=init[0]) if bc is not None: menuitem = meshmenu.Boundary_Conditions.Set_BC_Initializer iparam = menuitem.get_arg('initializer') iparam.set(bc.get_initializer()) bcparam = menuitem.get_arg('bc') bcparam.set(bc.name()) # Make a bc parameter widget and put it in the local # widgetscope so that the initializer RCF can find it. bcwidget = bcparam.makeWidget() self.addWidget(bcwidget) if parameterwidgets.getParameters( iparam, scope=self, title='Initialize BC ' + bc.name()): menuitem.callWithDefaults(mesh=self.currentFullMeshName()) self.removeWidget(bcwidget) bcwidget.destroy()