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coolPSSM.py
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coolPSSM.py
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#
# coolPSSM - cool python serial state machine
#
# TODO write some description
#
# Christian
# created 20200401
# version 20200404
#
# MIT License
#
# Copyright (c) 2020 coolPSSM Christian ([email protected])
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
import time, copy, serial, os, pty, threading
from threading import Timer, Thread, Event
# run the reading loop in a thread for receiving from ARDUINO
class PSSM_Serial_Thread (threading.Thread):
READ = None
def __init__(self, event, pssm):
threading.Thread.__init__(self)
self.stopped = event # obvious useless
self.runnig = True # obvious useless
self.PSSM = pssm
def shutdown(self):
self.runnig = False
pass
def stop(self):
self.runnig = False
def run(self):
while not self.stopped.wait(0.01) and self.runnig:
try:
self.READ = self.PSSM.SERIAL.reading( ) # read serial data only
except:
pass
#time.sleep(0.01) # obvious useless ??
# Decoupling from speedy method; while REQUEST / RESPONSE things, MEMENTO
# carries ALWAYS the received RESPONSE for the REQUEST, if the CLIENT is
# NOT too FAST with reading put the MEMENTO; try to SLEEP a little bit on
# CLIENT side.
def getMemento(self):
return self.MEMENTO
# Super Class for SERIAL Messages in PSSM
class PSSM_Message:
ID = None # for iterating members; do NOT CHANGE the order
TAG = None # for iterating members; do NOT CHANGE the order
DATA = None # for iterating members; do NOT CHANGE the order
def __init__(self):
pass
def hasID(self):
answer = False
if self.ID != None:
answer = True
return answer
def hasTAG(self):
answer = False
if self.TAG != None:
answer = True
return answer
def hasDATA(self):
answer = False
if self.DATA != None:
answer = True
return answer
# this is the STYLE to send from PYTHON to ARDUINO
def genID(self):
msg = ""
if self.hasID() :
msg = "<" + str(self.ID) + ">"
return msg
# this is the STYLE to send from ARDUINO & PYTHON to PYTHON
def genTAG(self):
msg = ""
if self.hasTAG() :
msg = "<" + str(self.TAG) + "/>"
return msg
# this is the STYLE to send from ARDUINO & PYTHON to PYTHON
def genDATA(self):
msg = ""
if self.hasTAG( ) and hasDATA():
msg = "<" + self.TAG + ">" + str(self.DATA) + "</" + self.TAG + ">"
return msg
# representing a COMMAND by ID (for arduino) and STR (for python)
class PSSM_Command(PSSM_Message):
def __init__(self, id, tag):
PSSM_Message( ) # obvious useless
self.ID = id
self.TAG = tag
self.DATA = None #obvious useless
# COPY CONSTRUCTOR in python ~8>
def COPY(self):
return copy.copy(self)
# representing a STATE by ID (for arduino) and STR (for python)
class PSSM_State(PSSM_Message):
def __init__(self, id, tag):
PSSM_Message( ) # obvious useless
self.ID = id
self.TAG = tag
self.DATA = None #obvious useless
# COPY CONSTRUCTOR in python ~8>
def COPY(self):
return copy.copy(self)
# This is to send data; however here is NO numerical ID while it is not forseen
# to send data from PYTHON to ARDUINO
class PSSM_Data(PSSM_Message):
def __init__(self, tag, data):
PSSM_Message( ) # obvious useless
self.ID = None #obvious useless
self.TAG = tag
self.DATA = data
# COPY CONSTRUCTOR in python ~8>
def COPY(self):
return copy.copy(self)
