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tthymioscratchgpio_handler4.py
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tthymioscratchgpio_handler4.py
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#!/usr/bin/env python
# ScratchThymio - control Thymio Robot coupled with Raspberry Pi using Scratch.
#Copyright (C) 2013 by Simon Walters based on original code for PiFace by Thomas Preston
#This program is free software; you can redistribute it and/or
#modify it under the terms of the GNU General Public License
#as published by the Free Software Foundation; either version 2
#of the License, or (at your option) any later version.
#This program is distributed in the hope that it will be useful,
#but WITHOUT ANY WARRANTY; without even the implied warranty of
#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
#GNU General Public License for more details.
#You should have received a copy of the GNU General Public License
#along with this program; if not, write to the Free Software
#Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
# This code now hosted on Github thanks to Ben Nuttall
Version = 'v0.0.01' # 29Jan14
import threading
import socket
import time
import sys
import struct
import datetime as dt
import shlex
import os
import math
import re
import sgh_GPIOController
import sgh_PiGlow
import sgh_PiMatrix
import sgh_Stepper
import logging
import subprocess
try:
from Adafruit_PWM_Servo_Driver import PWM
from sgh_PCF8591P import sgh_PCF8591P
from sgh_Adafruit_8x8 import sgh_EightByEight
except:
pass
import dbus
import dbus.mainloop.glib
import glib
import gobject
from optparse import OptionParser
#try and inport smbus but don't worry if not installed
#try:
# from smbus import SMBus
#except:
# pass
#import RPi.GPIO as GPIO
# proxSensorsVal=[0,0,0,0,0]
# groundSensorsAmbient=[0,0]
# groundSensorsReflected=[0,0]
# groundSensorsDelta=[0,0]
# tempSensorsVal=[0]
# accSensorsVal = [0,0,0]
class ThymioController(threading.Thread):
def __init__(self, filename):
print filename
threading.Thread.__init__(self)
# init the main loop and joystick
dbus.mainloop.glib.DBusGMainLoop(set_as_default=True)
self.lMotor = 0
self.rMotor = 0
self.colour = [0] * 3
self.proxSensors = [0] * 7
# get stub of the Aseba network
bus = dbus.SessionBus()
asebaNetworkObject = bus.get_object('ch.epfl.mobots.Aseba', '/')
self.asebaNetwork = dbus.Interface(asebaNetworkObject,
dbus_interface='ch.epfl.mobots.AsebaNetwork')
# load the file
self.asebaNetwork.LoadScripts(filename,
reply_handler=self.dbusReply,
error_handler=self.dbusError
)
self.groundDelta = self.asebaNetwork.GetVariable("thymio-II", "prox.ground.delta")
def stop(self):
self._stop.set()
def stopped(self):
return self._stop.isSet()
def run(self):
# run event loop
gobject.threads_init()
self.loop = gobject.MainLoop()
self.loop.run()
def dbusReply(self):
# correct replay on D-Bus, ignore
pass
def dbusError(self, e):
# there was an error on D-Bus, stop loop
print('dbus error: %s' % str(e))
self.loop.quit()
# send speed command
def SetSpeed(self):
self.asebaNetwork.SendEventName('SetSpeed',
[self.lMotor, self.rMotor],
reply_handler=self.dbusReply,
error_handler=self.dbusError
)
def UpdateSpeedLeft(self, mleft):
self.lMotor = mleft
def UpdateSpeedRight(self, mright):
self.rMotor = mright
def SetLEDS(self):
self.asebaNetwork.SendEventName('SetColor',
map(lambda x: 32*x, self.colour),
reply_handler=self.dbusReply,
error_handler=self.dbusError
