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libardrone.py
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libardrone.py
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# Copyright (c) 2011 Bastian Venthur
#
# 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.
"""
Python library for the AR.Drone.
This module was tested with Python 2.6.6 and AR.Drone vanilla firmware 1.5.1.
"""
import socket
import struct
import sys
import threading
import multiprocessing
import arnetwork
__author__ = "Bastian Venthur"
ARDRONE_NAVDATA_PORT = 5554
ARDRONE_VIDEO_PORT = 5555
ARDRONE_COMMAND_PORT = 5556
class ARDrone(object):
"""ARDrone Class.
Instanciate this class to control your drone and receive decoded video and
navdata.
"""
def __init__(self):
self.seq_nr = 1
self.timer_t = 0.2
self.com_watchdog_timer = threading.Timer(self.timer_t, self.commwdg)
self.lock = threading.Lock()
self.speed = 0.2
self.at(at_config, "general:navdata_demo", "TRUE")
self.video_pipe, video_pipe_other = multiprocessing.Pipe()
self.nav_pipe, nav_pipe_other = multiprocessing.Pipe()
self.com_pipe, com_pipe_other = multiprocessing.Pipe()
self.network_process = arnetwork.ARDroneNetworkProcess(nav_pipe_other, video_pipe_other, com_pipe_other)
self.network_process.start()
self.ipc_thread = arnetwork.IPCThread(self)
self.ipc_thread.start()
self.image = ""
self.navdata = dict()
self.time = 0
def takeoff(self):
"""Make the drone takeoff."""
self.at(at_ftrim)
self.at(at_config, "control:altitude_max", "20000")
self.at(at_ref, True)
def land(self):
"""Make the drone land."""
self.at(at_ref, False)
def hover(self):
"""Make the drone hover."""
self.at(at_pcmd, False, 0, 0, 0, 0)
def move_left(self):
"""Make the drone move left."""
self.at(at_pcmd, True, -self.speed, 0, 0, 0)
def move_right(self):
"""Make the drone move right."""
self.at(at_pcmd, True, self.speed, 0, 0, 0)
def move_up(self):
"""Make the drone rise upwards."""
self.at(at_pcmd, True, 0, 0, self.speed, 0)
def move_down(self):
"""Make the drone decent downwards."""
self.at(at_pcmd, True, 0, 0, -self.speed, 0)
def move_forward(self):
"""Make the drone move forward."""
self.at(at_pcmd, True, 0, -self.speed, 0, 0)
def move_backward(self):
"""Make the drone move backwards."""
self.at(at_pcmd, True, 0, self.speed, 0, 0)
def turn_left(self):
"""Make the drone rotate left."""
self.at(at_pcmd, True, 0, 0, 0, -self.speed)
def turn_right(self):
"""Make the drone rotate right."""
self.at(at_pcmd, True, 0, 0, 0, self.speed)
def reset(self):
"""Toggle the drone's emergency state."""
self.at(at_ref, False, True)
self.at(at_ref, False, False)
def trim(self):
"""Flat trim the drone."""
self.at(at_ftrim)
def set_speed(self, speed):
"""Set the drone's speed.
Valid values are floats from [0..1]
"""
self.speed = speed
def at(self, cmd, *args, **kwargs):
"""Wrapper for the low level at commands.
This method takes care that the sequence number is increased after each
at command and the watchdog timer is started to make sure the drone
receives a command at least every second.
"""
self.lock.acquire()
self.com_watchdog_timer.cancel()
cmd(self.seq_nr, *args, **kwargs)
self.seq_nr += 1
self.com_watchdog_timer = threading.Timer(self.timer_t, self.commwdg)
self.com_watchdog_timer.start()
self.lock.release()
def commwdg(self):
"""Communication watchdog signal.
This needs to be send regular to keep the communication w/ the drone
alive.
"""
self.at(at_comwdg)
def halt(self):
"""Shutdown the drone.
This method does not land or halt the actual drone, but the
communication with the drone. You should call it at the end of your
application to close all sockets, pipes, processes and threads related
with this object.
"""
self.lock.acquire()
self.com_watchdog_timer.cancel()
self.com_pipe.send('die!')
self.network_process.terminate()
self.network_process.join()
self.ipc_thread.stop()
self.ipc_thread.join()
self.lock.release()
def move(self,lr, fb, vv, va):
"""Makes the drone move (translate/rotate).
Parameters:
lr -- left-right tilt: float [-1..1] negative: left, positive: right
rb -- front-back tilt: float [-1..1] negative: forwards, positive:
backwards
vv -- vertical speed: float [-1..1] negative: go down, positive: rise
va -- angular speed: float [-1..1] negative: spin left, positive: spin
right"""
self.at(at_pcmd, True, lr, fb, vv, va)
###############################################################################
### Low level AT Commands
###############################################################################
def at_ref(seq, takeoff, emergency=False):
"""
Basic behaviour of the drone: take-off/landing, emergency stop/reset)
Parameters:
seq -- sequence number
takeoff -- True: Takeoff / False: Land
emergency -- True: Turn of the engines
"""
p = 0b10001010101000000000000000000
if takeoff:
p += 0b1000000000
if emergency:
p += 0b0100000000
at("REF", seq, [p])
def at_pcmd(seq, progressive, lr, fb, vv, va):
"""
Makes the drone move (translate/rotate).