# representing an itertable set of all COMMANDs that ARDUINO / PYTHON can use to
# intercommunication. ARDUINO receives IDs, while PYTHON receives STRINGS. The
# IDs are SYNC to the ITERATOR stuff of python; keep this!
class PSSM_Commands:
NULL = None # for iterating members; do NOT CHANGE the order
SNA = None # for iterating members; do NOT CHANGE the order
PING = None # for iterating members; do NOT CHANGE the order
PONG = None # for iterating members; do NOT CHANGE the order
AKNW = None # for iterating members; do NOT CHANGE the order
RUN = None # for iterating members; do NOT CHANGE the order
WAIT = None # for iterating members; do NOT CHANGE the order
EVNT = None # for iterating members; do NOT CHANGE the order
DONE = None # for iterating members; do NOT CHANGE the order
STOP = None # for iterating members; do NOT CHANGE the order
STAT = None # for iterating members; do NOT CHANGE the order
RMD1 = None # for iterating members; do NOT CHANGE the order
RMD2 = None # for iterating members; do NOT CHANGE the order
RMD3 = None # for iterating members; do NOT CHANGE the order
RMD4 = None # for iterating members; do NOT CHANGE the order
RMD5 = None # for iterating members; do NOT CHANGE the order
RMD6 = None # for iterating members; do NOT CHANGE the order
RMD7 = None # for iterating members; do NOT CHANGE the order
CNCT = None # for iterating members; do NOT CHANGE the order
DCNT = None # for iterating members; do NOT CHANGE the order
def __init__(self):
# the cool PSSM & ASSM COMMANDs as IDs and STRINGs
self.NULL = PSSM_Command( 0, "NULL" ) # NULL or NO COMMAND; is handled as a CMD
self.SNA = PSSM_Command( 1," SNA" ) # service not available (SNA); go error state
self.PING = PSSM_Command( 2," PING" ) # send a PING and try get a PONG response
self.PONG = PSSM_Command( 3," PONG" ) # send a PONG for a PING receive
self.AKNW = PSSM_Command( 4," AKNW" ) # ACKNOWLEDGE a received command
self.RUN = PSSM_Command( 5," RUN" ) # signal to WAIT to CLIENT or SERVER
self.WAIT = PSSM_Command( 6," WAIT" ) # signal to WAIT to CLIENT or SERVER
self.EVNT = PSSM_Command( 7," EVNT" ) # signal an EVENT to CLIENT or SERVER
self.DONE = PSSM_Command( 8," DONE" ) # send a STOP to CLIENT or SERVER
self.STOP = PSSM_Command( 9," STOP" ) # send a STOP to CLIENT or SERVER
self.STAT = PSSM_Command( 10, "STAT" ) # request the STATUS of CLIENT or SERVER
self.RMD1 = PSSM_Command( 11, "RMD1" ) # let arduino do something while in run MODE 1
self.RMD2 = PSSM_Command( 12, "RMD2" ) # let arduino do something while in run MODE 2
self.RMD3 = PSSM_Command( 13, "RMD3" ) # let arduino do something while in run MODE 3
self.RMD4 = PSSM_Command( 14, "RMD4" ) # let arduino do something while in run MODE 4
self.RMD5 = PSSM_Command( 15, "RMD5" ) # let arduino do something while in run MODE 5
self.RMD6 = PSSM_Command( 16, "RMD6" ) # let arduino do something while in run MODE 6
self.RMD7 = PSSM_Command( 17, "RMD7" ) # let arduino do something while in run MODE 7
self.CNCT = PSSM_Command( 18, "CNCT" ) # obvious useless yet
self.DCNT = PSSM_Command( 19, "DCNT" ) # obvious useless yet
# The STATES that ARDUINO / PYTHON can state while running. PYTHON sends IDs to
# ARDUINO, while ARDUINO sends STRINGS to PYTHON; however STATEs are only SENT
# as STRINGS in case of an ID based STAT (status) COMMAND request.
class PSSM_States:
ERROR = None # for iterating members; do NOT CHANGE the order
IDLNG = None # for iterating members; do NOT CHANGE the order
MODE1 = None # for iterating members; do NOT CHANGE the order
MODE2 = None # for iterating members; do NOT CHANGE the order
MODE3 = None # for iterating members; do NOT CHANGE the order
MODE4 = None # for iterating members; do NOT CHANGE the order
MODE5 = None # for iterating members; do NOT CHANGE the order
MODE6 = None # for iterating members; do NOT CHANGE the order
MODE7 = None # for iterating members; do NOT CHANGE the order
def __init__(self):
