def callFunction(self): """ Wraps the callback function so that it is only called the first time the callFunction is called. """ if not self.injected: UserEvent.callFunction(self) #Inject electrons immediately. self.injected = True
def callFunction(self): """ Wraps the callback function so that it is only called the first time the callFunction is called. """ if not self.injected: UserEvent.callFunction(self) #Inject electrons immediately. loadrho(self.getElectronContainer().pgroup) self.injected = True print("Particles injected")
def callFunction(self, *args, **kwargs): """ The method that is passed to the decorator, i.e. installafterstep(self.callFunction) This function adds the logic of checking the current iteration time against the times at which we'd like to evaluate the callback function and passes the appropriate arguments to the callback. Args: self: The DiagnosticsBySteps object --- standard notation for object oriented python. """ if len(self.times) == 0: #If no desired times are left, skip. return #Call the function at the first time greater than or equal to #the desired time then remove that desired time from list. if self.top.time >= self.times[0]: self.removeFirstTime() UserEvent.callFunction(self, *args, **kwargs) return
def callFunction(self,*args,**kwargs): """ The method that is passed to the decorator, i.e. installafterstep(self.callFunction) This function adds the logic of checking the current iteration time against the times at which we'd like to evaluate the callback function and passes the appropriate arguments to the callback. Args: self: The DiagnosticsBySteps object --- standard notation for object oriented python. """ if len(self.times) == 0: #If no desired times are left, skip. return #Call the function at the first time greater than or equal to #the desired time then remove that desired time from list. if self.top.time >= self.times[0]: self.removeFirstTime() UserEvent.callFunction(self,*args,**kwargs) return