class SVGame:
def __init__(self, gameID, hostID):
self.gameID = gameID
self.hostID = hostID
self.guestID = None
self.hostMap = map()
self.guestMap = map()
self.FSMsymbols = {}
self.FSM = StateMachine(self.FSMsymbols)
self.FSM.add_state('init', self.st_init)
self.FSM.set_state('init')
def __del__(self):
del self.hostID
del self.guestID
del self.hostMap
del self.guestMap
del self.FSM
del self.FSMsymbols
def getID(self):
return self.gameID
def getPlayerList(self):
retVal = [self.hostID]
if self.guestID: retVal.append(self.guestID)
return retVal
def st_init(self, symbols):
if 'player_apply' in symbols:
self.guestID = symbols['player_apply']
return ('place_ships')
def __init__(self, machine_of_machines):
StateMachine.__init__(self, machine_of_machines)
self.error_codes = [
'REAL xx too long',
'REAL xx with leading zeros',
'REAL yy too long',
'REAL yy with trailing zeros'
]
class PushDownAutomaton:
def __init__(self, computationHistory = False):
self.stateMachine = StateMachine()
self.computationHistory = None
if computationHistory:
self.computationHistory = ComputationHistory()
# Adds state.
# param state: name of state
def addState(self, state):
self.stateMachine.addState(state)
# Adds transition one state to another.
# param fromState: state transit from
# param inputStringSymbol: string symbol to red
# param inputStackSymbol: stack symbol to pop
# param outputStackSymbol: stack symbol to push
# param toState: state to transit
def addTransition(self, fromState, inputStringSymbol, inputStackSymbol, outputStackSymbol, toState):
self.stateMachine.addTransition(fromState, [inputStringSymbol, inputStackSymbol], [outputStackSymbol], toState)
# Sets state's acceptance.
# param state: name of state
def setStateAccepting(self, state):
self.stateMachine.setAccept(state, True)
# Sets state as starting state
# param state: name of state
def setStartState(self, state):
self.stateMachine.setStartState(state)
class FiniteAutomaton:
# ınitialization.
# param computationHistory: whether store computation history list while running
# 'True' for create compoutation history
# 'False' for not record computation history
def __init__(self, computationHistory = False):
self.stateMachine = StateMachine()
self.computationHistory = None
if computationHistory:
self.computationHistory = ComputationHistory()
# Adds state.
# param state: name of state
def addState(self, state):
self.stateMachine.addState(state)
# Adds transition one state to another.
# param fromState: state transit from
# param inputSymbol: string symbol
# param toState: state to transit
def addTransition(self, fromState, inputSymbol, toState):
self.stateMachine.addTransition(fromState, [inputSymbol], [], toState)
# Sets state's acceptance.
# param state: name of state
def setStateAccepting(self, state):
self.stateMachine.setAccept(state, True)
# Sets state as starting state
# param state: name of state
def setStartState(self, state):
self.stateMachine.setStartState(state)
class StateMachineManager:
def __init__(self, json_filename, initial_state_name):
self.state_machine = StateMachine(json_filename, initial_state_name)
def send_message(self, message):
if (self.state_machine.is_valid_text(message)):
metadata = self.state_machine.get_metadata_for_text(message)
self.state_machine.transtion_to_state_with_text(message)
return {
'metadata': metadata,
'triggers': self.state_machine.get_available_display_texts()
}
else:
print("Invalid text message:", message)
return {
'invalid': True,
'metadata': [],
'triggers': []
}
def get_current_display_texts(self):
return self.state_machine.get_available_display_texts()
def reset(self):
self.state_machine.reset()
def __init__(self, gameID, hostID):
self.gameID = gameID
self.hostID = hostID
self.guestID = None
self.hostMap = map()
self.guestMap = map()
self.FSMsymbols = {}
self.FSM = StateMachine(self.FSMsymbols)
self.FSM.add_state('init', self.st_init)
