2016-05-09 18:04:15 -03:00
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# Copyright (C) 2015-2016 Intel Corporation. All rights reserved.
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#
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# This file is free software: you can redistribute it and/or modify it
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# under the terms of the GNU General Public License as published by the
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# Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This file is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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# See the GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program. If not, see <http://www.gnu.org/licenses/>.
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'''calibration simulation command handling'''
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from __future__ import division, print_function
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import math
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from pymavlink import quaternion
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2016-05-09 18:32:35 -03:00
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import random
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import time
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2016-05-09 18:04:15 -03:00
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from MAVProxy.modules.lib import mp_module
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class CalController(object):
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def __init__(self, mpstate):
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self.mpstate = mpstate
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self.active = False
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self.reset()
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def reset(self):
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self.desired_quaternion = None
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self.general_state = 'idle'
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self.attitude_callback = None
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self.desired_quaternion_close_count = 0
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def start(self):
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self.active = True
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def stop(self):
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self.reset()
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self.mpstate.functions.process_stdin('servo set 5 1000')
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self.active = False
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def normalize_attitude_angle(self, angle):
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if angle < 0:
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angle = 2 * math.pi + angle % (-2 * math.pi)
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angle %= 2 * math.pi
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if angle > math.pi:
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return angle % -math.pi
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return angle
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def set_attitute(self, roll, pitch, yaw, callback=None):
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roll = self.normalize_attitude_angle(roll)
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pitch = self.normalize_attitude_angle(pitch)
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yaw = self.normalize_attitude_angle(yaw)
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self.desired_quaternion = quaternion.Quaternion((roll, pitch, yaw))
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self.desired_quaternion.normalize()
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scale = 500.0 / math.pi
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roll_pwm = 1500 + int(roll * scale)
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pitch_pwm = 1500 + int(pitch * scale)
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yaw_pwm = 1500 + int(yaw * scale)
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self.mpstate.functions.process_stdin('servo set 5 1150')
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self.mpstate.functions.process_stdin('servo set 6 %d' % roll_pwm)
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self.mpstate.functions.process_stdin('servo set 7 %d' % pitch_pwm)
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self.mpstate.functions.process_stdin('servo set 8 %d' % yaw_pwm)
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self.general_state = 'attitude'
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self.desired_quaternion_close_count = 0
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if callback:
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self.attitude_callback = callback
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def angvel(self, x, y, z, theta):
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m = max(abs(x), abs(y), abs(z))
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if not m:
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x_pwm = y_pwm = z_pwm = 1500
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else:
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x_pwm = 1500 + round((x / m) * 500)
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y_pwm = 1500 + round((y / m) * 500)
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z_pwm = 1500 + round((z / m) * 500)
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max_theta = 2 * math.pi
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if theta < 0:
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theta = 0
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elif theta > max_theta:
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theta = max_theta
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2016-09-28 16:11:14 -03:00
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theta_pwm = 1300 + round((theta / max_theta) * 700)
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2016-05-09 18:04:15 -03:00
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self.mpstate.functions.process_stdin('servo set 5 %d' % theta_pwm)
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self.mpstate.functions.process_stdin('servo set 6 %d' % x_pwm)
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self.mpstate.functions.process_stdin('servo set 7 %d' % y_pwm)
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self.mpstate.functions.process_stdin('servo set 8 %d' % z_pwm)
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self.general_state = 'angvel'
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2016-09-28 16:40:44 -03:00
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def autonomous_magcal(self):
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self.mpstate.functions.process_stdin('servo set 5 1250')
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2016-05-09 18:04:15 -03:00
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def handle_simstate(self, m):
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if self.general_state == 'attitude':
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q = quaternion.Quaternion((m.roll, m.pitch, m.yaw))
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q.normalize()
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d1 = abs(self.desired_quaternion.q - q.q)
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d2 = abs(self.desired_quaternion.q + q.q)
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if (d1 <= 1e-2).all() or (d2 <= 1e-2).all():
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self.desired_quaternion_close_count += 1
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else:
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self.desired_quaternion_close_count = 0
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if self.desired_quaternion_close_count == 5:
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self.general_state = 'idle'
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if callable(self.attitude_callback):
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self.attitude_callback()
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self.attitude_callback = None
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def mavlink_packet(self, m):
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if not self.active:
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return
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if m.get_type() == 'SIMSTATE':
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self.handle_simstate(m)
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2016-05-09 18:30:39 -03:00
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class AccelcalController(CalController):
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state_data = {
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'level': dict(
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name='Level',
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attitude=(0, 0, 0),
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),
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'LEFT': dict(
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name='Left side',
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attitude=(-math.pi / 2, 0, 0),
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),
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'RIGHT': dict(
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name='Right side',
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attitude=(math.pi / 2, 0, 0),
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),
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'DOWN': dict(
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name='Nose down',
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attitude=(0, -math.pi / 2, 0),
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),
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'UP': dict(
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name='Nose up',
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attitude=(0, math.pi / 2, 0),
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),
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'BACK': dict(
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name='Back',
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attitude=(math.pi, 0, 0),
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),
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}
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def __init__(self, mpstate):
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super(AccelcalController, self).__init__(mpstate)
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self.state = None
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def reset(self):
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super(AccelcalController, self).reset()
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def start(self):
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super(AccelcalController, self).start()
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if self.state:
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self.set_side_state(self.state)
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def side_from_msg(self, m):
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text = str(m.text)
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if text.startswith('Place '):
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for side in self.state_data:
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if side in text:
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return side
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return None
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def report_from_msg(self, m):
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'''Return true if successful, false if failed, None if unknown'''
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text = str(m.text)
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if 'Calibration successful' in text:
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return True
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elif 'Calibration FAILED' in text:
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return False
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return None
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def set_side_state(self, side):
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self.state = side
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if not self.active:
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return
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data = self.state_data[side]
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def callback():
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self.mpstate.console.set_status(
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name='sitl_accelcal',
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text='sitl_accelcal: %s ready - Waiting for user input' % data['name'],
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row=4,
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fg='blue',
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)
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self.mpstate.console.writeln('sitl_accelcal: attitude detected, please press any key..')