)
def UpdateRed(self, value):
self.colour[0] = value
def UpdateGreen(self, value):
self.colour[1] = value
def UpdateBlue(self, value):
self.colour[2] = value
def isNumeric(s):
try:
float(s)
return True
except ValueError:
return False
def removeNonAscii(s): return "".join(i for i in s if ord(i)<128)
def xgetValue(searchString, dataString):
outputall_pos = dataString.find((searchString + ' '))
sensor_value = dataString[(outputall_pos+1+len(searchString)):].split()
return sensor_value[0]
def sign(number):return cmp(number,0)
def parse_data(dataraw, search_string):
outputall_pos = dataraw.find(search_string)
return dataraw[(outputall_pos + 1 + search_string.length):].split()
class MyError(Exception):
def __init__(self, value):
self.value = value
def __str__(self):
return repr(self.value)
class ScratchSender(threading.Thread):
def __init__(self, socket):
threading.Thread.__init__(self)
self.scratch_socket = socket
self._stop = threading.Event()
self.time_last_ping = 0.0
self.time_last_compass = 0.0
self.distlist = [0.0,0.0,0.0]
def stop(self):
self._stop.set()
def stopped(self):
return self._stop.isSet()
def broadcast_changed_pins(self, changed_pin_map, pin_value_map):
for pin in sghGC.validPins:
#print pin
# if we care about this pin's value
if (changed_pin_map >> pin) & 0b1:
print "changed"
pin_value = (pin_value_map >> pin) & 0b1
if (sghGC.pinUse[pin] == sghGC.PINPUT):
#print pin , pin_value
#print "broadcast changed pin"
self.broadcast_pin_update(pin, pin_value)
def broadcast_pin_update(self, pin, value):
#print ADDON
#sensor_name = "gpio" + str(GPIO_NUM[pin_index])
#bcast_str = 'sensor-update "%s" %d' % (sensor_name, value)
#print 'sending: %s' % bcast_str
#self.send_scratch_command(bcast_str)
#Normal action is to just send updates to pin values but this can be modified if known addon in use
sensor_name = "pin" + str(pin)
bcast_str = 'sensor-update "%s" %d' % (sensor_name, value)
def send_scratch_command(self, cmd):
n = len(cmd)
b = (chr((n >> 24) & 0xFF)) + (chr((n >> 16) & 0xFF)) + (chr((n >> 8) & 0xFF)) + (chr(n & 0xFF))
self.scratch_socket.send(b + cmd)
def run(self):
global firstRun,ADDON,compass
# while firstRun:
# print "first run running"
#time.sleep(5)
last_bit_pattern=0L
self.send_scratch_command('broadcast "SetPins"')
#print sghGC.pinUse
with lock:
for pin in sghGC.validPins:
if (sghGC.pinUse[pin] == sghGC.PINPUT):
#self.broadcast_pin_update(pin, sghGC.pinRead(pin))
last_bit_pattern += sghGC.pinRead(pin) << pin
else:
last_bit_pattern += 1 << pin
#print 'lbp %s' % bin(last_bit_pattern)
last_bit_pattern = last_bit_pattern ^ -1
lastPinUpdateTime = 0
lastThymioSensorUpdateTime = 0
while not self.stopped():
time.sleep(0.01) # be kind to cpu :)
#print "sender running"
pin_bit_pattern = 0
with lock:
#print "lOCKED"
for pin in sghGC.validPins:
#print pin
if (sghGC.pinUse[pin] == sghGC.PINPUT):
#print 'trying to read pin' , pin
pin_bit_pattern += sghGC.pinRead(pin) << pin
else:
pin_bit_pattern += 1 << pin
#print "unlocked"
#print bin(pin_bit_pattern) , pin_bit_pattern
#print bin(pin_bit_pattern) , pin_bit_pattern
# if there is a change in the input pins
changed_pins = pin_bit_pattern ^ last_bit_pattern
#print "changed pins" , bin(changed_pins)
if changed_pins:
#print 'pin bit pattern' , bin(pin_bit_pattern)
try:
self.broadcast_changed_pins(changed_pins, pin_bit_pattern)
except Exception as e:
print e
break
last_bit_pattern = pin_bit_pattern
if (time.time() - lastPinUpdateTime) > 2:
#print int(time.time())
lastPinUpdateTime = time.time()
for pin in sghGC.validPins:
if (sghGC.pinUse[pin] == sghGC.PINPUT):
self.broadcast_pin_update(pin, sghGC.pinRead(pin))
if (time.time() - lastThymioSensorUpdateTime) > 0.5:
#print "time up"
#print compass
#If Compass board truely present
if Thymio != None:
#print "getsensors"
horizontalProximity = Thymio.asebaNetwork.GetVariable('thymio-II', 'prox.horizontal')
newGroundDelta = Thymio.asebaNetwork.GetVariable("thymio-II", "prox.ground.delta")
#print type(horizontalProximity)
#proxSensorsVal=[0,0,0,0,0,0,0]
proxSensorsVal = horizontalProximity[0:7]
#print proxSensorsVal
#print(', '.join(map(str, horizontalProximity)))
bcast_str = ''#sensor-update'
for loop in range(0,5):
#print proxSensorsVal[loop]
if proxSensorsVal[loop] != Thymio.proxSensors[loop]:
bcast_str ='sensor-update "%s" %s' % ("front"+str(loop + 1), str(int(float(proxSensorsVal[loop]) / 46.0 )))
print bcast_str
self.send_scratch_command(bcast_str)
#print proxSensorsVal
#print(', '.join(map(str, horizontalProximity)))
print Thymio.groundDelta
print newGroundDelta
bcast_str = ''#sensor-update'
for loop in range(0,2):
#print proxSensorsVal[loop]
if newGroundDelta[loop] != Thymio.groundDelta[loop]:
bcast_str ='sensor-update "%s" %s' % ("front"+str(loop + 1), str(int(float(newGroundDelta[loop]) / 10.0 )))
print bcast_str
self.send_scratch_command(bcast_str)
#for loop in range(0,2):
#print groundSensorsDelta[loop]
#bcast_str = 'sensor-update "%s" %s' % ("ground"+str(loop + 1), str(float(groundSensorsDelta[loop])))
#self.send_scratch_command(bcast_str)
#print tempSensorsVal[0]
#bcast_str = 'sensor-update "%s" %s' % ("temp", str(float(tempSensorsVal[0])))
#self.send_scratch_command(bcast_str)
#for loop in range(0,3):
#print accSensorsVal[loop]
#bcast_str = 'sensor-update "%s" %s' % ("accelerometer"+str(loop + 0), str(float(accSensorsVal[loop])))
#self.send_scratch_command(bcast_str)
Thymio.proxSensors = proxSensorsVal
Thymio.groundDelta = newGroundDelta
#print Thymio.proxSensors
lastThymioSensorUpdateTime = time.time()
#time.sleep(1)
class ScratchListener(threading.Thread):
def __init__(self, socket):
threading.Thread.__init__(self)
self.scratch_socket = socket
self._stop = threading.Event()
self.dataraw = ''
self.value = None
self.valueNumeric = None
self.valueIsNumeric = None
self.OnOrOff = None
self.encoderDiff = 0
self.turnSpeed = 100
def send_scratch_command(self, cmd):
n = len(cmd)
b = (chr((n >> 24) & 0xFF)) + (chr((n >> 16) & 0xFF)) + (chr((n >> 8) & 0xFF)) + (chr(n & 0xFF))
self.scratch_socket.send(b + cmd)
def getValue(self,searchString):
outputall_pos = self.dataraw.find((searchString + ' '))
sensor_value = self.dataraw[(outputall_pos+1+len(searchString)):].split()
return sensor_value[0]
def bFind(self,searchStr):
return (searchStr in self.dataraw)
def bFindOn(self,searchStr):
return (self.bFind(searchStr + 'on') or self.bFind(searchStr + 'high'))
def bFindOff(self,searchStr):
return (self.bFind(searchStr + 'off') or self.bFind(searchStr + 'low'))
def bFindOnOff(self,searchStr):
self.OnOrOff = None
if (self.bFind(searchStr + 'on') or self.bFind(searchStr + 'high')):
self.OnOrOff = 1
return True
elif (self.bFind(searchStr + 'off') or self.bFind(searchStr + 'low')):
self.OnOrOff = 0
return True
else:
return False
# def dRtnOnOff(self,searchStr):
# if self.bFindOn(searchStr):
# return 1
# else:
# return 0
def bCheckAll(self):
if self.bFindOnOff('all'):