# the cool PSSM & ASSM STATEs as IDs and STRINGs
self.ERROR = PSSM_State( 0, "ERROR" ) # arduino is in ERROR state
self.IDLNG = PSSM_State( 1, "IDLNG" ) # arduino is IDILING around
# run MODEs; MODE1, MODE2, .., MODE7
self.MODE1 = PSSM_State( 11, "MODE1" ) # arduino is processing MODE 1
self.MODE2 = PSSM_State( 12, "MODE2" ) # arduino is processing MODE 2
self.MODE3 = PSSM_State( 13, "MODE3" ) # arduino is processing MODE 3
self.MODE4 = PSSM_State( 14, "MODE4" ) # arduino is processing MODE 4
self.MODE5 = PSSM_State( 15, "MODE5" ) # arduino is processing MODE 5
self.MODE6 = PSSM_State( 16, "MODE6" ) # arduino is processing MODE 6
self.MODE7 = PSSM_State( 17, "MODE7" ) # arduino is processing MODE 7
# representing an itertable set of all HARDWARE COMMANDs that ARDUINO / PYTHON
# can use for intercommunication. ARDUINO receives IDs, while PYTHON receives
# STRINGS. The IDs are SYNC to the ITERATOR stuff of python; keep this!
class PSSM_Hardware:
ANLG0 = None # for iterating members; do NOT CHANGE the order
ANLG1 = None # for iterating members; do NOT CHANGE the order
ANLG2 = None # for iterating members; do NOT CHANGE the order
ANLG3 = None # for iterating members; do NOT CHANGE the order
ANLG4 = None # for iterating members; do NOT CHANGE the order
ANLG5 = None # for iterating members; do NOT CHANGE the order
GPIO0 = None # for iterating members; do NOT CHANGE the order
GPIO1 = None # for iterating members; do NOT CHANGE the order
GPIO2 = None # for iterating members; do NOT CHANGE the order
GPIO3 = None # for iterating members; do NOT CHANGE the order
GPIO4 = None # for iterating members; do NOT CHANGE the order
GPIO5 = None # for iterating members; do NOT CHANGE the order
GPIO6 = None # for iterating members; do NOT CHANGE the order
GPIO7 = None # for iterating members; do NOT CHANGE the order
GPIO8 = None # for iterating members; do NOT CHANGE the order
GPIO9 = None # for iterating members; do NOT CHANGE the order
GPIO10 = None # for iterating members; do NOT CHANGE the order
GPIO11 = None # for iterating members; do NOT CHANGE the order
GPIO12 = None # for iterating members; do NOT CHANGE the order
GPIO13 = None # for iterating members; do NOT CHANGE the order
def __init__(self):
# the cool PSSM & ASSM HARDWARE COMMANDs as IDs and STRINGs
self.ANLG0 = PSSM_Command( 40, "ANLG0" ) # arduino's analog A0
self.ANLG1 = PSSM_Command( 41, "ANLG1" ) # arduino's analog A0
self.ANLG2 = PSSM_Command( 42, "ANLG2" ) # arduino's analog A0
self.ANLG3 = PSSM_Command( 43, "ANLG3" ) # arduino's analog A0
self.ANLG4 = PSSM_Command( 44, "ANLG4" ) # arduino's analog A0
self.ANLG5 = PSSM_Command( 45, "ANLG5" ) # arduino's analog A0
self.GPIO0 = PSSM_Command( 60, "GPIO0" ) # arduino's analog A0
self.GPIO1 = PSSM_Command( 61, "GPIO1" ) # arduino's analog A0
self.GPIO2 = PSSM_Command( 62, "GPIO2" ) # arduino's analog A0
self.GPIO3 = PSSM_Command( 63, "GPIO3" ) # arduino's analog A0
self.GPIO4 = PSSM_Command( 64, "GPIO4" ) # arduino's analog A0
self.GPIO5 = PSSM_Command( 65, "GPIO5" ) # arduino's analog A0
self.GPIO6 = PSSM_Command( 66, "GPIO6" ) # arduino's analog A0
self.GPIO7 = PSSM_Command( 67, "GPIO7" ) # arduino's analog A0
self.GPIO8 = PSSM_Command( 68, "GPIO8" ) # arduino's analog A0