self.FSM.set_state('init')
class StateMachineTest(TestCase):
def setUp(self):
self.state = Full()
self.sm = StateMachine(self.state)
def test_init(self):
self.assertEqual(self.state, self.sm.currentState)
def test_run(self):
self.sm.run(Input.antelope)
self.assertEqual(LionMachine.hungry, self.sm.currentState)
def test_run_1(self):
state1 = Hungry()
sm1 = StateMachine(state1)
sm1.run(Input.hunter)
self.assertEqual(state1, sm1.currentState)
def test_run_all(self):
self.sm.runAll([Input.antelope, Input.hunter, Input.antelope])
self.assertEqual(LionMachine.full, self.sm.currentState)
def __init__(self): # Initial state is kid StateMachine.__init__(self, Driver.start)
def __init__(self):
#Initial state
StateMachine.__init__(self, LionMachine.full)
def __init__(self, rtc, timeout=None): StateMachine.__init__(self, timeout=timeout) self.name = 'TURN OFF' self.rtc = rtc self.states['starting'] = State()
def __init__(self):
# Starting state
StateMachine.__init__(self, Drone.Start)
def __init__(self, json_filename, initial_state_name):
self.state_machine = StateMachine(json_filename, initial_state_name)
pose1.latitude = 32.882112
pose1.longitude = -117.2343985
pose2 = PoseStamped()
pose2.pose.position.x = 2
pose3 = PoseStamped()
pose3.pose.position.x = 2
pose3.pose.position.y = 2
goalTracker = NextGoal([pose1, pose2, pose3])
waypoint_states = {
"nextGoal":
goalTracker,
"following":
FollowingState(MAX_SPEED_AT_DIST, MAX_SPEED_AT_ANGLE, MIN_DRIVE_SPEED,
MIN_TURNING_SPEED),
"success":
EndSuccess(),
}
waypoint_transitions = {
"nextGoal:set": "following",
"nextGoal:done": "success",
"following:reached": "nextGoal",
}
waypoint = StateMachine(waypoint_states, waypoint_transitions, "nextGoal")
waypoint.attach()
rospy.spin()
def __init__(self, machine_of_machines):
StateMachine.__init__(self, machine_of_machines)
self.error_codes = [
'ID too long',
]
def __init__(self, machine_of_machines):
StateMachine.__init__(self, machine_of_machines)
self.error_codes = [
'Unrecognized Symbol'
]
def test_run_1(self):
state1 = Hungry()
sm1 = StateMachine(state1)
sm1.run(Input.hunter)
self.assertEqual(state1, sm1.currentState)
def __init__(self, machine_of_machines):
StateMachine.__init__(self, machine_of_machines)
def setUp(self):
self.state = Full()
self.sm = StateMachine(self.state)
def __init__(self):
# Initial State
StateMachine.__init__(self, DrawingApp.start)
def __init__(self):
# Initial state is kid
StateMachine.__init__(self, Driver.start)
def __init__(self, computationHistory = False):
self.stateMachine = StateMachine()
self.computationHistory = None
if computationHistory:
self.computationHistory = ComputationHistory()
def __init__(self):
StateMachine.__init__(self,ArmingNoAuth())
Observable.__init__(self)
seek_states = {
"evaluator": Evaluator(CONFIDENCE_THRESHOLD, DIST_THRESHOLD, goalTracker),
"seeker": Seeker(CONFIDENCE_THRESHOLD, MAX_SPEED_AT_DIST, MAX_SPEED_AT_ANGLE,
MIN_DRIVE_SPEED, MIN_TURNING_SPEED),
}
seek_transitions = {
"evaluator:far": "exit:waypoint",
"evaluator:close": "seeker",
"evaluator:lost": "exit:searching",
"seeker:reached": "exit:waypoint",
"seeker:lost": "exit:searching",
}
waypoint = StateMachine(waypoint_states, waypoint_transitions, "nextGoal")
searching = StateMachine(searching_states, searching_transitions, "evalulator")
blob = StateMachine(blob_states, blob_transitions, "blobsearch")
seek = StateMachine(seek_states, seek_transitions, "evalulator")
main_states = {
"waypoint": waypoint,
"searching": searching,
"blobsearch": blob,
"seek": seek,
"end": EndSuccess(),
}
main_transitions = {
"seek": "seek",
"searching": "searching",
class SVClient:
def __init__(self, queuepath, sock):
self.ID = queuepath
outQueueManager = QueueManager(address=('/tmp/SVSqueue'), \
authkey='gnarf')
outQueueManager.connect()
inQueueManager = QueueManager(address=(queuepath), \
authkey='gnarf')
inQueueManager.connect()