for pin in sghGC.validPins:
#print pin
if sghGC.pinUse[pin] in [sghGC.POUTPUT,sghGC.PPWM]:
#print pin
sghGC.pinUpdate(pin,self.OnOrOff)
def bPinCheck(self):
for pin in sghGC.validPins:
if self.bFindOnOff('pin' + str(pin)):
sghGC.pinUpdate(pin,self.OnOrOff)
if self.bFindOnOff('gpio' + str(sghGC.gpioLookup[pin])):
sghGC.pinUpdate(pin,self.OnOrOff)
#print pin
def bLEDCheck(self,ledList):
for led in range(1,(1+ len(ledList))): # loop thru led numbers
if self.bFindOnOff('led' + str(led)):
sghGC.pinUpdate(ledList[led - 1],self.OnOrOff)
def bFindValue(self,searchStr):
#print "searching for ", searchStr
self.value = None
self.valueNumeric = None
self.valueIsNumeric = False
if self.bFind(searchStr):
self.findPos = self.dataraw.find((searchStr))
logging.debug("1st chars of value:%s",(self.dataraw[self.findPos + len(searchStr):]) )
try:
if (self.dataraw[self.findPos + len(searchStr):][0]) == " ":
logging.debug("space found in bfindvalue")
self.value = ""
return True
except IndexError:
self.value = ""
return True
sensor_value = self.dataraw[(self.dataraw.find((searchStr)) + 0 + len(searchStr)):].split()
try:
self.value = sensor_value[0]
except IndexError:
self.value = ""
pass
#print self.value
if isNumeric(self.value):
self.valueNumeric = float(self.value)
self.valueIsNumeric = True
#print "numeric" , self.valueNumeric
return True
else:
return False
def bLEDPowerCheck(self,ledList):
for led in range(1,(1+ len(ledList))): # loop thru led numbers
#print "power" +str(led) + ","
if self.bFindValue('power' + str(led) +","):
if self.valueIsNumeric:
sghGC.pinUpdate(ledList[led - 1],self.valueNumeric,type="pwm")
else:
sghGC.pinUpdate(ledList[led - 1],0,type="pwm")
def vFind(self,searchStr):
return ((searchStr + ' ') in self.dataraw)
def vFindOn(self,searchStr):
return (self.vFind(searchStr + 'on') or self.vFind(searchStr + 'high')or self.vFind(searchStr + '1'))
def vFindOff(self,searchStr):
return (self.vFind(searchStr + 'off') or self.vFind(searchStr + 'low') or self.vFind(searchStr + '0'))
def vFindOnOff(self,searchStr):
self.value = None
self.valueNumeric = None
self.valueIsNumeric = False
if self.vFind(searchStr):
self.value = self.getValue(searchStr)
if str(self.value) in ["high","on","1"]:
self.valueNumeric = 1
else:
self.valueNumeric = 0
return True
else:
return False
def vFindValue(self,searchStr):
#print "searching for ", searchStr
self.value = None
self.valueNumeric = None
self.valueIsNumeric = False
if self.vFind(searchStr):
#print "found"
self.value = self.getValue(searchStr)
#print self.value
if isNumeric(self.value):
self.valueNumeric = float(self.value)
self.valueIsNumeric = True
#print "numeric" , self.valueNumeric
return True
else:
return False
def vAllCheck(self,searchStr):
if self.vFindOnOff(searchStr):
for pin in sghGC.validPins:
if sghGC.pinUse[pin] in [sghGC.POUTPUT,sghGC.PPWM]:
sghGC.pinUpdate(pin,self.valueNumeric)
def vPinCheck(self):
for pin in sghGC.validPins:
#print "checking pin" ,pin
if self.vFindValue('pin' + str(pin)):
if self.valueIsNumeric:
sghGC.pinUpdate(pin,self.valueNumeric)
else:
sghGC.pinUpdate(pin,0)
if self.vFindValue('power' + str(pin)):
#print pin , "found"
if self.valueIsNumeric:
sghGC.pinUpdate(pin,self.valueNumeric,type="pwm")
else:
sghGC.pinUpdate(pin,0,type="pwm")
if self.vFindValue('motor' + str(pin)):
if self.valueIsNumeric:
sghGC.pinUpdate(pin,self.valueNumeric,type="pwm")
else:
sghGC.pinUpdate(pin,0,type="pwm")
if self.vFindValue('gpio' + str(sghGC.gpioLookup[pin])):