self.GPIO9 = PSSM_Command( 69, "GPIO9" ) # arduino's analog A0
self.GPIO10 = PSSM_Command( 70, "GPIO10" ) # arduino's analog A0
self.GPIO11 = PSSM_Command( 71, "GPIO11" ) # arduino's analog A0
self.GPIO12 = PSSM_Command( 72, "GPIO12" ) # arduino's analog A0
self.GPIO13 = PSSM_Command( 73, "GPIO13" ) # arduino's analog A0
class PSSM_Message_Resolver:
CMDS = None # obvious useless in python
STATES = None # obvious useless in python
HARDWARE = None # obvious useless in python
def __init__(self):
self.CMDS = PSSM_Commands( ) # PROTOTYPEs that can be iterated
self.STATES = PSSM_States( ) # PROTOTYPEs that can be iterated
self.HARDWARE = PSSM_Hardware( ) # PROTOTYPEs that can be iterated
# return a list of all members
def membersOfObject(self, CMD_STAT_HW_OBJ):
# vars = filter(lambda a: not a.startswith('__'), dir(PSSM_Message
memberOBJ = []
for attribute, value in CMD_STAT_HW_OBJ.__dict__.items():
# print(attribute, '=', value)
pssm_msg = getattr(CMD_STAT_HW_OBJ, attribute)
# print( pssm_msg.TAG )
memberOBJ.append( pssm_msg )
return memberOBJ
# listMmember = iter( CMD_STAT_HW_OBJ )
# while i < len(listMmember):
# print listMmember[ i ]
# i += 1
i = 0
l = len(CMD_STAT_HW_OBJ)
while i < l:
var = CMD_STAT_HW_OBJ[i]
print( var )
def tryBuild(self, tag, CMD_STAT_HW_OBJ):
pssm_Msg = None
members = self.membersOfObject( CMD_STAT_HW_OBJ )
m = 0
isFound = False
while m < len(members) and not isFound:
prototype = members[ m ]
if prototype.TAG == tag:
isFound = True
pssm_Msg = prototype.COPY( ) # prototype pattern
m += 1
return pssm_Msg
def tryBuildFromAll(self, tag):
pssm_Msg = None
m = 0
isBuilt = False
while m < 3 and not isBuilt:
if m == 0:
pssm_Msg = self.tryBuild( tag, self.CMDS ) # 19 pcs
elif m == 1:
pssm_Msg = self.tryBuild( tag, self.STATES ) # 9 pcs
elif m == 2:
pssm_Msg = self.tryBuild( tag, self.HARDWARE ) # 20 pcs
else:
pass
if pssm_Msg != None:
isBuilt = True
m += 1
return pssm_Msg
# TOOL for exploding read COMMANDs baking PSSM_State & PSSM_Command objects ..
class PSSM_XML:
PSSM_MSG_RESOLVER = PSSM_Message_Resolver
def __init__(self):
self.PSSM_MSG_RESOLVER = PSSM_Message_Resolver()
def bake(self, read):
pssm_Msg = None
tag = None
data = None
exploded = self.explode( read ) # the first is ALWAYS the TAG
i = 0
while i < len(exploded):
print( str(i) + " => " + exploded[ i ] )
i += 1
if exploded != None:
if len( exploded ) > 0:
tag = exploded[ 1 ] # the second is ALWAYS the TAG
if len( exploded ) > 2: # has DATA
data = exploded[ 2 ] # if length ins three second is DATA
print("tag => " + tag )
print("data =>" + data )
pssm_Msg = self.PSSM_MSG_RESOLVER.tryBuildFromAll( tag );
if pssm_Msg != None: # standardized message found
if data != None:
pssm_Msg.DATA = data
else: # individual message may be found
if tag != None:
if data != None:
pssm_Msg = PSSM_Data( tag, data )
else: # no Tag no pssm_Msg
pssm_Msg = self.CMDS.NULL.COPY( ) # does nothing
return pssm_Msg
# Explodes an ANSWER to an array of length: 1, (in empty case 2,) or 3.
def explode(self, read): # <TAG>DATA</TAG>
tmp1 = read.replace( "<", " " ) # TAG>DATA /TAG>
tmp2 = tmp1.replace( ">", " " ) # TAG DATA /TAG
tmp3 = tmp2.replace( "/", " " ) # TAG DATA TAG
tmp4 = tmp3.strip( ) # TAG DATA TAG
arr = tmp3.split( " " )