self.inQueue = inQueueManager.get_queue()
self.outQueue = outQueueManager.get_queue()
self.sock = sock
self.inBuffer = ''
self.handleMsg = msgHandler(self.logfunc)
self.handleMsg.register('sock', self.do_sock)
self.handleMsg.register('lobbyMsg', self.do_lobbyMsg)
self.handleMsg.register('clientNameAccepted', \
self.do_clientNameAccepted)
self.handleMsg.register('clientNameDenied', \
self.do_clientNameDenied)
self.handleMsg.register('sendPONG', self.do_sendPONG)
self.handleMsg.register('userList', self.do_userList)
self.handleMsg.register('bye', self.do_bye)
self.handleMsg.register('privateMsg', self.do_privateMsg, 3, False)
self.handleMsg.register('userLeft', self.do_userLeft)
self.handleMsg.register('userJoined', self.do_userJoined)
self.handleProtIn = msgHandler()
self.handleProtIn.register(210, self.do_210_in_proposeName, 2)
self.handleProtIn.register(401, self.do_401_in_listRooms, 1)
self.handleProtIn.register(406, self.do_406_in_newRoom, 1)
self.handleProtIn.register(501, self.do_501_in_chatLobby)
self.handleProtIn.register(502, self.do_502_in_chatPrivate)
self.handleProtIn.register(505, self.do_505_in_getUserList, 1)
self.handleProtIn.register(602, self.do_602_in_ackProt, 2)
self.handleProtIn.register(603, self.do_603_in_PING, 1)
self.handleProtIn.register(604, self.do_604_in_PONG, 1)
self.handleProtIn.register(699, self.do_699_in_exit, 1)
self.handleProtOut = msgHandler()
self.handleProtOut.register(101, self.do_ProtOut_trivial)
self.handleProtOut.register(302, self.do_ProtOut_trivial)
self.handleProtOut.register(303, self.do_ProtOut_trivial)
self.handleProtOut.register(305, self.do_ProtOut_trivial)
self.handleProtOut.register(306, self.do_ProtOut_trivial)
self.handleProtOut.register(503, self.do_503_out_chatLobby)
self.handleProtOut.register(504, self.do_504_out_chatPrivate)
self.handleProtOut.register(506, self.do_ProtOut_trivial)
self.handleProtOut.register(507, self.do_507_out_userEntry)
self.handleProtOut.register(508, self.do_ProtOut_trivial)
self.handleProtOut.register(509, self.do_509_out_userJoined)
self.handleProtOut.register(510, self.do_510_out_userLeft)
self.handleProtOut.register(601, self.do_601_out_serverHello)
self.handleProtOut.register(603, self.do_603_out_PING)
self.handleProtOut.register(604, self.do_ProtOut_trivial)
self.handleProtOut.register(697, self.do_ProtOut_trivial)
self.FSMsymbols = {}
self.FSM = StateMachine(self.FSMsymbols)
self.FSM.add_state('init', self.st_init)
self.FSM.set_state('init')
self.FSM.add_state('prot_proposed', self.st_prot_proposed)
self.FSM.add_state('prot_accepted', self.st_prot_accepted)
self.FSM.add_state('name_asked', self.st_name_asked)
self.FSM.add_state('online', self.st_online)
self.userList = []
self.firstCycle = True
self.keep_alive = True
def __del__(self):
del self.inQueue
del self.outQueue
del self.sock
del self.inBuffer
del self.handleMsg
del self.FSMsymbols
del self.FSM
def cycle(self):
if self.firstCycle: self.firstCycle = False
else:
msg = self.inQueue.get() # blocking get
self.performInQueueMsg(msg)
self.FSM.cycle()
return self.keep_alive
def sendPeerRaw(self, text):
self.sock.send(text)
def sendSystem(self, msgtag, text, obj=None):
self.outQueue.put((msgtag, text, obj))
def sendProt(self, ProtNo, comment, data=None):
if not self.handleProtOut.performMsg((ProtNo, comment, data)):
print '[SVClient.sendProt] unknown ProtNo: ' + str(ProtNo)
def performInQueueMsg(self, msg):
if not self.handleMsg.performMsg(msg):
print '[SVClient] unknown cmd: ' + msg[0]
def logfunc(self, msg):
self.sendSystem('syslog', str(msg), self.ID)
# callbacks for msg handling: param is (msgtag, text, obj)
def do_sock(self, param):
self.inBuffer += param[1]
self.checkInBuffer()
def do_lobbyMsg(self, param):
if self.FSM.is_state('online'):
self.sendProt(503, 'message written in lobby', param)
def do_clientNameAccepted(self, param):
self.FSMsymbols['clientNameAccepted'] = 1