Parameters:
seq -- sequence number
progressive -- True: enable progressive commands, False: disable (i.e.
enable hovering mode)
lr -- left-right tilt: float [-1..1] negative: left, positive: right
rb -- front-back tilt: float [-1..1] negative: forwards, positive:
backwards
vv -- vertical speed: float [-1..1] negative: go down, positive: rise
va -- angular speed: float [-1..1] negative: spin left, positive: spin
right
The above float values are a percentage of the maximum speed.
"""
p = 1 if progressive else 0
at("PCMD", seq, [p, float(lr), float(fb), float(vv), float(va)])
def at_ftrim(seq):
"""
Tell the drone it's lying horizontally.
Parameters:
seq -- sequence number
"""
at("FTRIM", seq, [])
def at_zap(seq, stream):
"""
Selects which video stream to send on the video UDP port.
Parameters:
seq -- sequence number
stream -- Integer: video stream to broadcast
"""
# FIXME: improve parameters to select the modes directly
at("ZAP", seq, [stream])
def at_config(seq, option, value):
"""Set configuration parameters of the drone."""
at("CONFIG", seq, [str(option), str(value)])
def at_comwdg(seq):
"""
Reset communication watchdog.
"""
# FIXME: no sequence number
at("COMWDG", seq, [])
def at_aflight(seq, flag):
"""
Makes the drone fly autonomously.
Parameters:
seq -- sequence number
flag -- Integer: 1: start flight, 0: stop flight
"""
at("AFLIGHT", seq, [flag])
def at_pwm(seq, m1, m2, m3, m4):
"""
Sends control values directly to the engines, overriding control loops.
Parameters:
seq -- sequence number
m1 -- front left command
m2 -- fright right command
m3 -- back right command
m4 -- back left command
"""
# FIXME: what type do mx have?
pass
def at_led(seq, anim, f, d):
"""
Control the drones LED.
Parameters:
seq -- sequence number
anim -- Integer: animation to play
f -- ?: frequence in HZ of the animation
d -- Integer: total duration in seconds of the animation
"""
pass
def at_anim(seq, anim, d):
"""
Makes the drone execute a predefined movement (animation).
Parameters:
seq -- sequence number
anim -- Integer: animation to play
d -- Integer: total duration in sections of the animation
"""
at("ANIM", seq, [anim, d])
def at(command, seq, params):
"""
Parameters:
command -- the command
seq -- the sequence number
params -- a list of elements which can be either int, float or string
"""
param_str = ''
for p in params:
if type(p) == int:
param_str += ",%d" % p
elif type(p) == float:
param_str += ",%d" % f2i(p)
elif type(p) == str:
param_str += ',"'+p+'"'
msg = "AT*%s=%i%s\r" % (command, seq, param_str)
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
sock.sendto(msg, ("192.168.1.1", ARDRONE_COMMAND_PORT))
def f2i(f):
"""Interpret IEEE-754 floating-point value as signed integer.
Arguments:
f -- floating point value
"""
return struct.unpack('i', struct.pack('f', f))[0]
###############################################################################
### navdata
###############################################################################
def decode_navdata(packet):
"""Decode a navdata packet."""
