import math, util, rotmat, time from rotmat import Vector3, Matrix3 class Aircraft(object): '''a basic aircraft class''' def __init__(self): self.home_latitude = 0 self.home_longitude = 0 self.home_altitude = 0 self.ground_level = 0 self.frame_height = 0.0 self.latitude = self.home_latitude self.longitude = self.home_longitude self.altitude = self.home_altitude self.dcm = Matrix3() # rotation rate in body frame self.gyro = Vector3(0,0,0) # rad/s self.velocity = Vector3(0, 0, 0) # m/s, North, East, Down self.position = Vector3(0, 0, 0) # m North, East, Down self.mass = 0.0 self.update_frequency = 50 # in Hz self.gravity = 9.80665 # m/s/s self.accelerometer = Vector3(0, 0, -self.gravity) self.wind = util.Wind('0,0,0') self.time_base = time.time() self.time_now = self.time_base + 100*1.0e-6 def on_ground(self, position=None): '''return true if we are on the ground''' if position is None: position = self.position return (-position.z) + self.home_altitude <= self.ground_level + self.frame_height def update_position(self): '''update lat/lon/alt from position''' bearing = math.degrees(math.atan2(self.position.y, self.position.x)) distance = math.sqrt(self.position.x**2 + self.position.y**2) (self.latitude, self.longitude) = util.gps_newpos(self.home_latitude, self.home_longitude, bearing, distance) self.altitude = self.home_altitude - self.position.z velocity_body = self.dcm.transposed() * self.velocity self.accelerometer = self.accel_body.copy() def set_yaw_degrees(self, yaw_degrees): '''rotate to the given yaw''' (roll, pitch, yaw) = self.dcm.to_euler() yaw = math.radians(yaw_degrees) self.dcm.from_euler(roll, pitch, yaw) def time_advance(self, deltat): '''advance time by deltat in seconds''' self.time_now += deltat def setup_frame_time(self, rate, speedup): '''setup frame_time calculation''' self.rate = rate self.speedup = speedup self.frame_time = 1.0/rate self.scaled_frame_time = self.frame_time/speedup self.last_wall_time = time.time() self.achieved_rate = rate def sync_frame_time(self): '''try to synchronise simulation time with wall clock time, taking into account desired speedup''' now = time.time() if now < self.last_wall_time + self.scaled_frame_time: time.sleep(self.last_wall_time+self.scaled_frame_time - now) now = time.time() if now > self.last_wall_time and now - self.last_wall_time < 0.1: rate = 1.0/(now - self.last_wall_time) self.achieved_rate = (0.98*self.achieved_rate) + (0.02*rate) if self.achieved_rate < self.rate*self.speedup: self.scaled_frame_time *= 0.999 else: self.scaled_frame_time *= 1.001 self.last_wall_time = now