# [ " ", "TAG", "DATA", " ", "TAG" ]
# OR
# [ " ", "TAG", " ", " " ]
return arr
# Utilizes the serial console, especially the reading method for receiving
# IDs and / or STRINGs. However, the reading methods should be always threaded.
class PSSM_Serial:
MEMENTO = None
SER = None # serial console set to NULL
# Constructor
def __init__(self, port, baud):
MEMENTO = None # obvious useless
self.SER = serial.Serial( port, baud, timeout=1 )
time.sleep(0.1) # give some MOMENT in time to ARDUINO
def getSerial(self):
return self.SER
def isOpen(self):
return self.SER.isOpen()
def close(self):
if self.isOpen( ):
SER.close( )
def getPort(self):
port = None
if self.isOpen():
port = self.SER.port
return port
def getBaud(self):
baud = None
if self.isOpen():
baud = self.SER.baudrate
return baud
def reading(self):
message = None # we read STRINGS; by an example
chars = b"" # read BYTES first
if self.isOpen(): # obvious useless ??
while self.SER.inWaiting( ):
chars += self.SER.read_until( '>' ) # read single byte
if len( chars ) > 2:
message = str( chars ) # transform BYTES to STRING
self.MEMENTO = message # obvious useless
# print( message ) # DEBUG print out; delete later
return message
# send from PYTHON to ARDUINO
def writeID(self, pssm_Msg):
isWritten = False
if self.isOpen( ) :
if isinstance( pssm_Msg, PSSM_Message ) :
if pssm_Msg.hasID( ) :
print( pssm_Msg.genID( ) ) # DEBUG print out; delete later
self.SER.write( pssm_Msg.genID( ) ) # send ID to ARDUINO
isWritten = True
return isWritten
# send from ARDUINO & PYTHON to PYTHON
def writeTAG(self, pssm_Msg): # send ID _NOT_ STR to arduino
isWritten = False
if self.isOpen( ) :
if isinstance( pssm_Msg, PSSM_Message ) :
if pssm_Msg.hasTAG( ) :
print( pssm_Msg.genTAG( ) ) # DEBUG print out; delete later
self.SER.write( pssm_Msg.genTAG( ) ) # send ID _NOT_ STR to arduino
isWritten = True
return isWritten
# send from ARDUINO & PYTHON to PYTHON
def writeDATA(self, pssm_Msg): # send ID _NOT_ STR to arduino
isWritten = False
if self.isOpen( ) :
if isinstance( pssm_Msg, PSSM_Message ) :
if pssm_Msg.hasDATA( ) :
print( pssm_Msg.genDATA( ) ) # DEBUG print out; delete later
self.SER.write( pssm_Msg.genDATA( ) ) # send ID _NOT_ STR to arduino
isWritten = True
return isWritten
# return the LAST RECEIVED Answer of ARDUINO; works well while we are
# in CHALLANGING / RESPONDING COMMUNICATION and having SLOW MOVING PHYSICS
# on ARDUINO SIDE
def getMEMENTO(self):