def do_clientNameDenied(self, param):
self.FSMsymbols['clientNameDenied'] = param[1]
def do_sendPONG(self, param):
self.sendProt(604, 'PONG')
def do_userList(self, param):
self.userList = param[2]
self.sendProt(506, 'start of user list')
for user in self.userList:
self.sendProt(507, 'user entry', user)
self.sendProt(508, 'end of user list')
def do_bye(self, param):
self.keep_alive = False
def do_privateMsg(self, param):
self.sendProt(504, 'private message', param)
def do_userLeft(self, param):
userID = param[2]
msg = param[1]
if userID in [x['ID'] for x in self.userList if x['ID'] == userID]:
userName = [x['name'] for x in self.userList \
if x['ID'] == userID][0]
self.sendProt(510, msg, userName)
self.userList = [x for x in self.userList if x['ID'] != userID]
def do_userJoined(self, param):
userEntry = param[2]
self.userList.append(userEntry)
self.sendProt(509, 'user joined', userEntry['name'])
# callbacks for protocol input handling: param is [ProtNo, (par)*]
def do_210_in_proposeName(self, param):
if not self.FSM.is_state('name_asked'):
self.sendProt(306, 'not waiting for client name')
return
self.FSMsymbols['clientNameProposed'] = param[1]
def do_401_in_listRooms(self, param):
if not self.FSM.is_state('online'):
self.sendProt(306, 'not ready for games')
return
self.sendSystem('listRooms', 'list open games', self.ID)
def do_406_in_newRoom(self, param):
if not self.FSM.is_state('online'):
self.sendProt(306, 'not ready for games')
return
self.sendSystem('newRoom', 'create new game', self.ID)
def do_501_in_chatLobby(self, param):
if not self.FSM.is_state('online'):
self.sendProt(306, 'not ready for chat')
return
tList = param
del tList[0]
msg = " ".join(param)
self.sendSystem('chatLobby', msg, self.ID)
def do_502_in_chatPrivate(self, param):
if not self.FSM.is_state('online'):
self.sendProt(306, 'not ready for chat')
return
tList = param
if len(tList) < 2:
self.sendProt(303, 'no username given')
return
del tList[0]
sinkName = tList[0]
del tList[0]
msg = " ".join(tList)
sinkID = [x['ID'] for x in self.userList if x['name'] == sinkName]
if len(sinkID) == 0:
self.sendProt(303, 'requested user not found')
return
self.sendSystem('chatPrivate', msg, (self.ID, sinkID[0]))
def do_505_in_getUserList(self, param):
self.sendSystem('getUserList', 'tellme all users', self.ID)
def do_602_in_ackProt(self, param):
if not self.FSM.is_state('prot_proposed'):
self.sendProt(306, 'not waiting for client protocol')
return
ProtNo = param[1]
if ProtNo.isdigit():
self.FSMsymbols['clientProt'] = int(ProtNo)
else:
self.sendProt(302, 'waiting for protocol version')
def do_603_in_PING(self, param):
self.sendSystem('PINGreceived', 'ping from peer', self.ID)
def do_604_in_PONG(self, param):
self.sendSystem('PONGreceived', 'pong from peer', self.ID)
def do_699_in_exit(self, param):
self.sendSystem('exit', 'going home... goodbye', self.ID)
sys.exit(0)
# callbacks for protocol output handling: param is [ProtNo, (par)*]
def do_ProtOut_trivial(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_503_out_chatLobby(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
sendername = data[2]['name']
chat = data[1]
msg += ' ' + sendername + ': ' + chat
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_504_out_chatPrivate(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
sendername = data[2]['name']
chat = data[1]
msg += ' ' + sendername + ': ' + chat
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_507_out_userEntry(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
name = data['name']
msg += ' ' + name
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_509_out_userJoined(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
name = data
msg += ' ' + name
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_510_out_userLeft(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
name = data
msg += ' ' + name