if self.valueIsNumeric:
sghGC.pinUpdate(pin,self.valueNumeric)
else:
sghGC.pinUpdate(pin,0)
if self.vFindValue('gpiopower' + str(sghGC.gpioLookup[pin])):
#print pin , "found"
if self.valueIsNumeric:
sghGC.pinUpdate(pin,self.valueNumeric,type="pwm")
else:
sghGC.pinUpdate(pin,0,type="pwm")
def vLEDCheck(self,ledList):
for led in range(1,(1+ len(ledList))): # loop thru led numbers
if self.vFindValue('led' + str(led)):
if self.valueIsNumeric:
sghGC.pinUpdate(ledList[led - 1],self.valueNumeric)
else:
sghGC.pinUpdate(ledList[led - 1],0)
if self.vFindValue('power' + str(led)):
if self.valueIsNumeric:
sghGC.pinUpdate(ledList[led - 1],self.valueNumeric,type="pwm")
else:
sghGC.pinUpdate(ledList[led - 1],0,type="pwm")
def stop(self):
self._stop.set()
def stopped(self):
return self._stop.isSet()
def run(self):
global firstRun,cycle_trace,step_delay,stepType,INVERT, \
Ultra,ultraTotalInUse,piglow,PiGlow_Brightness,compass,ADDON,proxSensorsVal
#firstRun = True #Used for testing in overcoming Scratch "bug/feature"
firstRunData = ''
anyAddOns = False
ADDON = ""
#semi global variables used for servos in PiRoCon
panoffset = 0
tiltoffset = 0
pan = 0
tilt = 0
steppersInUse = None
beepDuration = 0.5
beepNote = 60
if GPIOPlus == False:
with lock:
print "set pins standard"
for pin in sghGC.validPins:
sghGC.pinUse[pin] = sghGC.PINPUTDOWN
sghGC.pinUse[11] = sghGC.POUTPUT
sghGC.pinUse[12] = sghGC.POUTPUT
sghGC.pinUse[13] = sghGC.POUTPUT
sghGC.pinUse[15] = sghGC.POUTPUT
sghGC.pinUse[16] = sghGC.POUTPUT
sghGC.pinUse[18] = sghGC.POUTPUT
sghGC.setPinMode()
#This is main listening routine
lcount = 0
dataPrevious = ""
#This is the main loop that listens for messages from Scratch and sends appropriate commands off to various routines
while not self.stopped():
#lcount += 1
#print lcount
try:
#print "try reading socket"
BUFFER_SIZE = 512 # This size will accomdate normal Scratch Control 'droid app sensor updates
data = dataPrevious + self.scratch_socket.recv(BUFFER_SIZE) # get the data from the socket plus any data not yet processed
logging.debug(len(data))
logging.debug("RAW: %s", data)
if "send-vars" in data:
#Reset if New project detected from Scratch
#tell outer loop that Scratch has disconnected
if cycle_trace == 'running':
cycle_trace = 'disconnected'
print "cycle_trace has changed to" ,cycle_trace
break
if len(data) > 0: # Connection still valid so process the data received
dataIn = data
#dataOut = ""
dataList = [] # used to hold series of broadcasts or sensor updates
dataPrefix = "" # data to be re-added onto front of incoming data
while len(dataIn) > 0: # loop thru data
if len(dataIn) < 4: #If whole length not received then break out of loop
#print "<4 chrs received"
dataPrevious = dataIn # store data and tag it onto next data read
break
sizeInfo = dataIn[0:4]
size = struct.unpack(">L", sizeInfo)[0] # get size of Scratch msg
#print "size:", size
if size > 0:
#print dataIn[4:size + 4]
#dataOut = dataOut + dataIn[4:size + 4].lower() + " "
dataMsg = dataIn[4:size + 4].lower() # turn msg into lower case
#print "msg:",dataMsg
if len(dataMsg) < size: # if msg recieved is too small
#print "half msg found"
#print size, len(dataMsg)
dataPrevious = dataIn # store data and tag it onto next data read
break
if len(dataMsg) == size: # if msg recieved is correct
if "alloff" in dataMsg:
allSplit = dataMsg.find("alloff")
logging.debug("Whole message:%s", dataIn)
#dataPrevious = dataIn # store data and tag it onto next data read