return self.MEMENTO
# PSSM CLIENT for sending COMMANDs to ARDUINO (& PYTHON). The client opens a
# thread for reading ARDUINOs answers and stores thme in a MEMENTO way; ALWAYS
# the LAST RECEIVED RESPONSE. This works fine, while ARDUINO is not fast and
# we have slow physics. Therefore, do not forget to wait some moment in time,
# after sending to ARDUINO, before calling the getANSWER method. Have a look
# at run.py for a small example.
class PSSM_Client():
CMDS = None # obvious useless in python
STATES = None # obvious useless in python
HARDWARE = None # obvious useless in python
SERIAL = None # obvious useless in python
THREAD_READING = None # obvious useless in python
# Constructor
def __init__(self, port, baud):
self.CMDS = PSSM_Commands( ) # PROTOTYPEs that can be iterated
self.STATES = PSSM_States( ) # PROTOTYPEs that can be iterated
self.HARDWARE = PSSM_Hardware( ) # PROTOTYPEs that can be iterated
self.SERIAL = PSSM_Serial(port, baud) # GETTIN high on SERIAL
self.threadStopFlag = Event( )
self.THREAD_READING = PSSM_Serial_Thread( self.threadStopFlag, self )
self.THREAD_READING.start( )
# send from PYTHON to ARDUINO
def writeID(self, pssm_Msg):
return self.SERIAL.writeID( pssm_Msg )
# send from ARDUINO & PYTHON to PYTHON
def writeTAG(self, pssm_Msg):
return self.SERIAL.writeTAG( pssm_Msg )
# send from ARDUINO & PYTHON to PYTHON
def writeDATA(self, pssm_Msg):
return self.SERIAL.writeDATA( pssm_Msg )
# get the ANSWER (MEMENTO) that ARDUINO has SENT BACK TO LAST REQUEST
def getPSSMMessage(self):
xml = self.SERIAL.getMEMENTO( )
pssm_Msg = PSSM_XML( ).bake( xml ) # bake an object
return pssm_Msg
def getANSWER(self):
return self.SERIAL.getMEMENTO( )
# PSSM SERVER is the MIRROWED CLASS of ARDUINO's C++ implementation. Therefore,
# you can run also a SERVER by PYTHON on some other SYSTEM, like a raspberry pi-
# TODO The class is implemented but not debugged yet!
class PSSM_Server:
CMDS = None # obvious useless in python
STATES = None # obvious useless in python
SERIAL = None # obvious useless in python
HARDWARE = None # obvious useless in python
THREAD_READING = None # obvious useless in python
CMD = None
STATE = None
# Constructor
def __init__(self, port, baud):
self.CMDS = PSSM_Commands( ) # PROTOTYPEs that can be iterated
self.STATES = PSSM_States( ) # PROTOTYPEs that can be iterated
self.HARDWARE = PSSM_Hardware( ) # PROTOTYPEs that can be iterated
self.SERIAL = PSSM_Serial(port, baud) # GETTIN high on SERIAL
self.CMD = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
self.STATE = self.STATES.IDLNG.COPY( ) # start up in IDLNG state
self.threadStopFlag = Event( )
self.THREAD_READING = PSSM_Serial_Thread( self.threadStopFlag, self )
self.THREAD_READING.start( )
# Let's keep ARDUINO STYLE in python
def setup(self):
pass
# Let's keep ARDUINO STYLE in python
def loop(self):
#while True:
read = self.THREAD_READING.READ # TODO THIS is not SYNC YET - do MEMENTO
if len(read) > 0 :
# TODO convert the the STRING COMMAND to match an OBJECT
print( read )
self.CMD = self.CMDS.IDLNG.COPY( ) # DEBUG print out; delete later
self.STATE = self.process_Command(self.CMD)
print( "process_Command" + " - " + "next_State: " + str(self.STATE.ID) + " " + self.STATE.TAG ) # DEBUG print out; delete later
self.CMD = self.process_State(self.STATE) # next COMMAND is not used here .. is stored by memeber var
print( "process_State" + " - " + "next_Command: " + str(self.CMD.ID) + " " + self.CMD.TAG ) # DEBUG print out; delete later
print( " " ) # DEBUG print out; delete later
time.sleep( 1 ) # DEBUG print out; delete later
def process_Command(self, cmd):
self.CMD = cmd # obvious useless
next_state = self.STATE.COPY( ) # next state is same state
# if elif else block goes here
if cmd.ID == self.CMDS.SNA.ID:
print( self.CMDS.SNA.TAG ) # DEBUG print out; delete later
next_state = self.STATES.ERROR.COPY( ) # switch
elif cmd.ID == self.CMDS.PING.ID:
print( self.CMDS.PING.TAG ) # DEBUG print out; delete later
if self.STATE.ID == self.STATES.ERROR.ID: # move out of error state
next_state = self.STATES.IDLNG.COPY( ) # switch
else: # obvious useless
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.PONG )
elif cmd.ID == self.CMDS.PONG.ID:
print( self.CMDS.PONG.TAG ) # DEBUG print out; delete later
if self.STATE.ID == self.STATES.ERROR.ID: # move out of error state
next_state = self.STATES.IDLNG.COPY( ) # switch
else: # obvious useless
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.PING )
elif cmd.ID == self.CMDS.AKNW.ID:
print( self.CMDS.AKNW.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RUN.ID:
print( self.CMDS.RUN.TAG ) # DEBUG print out; delete later
if self.STATE.ID == self.STATES.MODE1.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE2.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE3.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE4.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE5.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE6.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE7.ID: # just ACKNOWLEDGE
next_state = self.STATE.COPY( )
self.SERIAL.writeTAG( self.CMDS.AKNW )
else: # obvious useless