offset = 0
_ = struct.unpack_from("IIII", packet, offset)
drone_state = dict()
drone_state['fly_mask'] = _[1] & 1 # FLY MASK : (0) ardrone is landed, (1) ardrone is flying
drone_state['video_mask'] = _[1] >> 1 & 1 # VIDEO MASK : (0) video disable, (1) video enable
drone_state['vision_mask'] = _[1] >> 2 & 1 # VISION MASK : (0) vision disable, (1) vision enable */
drone_state['control_mask'] = _[1] >> 3 & 1 # CONTROL ALGO (0) euler angles control, (1) angular speed control */
drone_state['altitude_mask'] = _[1] >> 4 & 1 # ALTITUDE CONTROL ALGO : (0) altitude control inactive (1) altitude control active */
drone_state['user_feedback_start'] = _[1] >> 5 & 1 # USER feedback : Start button state */
drone_state['command_mask'] = _[1] >> 6 & 1 # Control command ACK : (0) None, (1) one received */
drone_state['fw_file_mask'] = _[1] >> 7 & 1 # Firmware file is good (1) */
drone_state['fw_ver_mask'] = _[1] >> 8 & 1 # Firmware update is newer (1) */
drone_state['fw_upd_mask'] = _[1] >> 9 & 1 # Firmware update is ongoing (1) */
drone_state['navdata_demo_mask'] = _[1] >> 10 & 1 # Navdata demo : (0) All navdata, (1) only navdata demo */
drone_state['navdata_bootstrap'] = _[1] >> 11 & 1 # Navdata bootstrap : (0) options sent in all or demo mode, (1) no navdata options sent */
drone_state['motors_mask'] = _[1] >> 12 & 1 # Motor status : (0) Ok, (1) Motors problem */
drone_state['com_lost_mask'] = _[1] >> 13 & 1 # Communication lost : (1) com problem, (0) Com is ok */
drone_state['vbat_low'] = _[1] >> 15 & 1 # VBat low : (1) too low, (0) Ok */
drone_state['user_el'] = _[1] >> 16 & 1 # User Emergency Landing : (1) User EL is ON, (0) User EL is OFF*/
drone_state['timer_elapsed'] = _[1] >> 17 & 1 # Timer elapsed : (1) elapsed, (0) not elapsed */
drone_state['angles_out_of_range'] = _[1] >> 19 & 1 # Angles : (0) Ok, (1) out of range */
drone_state['ultrasound_mask'] = _[1] >> 21 & 1 # Ultrasonic sensor : (0) Ok, (1) deaf */
drone_state['cutout_mask'] = _[1] >> 22 & 1 # Cutout system detection : (0) Not detected, (1) detected */
drone_state['pic_version_mask'] = _[1] >> 23 & 1 # PIC Version number OK : (0) a bad version number, (1) version number is OK */
drone_state['atcodec_thread_on'] = _[1] >> 24 & 1 # ATCodec thread ON : (0) thread OFF (1) thread ON */
drone_state['navdata_thread_on'] = _[1] >> 25 & 1 # Navdata thread ON : (0) thread OFF (1) thread ON */
drone_state['video_thread_on'] = _[1] >> 26 & 1 # Video thread ON : (0) thread OFF (1) thread ON */
drone_state['acq_thread_on'] = _[1] >> 27 & 1 # Acquisition thread ON : (0) thread OFF (1) thread ON */
drone_state['ctrl_watchdog_mask'] = _[1] >> 28 & 1 # CTRL watchdog : (1) delay in control execution (> 5ms), (0) control is well scheduled */
drone_state['adc_watchdog_mask'] = _[1] >> 29 & 1 # ADC Watchdog : (1) delay in uart2 dsr (> 5ms), (0) uart2 is good */
drone_state['com_watchdog_mask'] = _[1] >> 30 & 1 # Communication Watchdog : (1) com problem, (0) Com is ok */
drone_state['emergency_mask'] = _[1] >> 31 & 1 # Emergency landing : (0) no emergency, (1) emergency */
data = dict()
data['drone_state'] = drone_state
data['header'] = _[0]
data['seq_nr'] = _[2]
data['vision_flag'] = _[3]
offset += struct.calcsize("IIII")
while 1:
try:
id_nr, size = struct.unpack_from("HH", packet, offset)
offset += struct.calcsize("HH")
except struct.error:
break
values = []
for i in range(size-struct.calcsize("HH")):
values.append(struct.unpack_from("c", packet, offset)[0])
offset += struct.calcsize("c")
# navdata_tag_t in navdata-common.h
if id_nr == 0:
values = struct.unpack_from("IIfffIfffI", "".join(values))
values = dict(zip(['ctrl_state', 'battery', 'theta', 'phi', 'psi', 'altitude', 'vx', 'vy', 'vz', 'num_frames'], values))
# convert the millidegrees into degrees and round to int, as they
# are not so precise anyways
for i in 'theta', 'phi', 'psi':
values[i] = int(values[i] / 1000)
#values[i] /= 1000
data[id_nr] = values
return data
if __name__ == "__main__":
import termios
import fcntl
import os
fd = sys.stdin.fileno()
oldterm = termios.tcgetattr(fd)
newattr = termios.tcgetattr(fd)
newattr[3] = newattr[3] & ~termios.ICANON & ~termios.ECHO
termios.tcsetattr(fd, termios.TCSANOW, newattr)
oldflags = fcntl.fcntl(fd, fcntl.F_GETFL)
fcntl.fcntl(fd, fcntl.F_SETFL, oldflags | os.O_NONBLOCK)
drone = ARDrone()
try:
while 1:
try:
c = sys.stdin.read(1)
c = c.lower()
print "Got character", c
if c == 'a':
drone.move_left()
if c == 'd':
drone.move_right()
if c == 'w':
drone.move_forward()
if c == 's':
drone.move_backward()
if c == ' ':
drone.land()
if c == '\n':
drone.takeoff()
if c == 'q':
drone.turn_left()
if c == 'e':
drone.turn_right()
if c == '1':
drone.move_up()
if c == '2':
drone.hover()
if c == '3':
drone.move_down()
if c == 't':
drone.reset()
if c == 'x':
drone.hover()
if c == 'y':
drone.trim()
except IOError:
pass
finally:
termios.tcsetattr(fd, termios.TCSAFLUSH, oldterm)
fcntl.fcntl(fd, fcntl.F_SETFL, oldflags)
drone.halt()