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self.mpstate.console.writeln('sitl_accelcal: sending attitude, please wait..')
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roll, pitch, yaw = data['attitude']
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self.set_attitute(roll, pitch, yaw, callback=callback)
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self.mpstate.console.set_status(
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name='sitl_accelcal',
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text='sitl_accelcal: %s - Waiting for attitude' % data['name'],
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row=4,
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fg='orange',
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)
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def mavlink_packet(self, m):
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super(AccelcalController, self).mavlink_packet(m)
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if m.get_type() != 'STATUSTEXT':
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return
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side = self.side_from_msg(m)
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if side:
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self.set_side_state(side)
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else:
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success = self.report_from_msg(m)
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if success is None:
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return
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self.state = None
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if success:
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self.mpstate.console.set_status(
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name='sitl_accelcal',
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text='sitl_accelcal: Calibration successful',
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row=4,
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fg='blue',
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)
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else:
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self.mpstate.console.set_status(
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name='sitl_accelcal',
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text='sitl_accelcal: Calibration failed',
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row=4,
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fg='red',
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)
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2016-05-09 18:32:35 -03:00
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class MagcalController(CalController):
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yaw_increment = math.radians(45)
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yaw_noise_range = math.radians(5)
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rotation_angspeed = math.pi / 4
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'''rotation angular speed in rad/s'''
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rotation_angspeed_noise = math.radians(2)
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rotation_axes = (
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(1, 0, 0),
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(0, 1, 0),
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(1, 1, 0),
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)
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full_turn_time = 2 * math.pi / rotation_angspeed
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max_full_turns = 3
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'''maximum number of full turns to be performed for each initial attitude'''
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def reset(self):
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super(MagcalController, self).reset()
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self.yaw = 0
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self.rotation_start_time = 0
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self.last_progress = {}
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self.rotation_axis_idx = 0
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def start(self):
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super(MagcalController, self).start()
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self.set_attitute(0, 0, 0, callback=self.next_rot_att_callback)
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def next_rot_att_callback(self):
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x, y, z = self.rotation_axes[self.rotation_axis_idx]
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angspeed = self.rotation_angspeed
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angspeed += random.uniform(-1, 1) * self.rotation_angspeed_noise
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self.angvel(x, y, z, angspeed)
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self.rotation_start_time = time.time()
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def next_rotation(self):
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self.rotation_axis_idx += 1
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self.rotation_axis_idx %= len(self.rotation_axes)
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if self.rotation_axis_idx == 0:
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yaw_inc = self.yaw_increment
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yaw_inc += random.uniform(-1, 1) * self.yaw_noise_range
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self.yaw = (self.yaw + yaw_inc) % (2 * math.pi)
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self.rotation_start_time = 0
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self.last_progress = {}
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self.set_attitute(0, 0, self.yaw, callback=self.next_rot_att_callback)
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def mavlink_packet(self, m):
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super(MagcalController, self).mavlink_packet(m)
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2016-05-10 09:23:14 -03:00
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if not self.active:
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return
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2016-05-09 18:32:35 -03:00
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if m.get_type() == 'MAG_CAL_REPORT':
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# NOTE: This may be not the ideal way to handle it
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if m.compass_id in self.last_progress:
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del self.last_progress[m.compass_id]
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if not self.last_progress:
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self.stop()
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return
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if m.get_type() != 'MAG_CAL_PROGRESS':
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return
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if not self.rotation_start_time:
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return
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t = time.time()
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m.time = t
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if m.compass_id not in self.last_progress:
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self.last_progress[m.compass_id] = m
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m.stuck = False
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return
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last = self.last_progress[m.compass_id]
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dt = t - self.rotation_start_time
