Browse Source

some tests

pull/1/head
Fr3deric 10 years ago
commit
ce7471d85d
  1. 200
      statemachinetest.py
  2. 116
      tuitest.py

200
statemachinetest.py

@ -0,0 +1,200 @@ @@ -0,0 +1,200 @@
#!/usr/bin/env python3
import threading
import queue
class IllegalEventError(Exception):
pass
class AbstractState(object):
def __init__(self, controller):
pass
def on_gabelschalter_up(self):
raise IllegalEventError()
def on_gabelschalter_down(self):
raise IllegalEventError()
def on_incoming_call(self):
raise IllegalEventError()
def on_call_ended(self):
raise IllegalEventError()
def on_call_accepted(self):
raise IllegalEventError()
def on_call_ringing(self):
raise IllegalEventError()
def on_nummernschalter_input(self, num):
raise IllegalEventError()
def on_timeout(self):
raise IllegalEventError()
class IdleState(AbstractState):
def on_incoming_call(self):
print('incomfing call')
def on_gabelschalter_up(self):
print('gabel up')
return DailingState
def on_gabelschalter_down(self):
pass
def on_nummernschalter_input(self, x):
pass
class SchelltState(AbstractState):
def on_gabelschalter_up(self):
return AcceptingState
def on_call_ended(self):
return IdleState
class AcceptingState(AbstractState):
def on_call_accepted(self):
return CallRunningState
class CallTerminatingState(AbstractState):
def on_call_ended(self):
return IdleState
def on_call_accepted(self):
return None
class ForgottenState(AbstractState):
def on_gabelschalter_down(self):
return IdleState
class BusyBeepingState(AbstractState):
def on_timeout(self):
return ForgottenState
def on_gabelschalter_down(self):
return IdleState
class CallRunningState(AbstractState):
def on_gabelschalter_down(self):
return CallTerminatingState
def on_call_ended(self):
return BusyBeepingState
class WecktState(AbstractState):
def on_gabelschalter_down(self):
return CallTerminatingState
def on_call_ended(self):
return BusyBeepingState
def on_call_accepted(self):
return CallRunningState
class ConnectingState(AbstractState):
def on_gabelschalter_down(self):
return CallTerminatingState
def on_call_ringing(self):
return WecktState
class DailingState(AbstractState):
def on_gabelschalter_down(self):
return IdleState
def on_nummernschalter_input(self, num):
print('nummernschalter: %d' % (num))
def on_timeout(self):
return ConnectingState
class TelefonapparatUserInterface(object):
def __init__(self):
pass
def add_gabelschalter_callback(self, cb):
pass
def add_nummernschalter_callback(self, cb):
pass
def set_wecker(self, enabled):
pass
def set_schauzeichen(self, enabled):
pass
class StateMachineController(object):
def __init__(self):
self.__state = IdleState(self)
self.__running = True
self.__evqueue = queue.Queue()
self.__evthread = threading.Thread(target=self.__event_dispatcher)
self.__evthread.start()
def __event_dispatcher(self):
while self.__running:
(evname, evargs, evkwargs) = self.__evqueue.get()
if not evname:
return
print('!!! event: %s' % (evname))
handler = getattr(self.__state, 'on_%s' % (evname))
try:
newstate = handler(*evargs, **evkwargs)
except IllegalEventError:
print('illegal event occured!!!!!!!!!!!!!!!!!!!!')
if not newstate:
continue
oldstate = self.__state.__class__
print('%s -> %s' % (oldstate.__name__, newstate.__name__))
self.__state = newstate(self)
def queue_event(self, evname, *evargs, **evkwargs):
if not hasattr(AbstractState, 'on_%s' % (evname)):
raise ValueError('Illegal event name: %s' % (evname))
self.__evqueue.put((evname, evargs, evkwargs))
def stop(self, hard=False):
if hard:
self.__running = False
self.__evqueue.put((None, None, None))
if __name__ == '__main__':
c = StateMachineController()
c.queue_event('gabelschalter_up')
c.queue_event('nummernschalter_input', 4)
c.queue_event('nummernschalter_input', 2)
#c.queue_event('gabelschalter_down')
#c.queue_event('call_accepted')
c.queue_event('timeout')
c.queue_event('call_ringing')
#c.queue_event('gabelschalter_down')
c.queue_event('call_accepted')
c.queue_event('call_ended')
c.queue_event('timeout')
c.queue_event('gabelschalter_down')
c.stop()