#break
#print "half msg found"
#print size, len(dataMsg)
dataPrevious = dataIn # store data and tag it onto next data read
#break
dataPrevious = "" # no data needs tagging to next read
if ("alloff" in dataMsg) or ("allon" in dataMsg):
dataList.append(dataMsg)
else:
if dataMsg[0:2] == "br": # removed redundant "broadcast" and "sensor-update" txt
if dataPrefix == "br":
dataList[-1] = dataList[-1] + " "+ dataMsg[10:]
else:
dataList.append(dataMsg)
dataPrefix = "br"
else:
if dataPrefix == "se":
dataList[-1] = dataList[-1] + dataMsg[10:]
else:
dataList.append(dataMsg)
dataPrefix = "se"
dataIn = dataIn[size+4:] # cut data down that's been processed
#print "previous:", dataPrevious
#print 'Cycle trace' , cycle_trace
if len(data) == 0:
#This is due to client disconnecting or user loading new Scratch program so temp disconnect
#I'd like the program to retry connecting to the client
#tell outer loop that Scratch has disconnected
if cycle_trace == 'running':
cycle_trace = 'disconnected'
print "cycle_trace has changed to" ,cycle_trace
break
except (KeyboardInterrupt, SystemExit):
print "reraise error"
raise
except socket.timeout:
#print "No data received: socket timeout"
continue
except:
print "Unknown error occured with receiving data"
#raise
continue
#At this point dataList[] contains a series of strings either broadcast or sensor-updates
#print "data being processed:" , dataraw
#This section is only enabled if flag set - I am in 2 minds as to whether to use it or not!
#if (firstRun == True) or (anyAddOns == False):
#print
logging.debug("dataList: %s",dataList)
#print "GPIOPLus" , GPIOPlus
for dataItem in dataList:
dataraw = dataraw = ' '.join([item.replace(' ','') for item in shlex.split(dataItem)])
self.dataraw = dataraw
#print "Loop processing"
#print self.dataraw
#print
if 'sensor-update' in self.dataraw:
#print "this data ignored" , dataraw
firstRunData = self.dataraw
#dataraw = ''
#firstRun = False
if self.vFindValue("autostart"):
if self.value == "true":
self.send_scratch_command("broadcast Scratch-StartClicked")
### Check for AddOn boards being declared
#Listen for Variable changes
if 'sensor-update' in self.dataraw:
self.vAllCheck("allpins") # check All On/Off/High/Low/1/0
self.vPinCheck() # check for any pin On/Off/High/Low/1/0 any PWM settings using power or motor
if Thymio != None:
if self.vFindValue("motorleft"):
Thymio.UpdateSpeedLeft(self.valueNumeric)
if self.vFindValue("motorright"):
Thymio.UpdateSpeedRight(self.valueNumeric)
if self.bFind("motor"):
Thymio.SetSpeed()
changeLED = False
if self.vFindValue("red"):
Thymio.UpdateRed(self.valueNumeric)
changeLED = True
if self.vFindValue("green"):
Thymio.UpdateGreen(self.valueNumeric)
changeLED = True
if self.vFindValue("blue"):
Thymio.UpdateBlue(self.valueNumeric)
changeLED = True
if changeLED == True:
Thymio.SetLEDS()
### Check for Broadcast type messages being received
if 'broadcast' in self.dataraw:
self.bCheckAll() # Check for all off/on type broadcasrs
#end of broadcast check
if 'stop handler' in dataraw:
print "stop handler msg setn from Scratch"
cleanup_threads((listener, sender))
sys.exit()
#else:
#print 'received something: %s' % dataraw
### End of ScratchListner Class
def create_socket(host, port):
while True:
try:
print 'Trying'
scratch_sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
scratch_sock.connect((host, port))
break
except socket.error:
print "There was an error connecting to Scratch!"