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_601_out_serverHello(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
protV = str(data)
msg += ' ' + protV
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
def do_603_out_PING(self, param):
ProtNo, comment, data = param
msg = str(ProtNo)
if len(comment)>0: msg += ' -- ' + comment
msg += '\n'
self.sendPeerRaw(msg)
self.sendSystem('PINGsent', 'ping sent to peer', self.ID)
# callbacks for FSM
def st_init(self, symbols):
self.sendProt(601, 'Schiffeversenken Prot V' + \
str(SVStaticData.protocolVersion), \
SVStaticData.protocolVersion)
return('prot_proposed')
def st_prot_proposed(self, symbols):
if 'clientProt' in symbols:
if symbols['clientProt'] == SVStaticData.protocolVersion:
self.sendProt(603, 'PING')
return('prot_accepted')
else:
self.sendProt(697, 'Protocol mismatch. Bye')
sys.exit(0)
#TODO: shutdown process here
else:
return None
def st_prot_accepted(self, symbols):
# PONG from peer shall cause call of this state
self.sendProt(101, 'select your name, max 15 chars (210)')
return('name_asked')
def st_name_asked(self, symbols):
if 'clientNameProposed' in symbols and \
'clientNameForwarded' not in symbols:
self.sendSystem('nameProposed', \
symbols['clientNameProposed'], self.ID)
symbols['clientNameForwarded'] = 1
return None
if 'clientNameDenied' in symbols:
self.sendProt(305, symbols['clientNameDenied'])
self.sendProt(101, 'select your name, max 15 chars (210)')
del symbols['clientNameProposed']
del symbols['clientNameDenied']
del symbols['clientNameForwarded']
return None
if 'clientNameAccepted' in symbols:
self.name = symbols['clientNameProposed']
self.sendSystem('getUserList', '', self.ID)
return('online')
def st_online(self, symbols): pass
# helper functions
def checkInBuffer(self):
if '\r' in self.inBuffer or '\n' in self.inBuffer:
bufList = [x for x in \
self.inBuffer.replace('\r', '\n').split('\n') \
if len(x) > 0]
if len(bufList) > 0:
newMsg = bufList[0]
del bufList[0]
self.inBuffer = '\n'.join(bufList)
self.parsePeerMsg(newMsg)
else:
self.inBuffer = ''
self.sendProt(303, 'invalid data')
def parsePeerMsg(self, msg):
grepMsg = msg.split(' -- ')[0]
catList = [x for x in grepMsg.split(' ') if len(x) > 0]
if len(catList) == 0:
self.sendProt(303, 'invalid data')
return
if not catList[0].isdigit():
self.sendProt(303, 'protcol mismatch')
return
ProtNo = int(catList[0])
catList[0] = ProtNo
if not self.handleProtIn.performMsg(catList):
self.sendProt(303, str(ProtNo) + \
': invalid protocol number or wrong number of arguments')
def stateGet(self, status):
m = StateMachine()
m.add_state("Start", self.transitions)
m.add_state("del-x<20", self.transitions)
m.add_state("del-x>20", self.transitions)
m.add_state("del-y<20", self.transitions)
m.add_state("del-y<15", self.transitions)
m.add_state("del-y>20", self.transitions)
m.add_state("ATK_E", None, end_state=1)
m.add_state("ATK_Q", None, end_state=1)
m.add_state("ATK_W", None, end_state=1)
m.add_state("error_state", None, end_state=1)
m.set_start("Start")
return m.run(status)
def error_state(txt):
logger.info("Error State reached")
#back to ready
return ("Ready", "parameters")
########################################
## State Registrierung | Entry Point ##
########################################
if __name__== "__main__":
logger.info("MainTrain started")
#StateMachine initialize
m = StateMachine()
#Zustaende hinzufuegen
m.add_state("Healthcheck", healthcheck_transitions)
m.add_state("Transportgutsuche", transportgutsuche_state_transitions)
m.add_state("Auflademodus", auflademodus_state_transitions)
m.add_state("Infosignalerkennung", infosignal_erkennung_state_transitions)
# Kein eigentlicher State, nur Hilsklasse und nuetzliche Transition
m.add_state("Rundenerkennung", runden_erkennung_state_transitions)
m.add_state("Haltesignalerkennung", haltesignal_erkennung_state_transitions)
m.add_state("Praeziseshalten", praezises_halten_state_transitions)