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if dt > self.max_full_turns * self.full_turn_time:
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self.next_rotation()
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return
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if m.completion_pct == last.completion_pct:
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if m.time - last.time > self.full_turn_time / 2:
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last.stuck = True
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else:
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self.last_progress[m.compass_id] = m
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m.stuck = False
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for p in self.last_progress.values():
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if not p.stuck:
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break
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else:
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self.next_rotation()
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2016-05-09 18:30:39 -03:00
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2016-05-09 18:04:15 -03:00
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class SitlCalibrationModule(mp_module.MPModule):
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def __init__(self, mpstate):
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super(SitlCalibrationModule, self).__init__(mpstate, "sitl_calibration")
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self.add_command(
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'sitl_attitude',
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self.cmd_sitl_attitude,
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'set the vehicle at the inclination given by ROLL, PITCH and YAW' +
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' in degrees',
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)
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self.add_command(
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'sitl_angvel',
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self.cmd_angvel,
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'apply angular velocity on the vehicle with a rotation axis and a '+
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'magnitude in degrees/s',
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)
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2016-05-09 18:30:39 -03:00
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self.add_command(
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'sitl_accelcal',
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self.cmd_sitl_accelcal,
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'actuate on the simulator vehicle for accelerometer calibration',
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)
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2016-05-09 18:32:35 -03:00
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self.add_command(
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'sitl_magcal',
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self.cmd_sitl_magcal,
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'actuate on the simulator vehicle for magnetometer calibration',
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)
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2016-09-28 16:40:44 -03:00
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self.add_command(
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'sitl_autonomous_magcal',
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|
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self.cmd_sitl_autonomous_magcal,
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'let the simulating program do the rotations for magnetometer ' +
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'calibration - basically, continuous rotations over six ' +
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'calibration poses',
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)
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2016-05-09 18:04:15 -03:00
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self.add_command(
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'sitl_stop',
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self.cmd_sitl_stop,
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'stop the current calibration control',
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)
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self.controllers = dict(
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generic_controller=CalController(mpstate),
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2016-05-09 18:30:39 -03:00
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accelcal_controller=AccelcalController(mpstate),
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2016-05-09 18:32:35 -03:00
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magcal_controller=MagcalController(mpstate),
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2016-05-09 18:04:15 -03:00
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)
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self.current_controller = None
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def set_controller(self, controller):
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if self.current_controller:
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|
self.current_controller.stop()
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|
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|
controller = self.controllers.get(controller, None)
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|
|
|
if controller:
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|
controller.start()
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|
self.current_controller = controller
|
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|
|
|
|
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|
def cmd_sitl_attitude(self, args):
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|
|
|
if len(args) != 3:
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|
print('Usage: sitl_attitude <ROLL> <PITCH> <YAW>')
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|
return
|
|
|
|
|
|
|
|
try:
|
|
|
|
roll, pitch, yaw = args
|
|
|
|
roll = math.radians(float(roll))
|
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|
|
pitch = math.radians(float(pitch))
|
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|
|
yaw = math.radians(float(yaw))
|
|
|
|
except ValueError:
|
|
|
|
print('Invalid arguments')
|
|
|
|
|
|
|
|
self.set_controller('generic_controller')
|
|
|
|
self.current_controller.set_attitute(roll, pitch, yaw)
|
|
|
|
|
|
|
|
def cmd_angvel(self, args):
|
|
|
|
if len(args) != 4:
|
|
|
|
print('Usage: sitl_angvel <AXIS_X> <AXIS_Y> <AXIS_Z> <THETA>')
|
|
|
|
return
|
|
|
|
|
|
|
|
try:
|
|
|
|
x, y, z, theta = args
|
|
|
|
x = float(x)
|
|
|
|
y = float(y)
|
|
|
|
z = float(z)
|
|
|
|
theta = math.radians(float(theta))
|
|
|
|
except ValueError:
|
|
|
|
print('Invalid arguments')
|
|
|
|
|
|
|
|
self.set_controller('generic_controller')
|
|
|
|
self.current_controller.angvel(x, y, z, theta)
|
|
|
|
|
|
|
|
def cmd_sitl_stop(self, args):
|
|
|
|
self.set_controller('generic_controller')
|
|
|
|
|
2016-05-09 18:30:39 -03:00
|
|
|
def cmd_sitl_accelcal(self, args):
|
|
|
|
self.set_controller('accelcal_controller')
|
|
|
|
|
2016-05-09 18:32:35 -03:00
|
|
|
def cmd_sitl_magcal(self, args):
|
|
|
|
self.set_controller('magcal_controller')
|
|
|
|
|
2016-09-28 16:40:44 -03:00
|
|
|
def cmd_sitl_autonomous_magcal(self, args):
|
|
|
|
self.set_controller('generic_controller')
|
|
|
|
self.current_controller.autonomous_magcal()
|
|
|
|
|
2016-05-09 18:04:15 -03:00
|
|
|
def mavlink_packet(self, m):
|
|
|
|
for c in self.controllers.values():
|
|
|
|
c.mavlink_packet(m)
|
|
|
|
|
|
|
|
def init(mpstate):
|
|
|
|
'''initialise module'''
|
|
|
|
return SitlCalibrationModule(mpstate)
|