print "I couldn't find a Mesh session at host: %s, port: %s" % (host, port)
time.sleep(3)
#sys.exit(1)
return scratch_sock
def cleanup_threads(threads):
print ("cleanup threads started")
for thread in threads:
thread.stop()
print "Threads told to stop"
for thread in threads:
thread.join()
print "Waiting for join on main threads to complete"
Thymio.stop()
print ("cleanup threads finished")
######### Main Program Here
#Set some constants and initialise lists
sghGC = sgh_GPIOController.GPIOController(True)
print sghGC.getPiRevision()
ADDON = ""
logging.basicConfig(stream=sys.stderr, level=logging.INFO)# default DEBUG
PORT = 42001
DEFAULT_HOST = '127.0.0.1'
BUFFER_SIZE = 8192 #used to be 100
SOCKET_TIMEOUT = 2
firstRun = True
lock = threading.Lock()
if __name__ == '__main__':
SCRIPTPATH = os.path.split(os.path.realpath(__file__))[0]
print "PATH:" ,SCRIPTPATH
if len(sys.argv) > 1:
host = sys.argv[1]
else:
host = DEFAULT_HOST
host = host.replace("'", "")
GPIOPlus = True
if len(sys.argv) > 2:
if sys.argv[2] == "standard":
GPIOPlus = False
Thymio = None
Thymio = ThymioController("/home/pi/test-medulla.aesl")
print "thymio: ",Thymio
#Thymio.run()
# except:
#print "No Thymio found"
cycle_trace = 'start'
#sghGC.setPinMode()
while True:
if (cycle_trace == 'disconnected'):
print "Scratch disconnected"
cleanup_threads((listener, sender))
print "Thread cleanup done after disconnect"
sghGC.stopServod()
print "servod stopped afer disconnect"
#os.system('sudo pkill -f asebamedulla')
time.sleep(1)
cycle_trace = 'start'
if (cycle_trace == 'start'):
#os.system('asebamedulla "ser:device=/dev/ttyACM0" &')
ADDON = ""
INVERT = False
# open the socket
print 'Starting to connect...' ,
the_socket = create_socket(host, PORT)
print 'Connected!'
the_socket.settimeout(SOCKET_TIMEOUT) #removed 3dec13 to see what happens
#listener = ScratchListener(the_socket)
sender = ScratchSender(the_socket)
cycle_trace = 'running'
print "Running...."
#listener.start()
sender.start()
Thymio.start()
## stepperb.start()
# wait for ctrl+c
#try:
time.sleep(0.1)
# except KeyboardInterrupt:
# print ("Keyboard Interrupt")
# cleanup_threads((listener,sender))
# if Thymio != None:
# loop.quit()
# print "loop quitted"
# sghGC.stopServod()
# print ("servod stopped")
# sghGC.cleanup()
# print ("Pin Cleanup done")
# sys.exit()
# print "CleanUp complete"
#### End of main program