next_state = self.STATE.COPY( )
elif cmd.ID == self.CMDS.STOP.ID:
print( self.CMDS.STOP.TAG ) # DEBUG print out; delete later
if self.STATE.ID == self.STATES.MODE1.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE2.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE3.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE4.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE5.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE6.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
elif self.STATE.ID == self.STATES.MODE7.ID: # move to IDLNG
next_state = self.STATES.IDLNG.COPY( ) # switch
self.SERIAL.writeTAG( self.CMDS.AKNW )
else: # obvious useless
next_state = self.STATE.COPY( )
elif cmd.ID == self.CMDS.WAIT.ID:
print( self.CMDS.WAIT.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.EVENT.ID:
print( self.CMDS.EVENT.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.DONE.ID:
print( self.CMDS.DONE.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.STATUS.ID:
print( self.CMDS.STATUS.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
self.SERIAL.writeTAG( self.STATE )
elif cmd.ID == self.CMDS.CNCT.ID:
print( self.CMDS.CNCT.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.DCNT.ID:
print( self.CMDS.DCNT.TAG ) # DEBUG print out; delete later
next_state = self.STATE.COPY( ) # obvious useless
# RUN MODEs ..
elif cmd.ID == self.CMDS.RMD1.ID:
print( self.ASSM_CMDS.RMD1.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE1.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE1.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD2.ID:
print( self.ASSM_CMDS.RMD2.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE2.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE2.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD3.ID:
print( self.ASSM_CMDS.RMD3.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE3.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE3.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD4.ID:
print( self.ASSM_CMDS.RMD4.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE4.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE4.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD5.ID:
print( self.ASSM_CMDS.RMD5.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE5.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE5.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD6.ID:
print( self.ASSM_CMDS.RMD6.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE6.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE6.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
elif cmd.ID == self.CMDS.RMD7.ID:
print( self.ASSM_CMDS.RMD7.TAG ) # DEBUG print out; delete later
if self.STATE.ID != self.STATES.ERROR.ID:
print( self.STATES.MODE7.TAG ) # DEBUG print out; delete later
next_state = self.STATES.MODE7.COPY( ) # switch
else:
next_state = self.STATE.COPY( ) # obvious useless
else:
# print( self.CMDS.NULL.TAG )
next_state = self.STATE.COPY( ) # obvious useless
return next_state
def process_State(self, state):
self.STATE = state # obvious useless
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
if state.ID == self.STATES.ERROR.ID:
print( self.STATES.ERROR.TAG ) # DEBUG print out; delete later
next_cmd = self.error( self.CMD )
elif state.ID == self.STATES.IDLNG.ID:
print( self.STATES.IDLNG.TAG ) # DEBUG print out; delete later
next_cmd = self.idle( self.CMD )
elif state.ID == self.STATES.MODE1.ID:
print( self.STATES.MODE1.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE1( self.CMD )
elif state.ID == self.STATES.MODE2.ID:
print( self.STATES.MODE2.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE2( self.CMD )
elif state.ID == self.STATES.MODE3.ID:
print( self.STATES.MODE3.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE3( self.CMD )
elif state.ID == self.STATES.MODE4.ID:
print( self.STATES.MODE4.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE4( self.CMD )
elif state.ID == self.STATES.MODE5.ID:
print( self.STATES.MODE5.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE5( self.CMD )
elif state.ID == self.STATES.MODE6.ID:
print( self.STATES.MODE6.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE6( self.CMD )
elif state.ID == self.STATES.MODE7.ID:
print( self.STATES.MODE7.TAG ) # DEBUG print out; delete later
next_cmd = self.runMODE7( self.CMD )
else:
# print( "DEFAULT" ) # DEBUG print out; delete later
next_cmd = copy.copy(self.CMDS.NULL) # no new COMMAND from this STATE
return next_cmd
# Following methods can be extended by own code ..
def error(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def idle(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE1(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE2(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE3(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE4(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE5(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE6(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd
def runMODE7(self, PSSM_Command):
next_cmd = self.CMDS.NULL.COPY( ) # no new COMMAND from this STATE
#
# own code to process goes here
#
return next_cmd