m.add_state("Error",None, end_state=1)
m.add_state("Fertig",None, end_state=1)
def __init__(self): # Initial state StateMachine.__init__(self, MouseTrap.waiting)
def __init__( self, man ):
if type(man) == type( Game.Man.Man ):
StateMachine.__init__(self, man )
else:
raise TypeError()
def __init__(self):
# Initial state
StateMachine.__init__(self, GameStates.nightBegins)
def __init__(self, machine_of_machines):
StateMachine.__init__(self, machine_of_machines)
self.error_codes = [
'INT too long',
'INT with leading zeros'
]
def __init__(self):
StateMachine.__init__(self, S1(False))
def __init__(self):
# Initial state
StateMachine.__init__(self, TramControl.wait)
def __init__(self, queuepath, sock):
self.ID = queuepath
outQueueManager = QueueManager(address=('/tmp/SVSqueue'), \
authkey='gnarf')
outQueueManager.connect()
inQueueManager = QueueManager(address=(queuepath), \
authkey='gnarf')
inQueueManager.connect()
self.inQueue = inQueueManager.get_queue()
self.outQueue = outQueueManager.get_queue()
self.sock = sock
self.inBuffer = ''
self.handleMsg = msgHandler(self.logfunc)
self.handleMsg.register('sock', self.do_sock)
self.handleMsg.register('lobbyMsg', self.do_lobbyMsg)
self.handleMsg.register('clientNameAccepted', \
self.do_clientNameAccepted)
self.handleMsg.register('clientNameDenied', \
self.do_clientNameDenied)
self.handleMsg.register('sendPONG', self.do_sendPONG)
self.handleMsg.register('userList', self.do_userList)
self.handleMsg.register('bye', self.do_bye)
self.handleMsg.register('privateMsg', self.do_privateMsg, 3, False)
self.handleMsg.register('userLeft', self.do_userLeft)
self.handleMsg.register('userJoined', self.do_userJoined)
self.handleProtIn = msgHandler()
self.handleProtIn.register(210, self.do_210_in_proposeName, 2)
self.handleProtIn.register(401, self.do_401_in_listRooms, 1)
self.handleProtIn.register(406, self.do_406_in_newRoom, 1)
self.handleProtIn.register(501, self.do_501_in_chatLobby)
self.handleProtIn.register(502, self.do_502_in_chatPrivate)
self.handleProtIn.register(505, self.do_505_in_getUserList, 1)
self.handleProtIn.register(602, self.do_602_in_ackProt, 2)
self.handleProtIn.register(603, self.do_603_in_PING, 1)
self.handleProtIn.register(604, self.do_604_in_PONG, 1)
self.handleProtIn.register(699, self.do_699_in_exit, 1)
self.handleProtOut = msgHandler()
self.handleProtOut.register(101, self.do_ProtOut_trivial)
self.handleProtOut.register(302, self.do_ProtOut_trivial)
self.handleProtOut.register(303, self.do_ProtOut_trivial)
self.handleProtOut.register(305, self.do_ProtOut_trivial)
self.handleProtOut.register(306, self.do_ProtOut_trivial)
self.handleProtOut.register(503, self.do_503_out_chatLobby)
self.handleProtOut.register(504, self.do_504_out_chatPrivate)
self.handleProtOut.register(506, self.do_ProtOut_trivial)
self.handleProtOut.register(507, self.do_507_out_userEntry)
self.handleProtOut.register(508, self.do_ProtOut_trivial)
self.handleProtOut.register(509, self.do_509_out_userJoined)
self.handleProtOut.register(510, self.do_510_out_userLeft)
self.handleProtOut.register(601, self.do_601_out_serverHello)
self.handleProtOut.register(603, self.do_603_out_PING)
self.handleProtOut.register(604, self.do_ProtOut_trivial)
self.handleProtOut.register(697, self.do_ProtOut_trivial)
self.FSMsymbols = {}
self.FSM = StateMachine(self.FSMsymbols)
self.FSM.add_state('init', self.st_init)
self.FSM.set_state('init')
self.FSM.add_state('prot_proposed', self.st_prot_proposed)
self.FSM.add_state('prot_accepted', self.st_prot_accepted)
self.FSM.add_state('name_asked', self.st_name_asked)
self.FSM.add_state('online', self.st_online)
self.userList = []
self.firstCycle = True
self.keep_alive = True
def __init__(self, computationHistory=False):
self.stateMachine = StateMachine()
self.computationHistory = None
if computationHistory:
self.computationHistory = ComputationHistory()
