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backyard_flyer_solution.py
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backyard_flyer_solution.py
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# -*- coding: utf-8 -*-
"""
Solution to the Backyard Flyer Project.
"""
import time
from enum import Enum
import numpy as np
from udacidrone import Drone
from udacidrone.connection import MavlinkConnection, WebSocketConnection # noqa: F401
from udacidrone.messaging import MsgID
class States(Enum):
MANUAL = 0
ARMING = 1
TAKEOFF = 2
WAYPOINT = 3
LANDING = 4
DISARMING = 5
class BackyardFlyer(Drone):
def __init__(self, connection):
super().__init__(connection)
self.target_position = np.array([0.0, 0.0, 0.0])
self.all_waypoints = []
self.in_mission = True
self.check_state = {}
# initial state
self.flight_state = States.MANUAL
# register all your callbacks here
self.register_callback(MsgID.LOCAL_POSITION, self.local_position_callback)
self.register_callback(MsgID.LOCAL_VELOCITY, self.velocity_callback)
self.register_callback(MsgID.STATE, self.state_callback)
def local_position_callback(self):
if self.flight_state == States.TAKEOFF:
if -1.0 * self.local_position[2] > 0.95 * self.target_position[2]:
self.all_waypoints = self.calculate_box()
self.waypoint_transition()
elif self.flight_state == States.WAYPOINT:
if np.linalg.norm(self.target_position[0:2] - self.local_position[0:2]) < 1.0:
if len(self.all_waypoints) > 0:
self.waypoint_transition()
else:
if np.linalg.norm(self.local_velocity[0:2]) < 1.0:
self.landing_transition()
def velocity_callback(self):
if self.flight_state == States.LANDING:
if self.global_position[2] - self.global_home[2] < 0.1:
if abs(self.local_position[2]) < 0.01:
self.disarming_transition()
def state_callback(self):
if self.in_mission:
if self.flight_state == States.MANUAL:
self.arming_transition()
elif self.flight_state == States.ARMING:
if self.armed:
self.takeoff_transition()
elif self.flight_state == States.DISARMING:
if ~self.armed & ~self.guided:
self.manual_transition()
def calculate_box(self):
print("Setting Home")
local_waypoints = [[10.0, 0.0, 3.0], [10.0, 10.0, 3.0], [0.0, 10.0, 3.0], [0.0, 0.0, 3.0]]
return local_waypoints
def arming_transition(self):
print("arming transition")
self.take_control()
self.arm()
self.set_home_position(self.global_position[0], self.global_position[1],
self.global_position[2]) # set the current location to be the home position
self.flight_state = States.ARMING
def takeoff_transition(self):
print("takeoff transition")
# self.global_home = np.copy(self.global_position) # can't write to this variable!
target_altitude = 3.0
self.target_position[2] = target_altitude
self.takeoff(target_altitude)
self.flight_state = States.TAKEOFF
def waypoint_transition(self):
print("waypoint transition")
self.target_position = self.all_waypoints.pop(0)
print('target position', self.target_position)
self.cmd_position(self.target_position[0], self.target_position[1], self.target_position[2], 0.0)
self.flight_state = States.WAYPOINT
def landing_transition(self):
print("landing transition")
self.land()
self.flight_state = States.LANDING
def disarming_transition(self):
print("disarm transition")
self.disarm()
self.release_control()
self.flight_state = States.DISARMING
def manual_transition(self):
print("manual transition")
self.stop()
self.in_mission = False
self.flight_state = States.MANUAL
def start(self):
self.start_log("Logs", "NavLog.txt")
# self.connect()
print("starting connection")
# self.connection.start()
super().start()
# Only required if they do threaded
# while self.in_mission:
# pass
self.stop_log()
if __name__ == "__main__":
conn = MavlinkConnection('tcp:127.0.0.1:5760', threaded=False, PX4=False)
#conn = WebSocketConnection('ws://127.0.0.1:5760')
drone = BackyardFlyer(conn)
time.sleep(2)
drone.start()