116
tuitest.py

@ -0,0 +1,116 @@ @@ -0,0 +1,116 @@
import RPi.GPIO as gpio
import time
import threading
class TelefonapparatPinConfiguration(object):
def __init__(self):
self.pin_nsa = 11
self.pin_nsi = 13
self.pin_gabelschalter = 15
self.pin_schauzeichen = 32
self.pin_wecker_enable = 16
self.pin_wecker_a = 18
self.pin_wecker_b = 19
class TelefonapparatUserInterface(object):
def __init__(self, pinconfig):
self.__pinconfig = pinconfig
gpio.setup(self.__pinconfig.pin_nsa, gpio.IN, gpio.PUD_UP)
gpio.setup(self.__pinconfig.pin_nsi, gpio.IN, gpio.PUD_UP)
gpio.setup(self.__pinconfig.pin_gabelschalter, gpio.IN, gpio.PUD_UP)
gpio.setup(self.__pinconfig.pin_schauzeichen, gpio.OUT)
gpio.setup(self.__pinconfig.pin_wecker_enable, gpio.OUT)
gpio.setup(self.__pinconfig.pin_wecker_a, gpio.OUT)
gpio.setup(self.__pinconfig.pin_wecker_b, gpio.OUT)
gpio.add_event_detect(self.__pinconfig.pin_nsa, gpio.BOTH,
self.__on_nsa_change, 20)
gpio.add_event_detect(self.__pinconfig.pin_nsi, gpio.FALLING,
self.__on_nsi_falling, 20)
gpio.add_event_detect(self.__pinconfig.pin_gabelschalter, gpio.BOTH,
self.__on_gabelschalter_change, 20)
#self.__nsa_up_time = 0
self.__nsi_cnt = 0
self.__weckt = False
self.__nummernschalter_callbacks = []
self.__gabelschalter_callbacks = []
def __on_nsa_change(self, pin):
nsastate = gpio.input(self.__pinconfig.pin_nsa)
if nsastate == 0:
#self.__nsa_up_time = time.time()
self.__nsi_cnt = 0
else:
for cb in self.__nummernschalter_callbacks:
cb(self.__nsi_cnt)
def __on_nsi_falling(self, pin):
#print 'nsi'
self.__nsi_cnt += 1
def __on_gabelschalter_change(self, pin):
gbstate = gpio.input(self.__pinconfig.pin_gabelschalter)
print 'gabelschalter:', gbstate
for cb in self.__gabelschalter_callbacks:
cb(gbstate)
def __wecker_thread(self):
while self.__weckt:
c = 0
gpio.output(self.__pinconfig.pin_wecker_enable, 1)
while c < 1000:
gpio.output(self.__pinconfig.pin_wecker_a, 1)
gpio.output(self.__pinconfig.pin_wecker_b, 0)
time.sleep(0.02)
gpio.output(self.__pinconfig.pin_wecker_a, 0)
gpio.output(self.__pinconfig.pin_wecker_b, 1)
time.sleep(0.02)
c += 40
print 'ring'
gpio.output(self.__pinconfig.pin_wecker_enable, 0)
print ''
time.sleep(4)
def add_gabelschalter_callback(self, cb):
self.__gabelschalter_callbacks.append(cb)
def add_nummernschalter_callback(self, cb):
self.__nummernschalter_callbacks.append(cb)
def set_wecker(self, enabled):
if enabled and not self.__weckt:
self.__weckt = True
t = threading.Thread(target=self.__wecker_thread)
t.start()
elif not enabled:
self.__weckt = False
def set_schauzeichen(self, enabled):
raise Exception('Not implemented.')
if __name__ == '__main__':
gpio.setmode(gpio.BOARD)
pinconfig = TelefonapparatPinConfiguration()
t = TelefonapparatUserInterface(pinconfig)
def dailed(num):
print num
t.add_nummernschalter_callback(dailed)
t.set_wecker(True)
time.sleep(20)
t.set_wecker(False)
while True:
time.sleep(1)
Loading…
Cancel
Save