def start(self):
assert self.simulation
if self.period > 0:
# if it has a positive period, then schedule a repeating event to trigger it
e=FunctionEvent(0,self.generate)
now = self.simulation.time()
self.simulation.enqueue_event(PeriodicEventSequence(now+self.simulation.convert_to_time_type(self.phase),self.simulation.convert_to_time_type(self.period),[e]))
def start(self):
assert self.simulation
event_seq = []
for delay,gen in self.input_sequence:
event_seq.append(FunctionEvent(self.simulation.convert_to_time_type(delay),self.set_input_generator,gen))
event_seq.append(FunctionEvent(0,self.generate))
now = self.simulation.time()
self.event = PeriodicEventSequence(now+self.simulation.convert_to_time_type(self.phase),self.simulation.convert_to_time_type(self.period),event_seq)
self.simulation.enqueue_event(self.event)
def start(self):
super(ShiftingGeneratorSheet, self).start()
if self.fixation_jitter_period > 0:
now = self.simulation.time()
refix_event = PeriodicEventSequence(
now + self.simulation.convert_to_time_type(
self.fixation_jitter_period),
self.simulation.convert_to_time_type(
self.fixation_jitter_period),
[FunctionEvent(0, self.refixate)])
self.simulation.enqueue_event(refix_event)
