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LibrePilot/python/examples/example.py

222 lines
6.8 KiB
Python

##
##############################################################################
#
# @file example.py
# @author The LibrePilot Project, http://www.librepilot.org Copyright (C) # 2017.
# The OpenPilot Team, http://www.openpilot.org Copyright (C) 2011.
# @brief Base classes for python UAVObject
#
# @see The GNU Public License (GPL) Version 3
#
#############################################################################/
#
# 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 3 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.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
#
import logging
import serial
import traceback
import sys
from librepilot.uavtalk.uavobject import *
from librepilot.uavtalk.uavtalk import *
from librepilot.uavtalk.objectManager import *
from librepilot.uavtalk.connectionManager import *
def _hex02(value):
return "%02X" % value
class UavtalkDemo():
def __init__(self):
self.nbUpdates = 0
self.lastRateCalc = time.time()
self.updateRate = 0
self.objMan = None
self.connMan = None
def setup(self, port):
print "Opening Port \"%s\"" % port
if port[:3].upper() == "COM":
_port = int(port[3:]) - 1
else:
_port = port
serPort = serial.Serial(_port, 57600, timeout=.5)
if not serPort.isOpen():
raise IOError("Failed to open serial port")
print "Creating UavTalk"
self.uavTalk = UavTalk(serPort, None)
print "Starting ObjectManager"
self.objMan = ObjManager(self.uavTalk)
self.objMan.importDefinitions()
print "Starting UavTalk"
self.uavTalk.start()
print "Starting ConnectionManager"
self.connMan = ConnectionManager(self.uavTalk, self.objMan)
print "Connecting...",
self.connMan.connect()
print "Connected"
print "Getting all Data"
self.objMan.requestAllObjUpdate()
# print "SN:",
# sn = self.objMan.FirmwareIAPObj.CPUSerial.value
# print "".join(map(_hex02, sn))
def stop(self):
if self.uavTalk:
print "Stopping UavTalk"
self.uavTalk.stop()
def showAttitudeViaObserver(self):
print "Request fast periodic updates for AttitudeState"
self.objMan.AttitudeState.metadata.telemetryUpdateMode.value = UAVMetaDataObject.UpdateMode.PERIODIC
self.objMan.AttitudeState.metadata.telemetryUpdatePeriod.value = 50
self.objMan.AttitudeState.metadata.updated()
print "Install Observer for AttitudeState updates\n"
self.objMan.regObjectObserver(self.objMan.AttitudeState, self, "_onAttitudeUpdate")
# Spin until we get interrupted
while True:
time.sleep(1)
def showAttitudeViaWait(self):
print "Request fast periodic updates for AttitudeState"
self.objMan.AttitudeState.metadata.telemetryUpdateMode = UAVMetaDataObject.UpdateMode.PERIODIC
self.objMan.AttitudeState.metadata.telemetryUpdatePeriod = 50
self.objMan.AttitudeState.metadata.updated()
while True:
self.objMan.AttitudeState.waitUpdate()
self._onAttitudeUpdate(self.objMan.AttitudeState)
def showAttitudeViaGet(self):
while True:
self.objMan.AttitudeState.getUpdate()
self._onAttitudeUpdate(self.objMan.AttitudeState)
def _onAttitudeUpdate(self, args):
self.nbUpdates += 1
now = time.time()
if now - self.lastRateCalc > 1:
self.updateRate = self.nbUpdates / (now - self.lastRateCalc)
self.lastRateCalc = now
self.nbUpdates = 0
if self.nbUpdates & 1:
dot = "."
else:
dot = " "
print " %s Rate: %02.1f Hz " % (dot, self.updateRate),
roll = self.objMan.AttitudeState.Roll.value
print "RPY: %f %f %f " % (self.objMan.AttitudeState.Roll.value, self.objMan.AttitudeState.Pitch.value,
self.objMan.AttitudeState.Yaw.value) + " "
# return
# print "Roll: %f " % roll,
# i = roll/90
# if i<-1: i=-1
# if i>1: i= 1
# i = int((i+1)*15)
# print "-"*i+"*"+"-"*(30-i)+" \r",
def driveServo(self):
print "Taking control of self.actuatorCmd"
self.objMan.ActuatorCommand.metadata.access.value = UAVMetaDataObject.Access.READONLY
self.objMan.ActuatorCommand.metadata.updated()
self.objMan.ManualControlCommand.metadata.access.value = UAVMetaDataObject.Access.READONLY
self.objMan.ManualControlCommand.metadata.updated()
while True:
self.objMan.ActuatorCommand.Channel.value[0] = 1000
self.objMan.ActuatorCommand.updated()
time.sleep(1)
self.objMan.ActuatorCommand.Channel.value[0] = 2000
self.objMan.ActuatorCommand.updated()
time.sleep(1)
def printUsage():
appName = os.path.basename(sys.argv[0])
print
print "usage:"
print " %s port o|w|g|s" % appName
print " o: Show Attitude using an \"observer\""
print " w: Show Attitude waiting for updates from flight"
print " g: Show Attitude performing get operations"
print " s: Drive Servo"
print
print " for example: %s COM30 o" % appName
print
if __name__ == '__main__':
if len(sys.argv) != 3:
print "ERROR: Incorrect number of arguments"
printUsage()
sys.exit(2)
port, option = sys.argv[1:]
if option not in ["o", "w", "g", "s"]:
print "ERROR: Invalid option"
printUsage()
sys.exit(2)
# Log everything, and send it to stderr.
logging.basicConfig(level=logging.INFO)
try:
demo = UavtalkDemo()
demo.setup(port)
if option == "o":
demo.showAttitudeViaObserver() # will not return
elif option == "w":
demo.showAttitudeViaWait() # will not return
if option == "g":
demo.showAttitudeViaGet() # will not return
if option == "s":
demo.driveServo() # will not return
except KeyboardInterrupt:
pass
except Exception, e:
print
print "An error occured: ", e
print
traceback.print_exc()
print
try:
demo.stop()
except Exception:
pass