def step(self):
''' Perform a simulation timestep. '''
# Simulation starts as soon as there is traffic, or pending commands
if self.state == bs.INIT:
if self.syst < 0.0:
self.syst = time.time()
if bs.traf.ntraf > 0 or len(bs.stack.get_scendata()[0]) > 0:
self.op()
if self.benchdt > 0.0:
self.fastforward(self.benchdt)
self.bencht = time.time()
# When running at a fixed rate, or when in hold/init,
# increment system time with sysdt and calculate remainder to sleep.
remainder = self.syst - time.time()
if (not self.ffmode or self.state != bs.OP) and remainder > MINSLEEP:
time.sleep(remainder)
# Always update stack
#bs.stack.process()
if self.state == bs.OP:
# Plot/log the current timestep, and call preupdate functions
plotter.update()
datalog.update()
simtime.preupdate()
# Determine interval towards next timestep
if remainder < 0.0 and self.rtmode:
# Allow a variable timestep when we are running realtime
self.simt, self.simdt = simtime.step(-remainder)
else:
# Don't accumulate delay when we aren't running realtime
if remainder < 0.0:
self.syst -= remainder
self.simt, self.simdt = simtime.step()
# Update UTC time
self.utc += datetime.timedelta(seconds=self.simdt)
# Update traffic and other update functions for the next timestep
bs.traf.update()
simtime.update()
# Always update syst
self.syst += self.simdt / self.dtmult
# Stop fast-time/benchmark if enabled and set interval has passed
if self.ffstop is not None and self.simt >= self.ffstop:
if self.benchdt > 0.0:
bs.scr.echo('Benchmark complete: %d samples in %.3f seconds.' %
(bs.scr.samplecount, time.time() - self.bencht))
self.benchdt = -1.0
self.hold()
else:
self.op()
bs.net.send_event(b'STATECHANGE', self.state)
# Inform main of our state change
if self.state != self.prevstate:
bs.net.send_event(b'STATECHANGE', self.state)
self.prevstate = self.state
def step(self):
''' Perform a simulation timestep. '''
# When running at a fixed rate, or when in hold/init,
# increment system time with sysdt and calculate remainder to sleep.
if not self.ffmode or not self.state == bs.OP:
remainder = self.syst - time.time()
if remainder > MINSLEEP:
time.sleep(remainder)
elif self.ffstop is not None and self.simt >= self.ffstop:
if self.benchdt > 0.0:
bs.scr.echo('Benchmark complete: %d samples in %.3f seconds.' % \
(bs.scr.samplecount, time.time() - self.bencht))
self.benchdt = -1.0
self.pause()
else:
self.op()
if self.state == bs.OP:
# Plugins pre-update
plugin.preupdate(self.simt)
# Update screen logic
bs.scr.update()
# Simulation starts as soon as there is traffic, or pending commands
if self.state == bs.INIT:
if self.syst < 0.0:
self.syst = time.time()
if bs.traf.ntraf > 0 or len(stack.get_scendata()[0]) > 0:
self.op()
if self.benchdt > 0.0:
self.fastforward(self.benchdt)
self.bencht = time.time()
if self.state == bs.OP:
stack.checkfile(self.simt)
# Always update stack
stack.process()
if self.state == bs.OP:
bs.traf.update(self.simt, self.simdt)
# Update plugins
plugin.update(self.simt)
# Update Plotter
plotter.update(self.simt)
# Update loggers
datalog.postupdate()
# Update sim and UTC time for the next timestep
self.simt += self.simdt
self.utc += datetime.timedelta(seconds=self.simdt)
# Always update syst
self.syst += self.sysdt
# Inform main of our state change
if not self.state == self.prevstate:
self.sendState()
self.prevstate = self.state
def step(self):
''' Perform a simulation timestep. '''
# When running at a fixed rate, or when in hold/init,
# increment system time with sysdt and calculate remainder to sleep.
if not self.ffmode or not self.state == bs.OP:
remainder = self.syst - time.time()
if remainder > MINSLEEP:
time.sleep(remainder)
elif self.ffstop is not None and self.simt >= self.ffstop:
if self.benchdt > 0.0:
bs.scr.echo('Benchmark complete: %d samples in %.3f seconds.' % \
(bs.scr.samplecount, time.time() - self.bencht))
self.benchdt = -1.0
self.pause()
else:
self.op()
if self.state == bs.OP:
# Plugins pre-update
plugin.preupdate(self.simt)
# Update screen logic
bs.scr.update()
# Simulation starts as soon as there is traffic, or pending commands
if self.state == bs.INIT:
if self.syst < 0.0:
self.syst = time.time()
if bs.traf.ntraf > 0 or len(stack.get_scendata()[0]) > 0:
self.op()
if self.benchdt > 0.0:
self.fastforward(self.benchdt)
self.bencht = time.time()
if self.state == bs.OP:
stack.checkfile(self.simt)
# Always update stack
stack.process()
if self.state == bs.OP:
bs.traf.update(self.simt, self.simdt)
# Update plugins
plugin.update(self.simt)
# Update Plotter
plotter.update(self.simt)
# Update loggers
datalog.postupdate()
# Update sim and UTC time for the next timestep
self.simt += self.simdt
self.utc += datetime.timedelta(seconds=self.simdt)
# Always update syst
self.syst += self.sysdt
# Inform main of our state change
if not self.state == self.prevstate:
self.sendState()
self.prevstate = self.state
