mirror of https://github.com/ArduPilot/ardupilot
1040 lines
36 KiB
Python
1040 lines
36 KiB
Python
'''
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Fly Helicopter in SITL
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AP_FLAKE8_CLEAN
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'''
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from __future__ import print_function
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from arducopter import AutoTestCopter
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import vehicle_test_suite
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from vehicle_test_suite import NotAchievedException, AutoTestTimeoutException
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from pymavlink import mavutil
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from pysim import vehicleinfo
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import copy
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import operator
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class AutoTestHelicopter(AutoTestCopter):
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sitl_start_loc = mavutil.location(40.072842, -105.230575, 1586, 0) # Sparkfun AVC Location
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def vehicleinfo_key(self):
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return 'Helicopter'
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def log_name(self):
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return "HeliCopter"
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def default_frame(self):
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return "heli"
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def sitl_start_location(self):
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return self.sitl_start_loc
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def default_speedup(self):
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'''Heli seems to be race-free'''
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return 100
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def is_heli(self):
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return True
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def rc_defaults(self):
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ret = super(AutoTestHelicopter, self).rc_defaults()
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ret[8] = 1000
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ret[3] = 1000 # collective
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return ret
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@staticmethod
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def get_position_armable_modes_list():
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'''filter THROW mode out of armable modes list; Heli is special-cased'''
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ret = AutoTestCopter.get_position_armable_modes_list()
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ret = filter(lambda x : x != "THROW", ret)
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return ret
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def loiter_requires_position(self):
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self.progress("Skipping loiter-requires-position for heli; rotor runup issues")
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def get_collective_out(self):
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servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
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chan_pwm = (servo.servo1_raw + servo.servo2_raw + servo.servo3_raw)/3.0
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return chan_pwm
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def RotorRunup(self):
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'''Test rotor runip'''
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# Takeoff and landing in Loiter
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TARGET_RUNUP_TIME = 10
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self.zero_throttle()
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self.change_mode('LOITER')
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self.wait_ready_to_arm()
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self.arm_vehicle()
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servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
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coll = servo.servo1_raw
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coll = coll + 50
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self.set_parameter("H_RSC_RUNUP_TIME", TARGET_RUNUP_TIME)
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self.progress("Initiate Runup by putting some throttle")
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self.set_rc(8, 2000)
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self.set_rc(3, 1700)
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self.progress("Collective threshold PWM %u" % coll)
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tstart = self.get_sim_time()
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self.progress("Wait that collective PWM pass threshold value")
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servo = self.mav.recv_match(condition='SERVO_OUTPUT_RAW.servo1_raw>%u' % coll, blocking=True)
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runup_time = self.get_sim_time() - tstart
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self.progress("Collective is now at PWM %u" % servo.servo1_raw)
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self.mav.wait_heartbeat()
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if runup_time < TARGET_RUNUP_TIME:
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self.zero_throttle()
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self.set_rc(8, 1000)
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self.disarm_vehicle()
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self.mav.wait_heartbeat()
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raise NotAchievedException("Takeoff initiated before runup time complete %u" % runup_time)
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self.progress("Runup time %u" % runup_time)
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self.zero_throttle()
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self.land_and_disarm()
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self.mav.wait_heartbeat()
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# fly_avc_test - fly AVC mission
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def AVCMission(self):
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'''fly AVC mission'''
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self.change_mode('STABILIZE')
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self.wait_ready_to_arm()
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self.arm_vehicle()
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self.progress("Raising rotor speed")
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self.set_rc(8, 2000)
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# upload mission from file
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self.progress("# Load copter_AVC2013_mission")
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# load the waypoint count
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num_wp = self.load_mission("copter_AVC2013_mission.txt", strict=False)
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if not num_wp:
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raise NotAchievedException("load copter_AVC2013_mission failed")
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self.progress("Fly AVC mission from 1 to %u" % num_wp)
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self.set_current_waypoint(1)
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# wait for motor runup
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self.delay_sim_time(20)
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# switch into AUTO mode and raise throttle
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self.change_mode('AUTO')
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self.set_rc(3, 1500)
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# fly the mission
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self.wait_waypoint(0, num_wp-1, timeout=500)
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# set throttle to minimum
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self.zero_throttle()
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# wait for disarm
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self.wait_disarmed()
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self.progress("MOTORS DISARMED OK")
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self.progress("Lowering rotor speed")
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self.set_rc(8, 1000)
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self.progress("AVC mission completed: passed!")
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def takeoff(self,
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alt_min=30,
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takeoff_throttle=1700,
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require_absolute=True,
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mode="STABILIZE",
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timeout=120):
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"""Takeoff get to 30m altitude."""
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self.progress("TAKEOFF")
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self.change_mode(mode)
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if not self.armed():
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self.wait_ready_to_arm(require_absolute=require_absolute, timeout=timeout)
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self.zero_throttle()
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self.arm_vehicle()
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self.progress("Raising rotor speed")
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self.set_rc(8, 2000)
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self.progress("wait for rotor runup to complete")
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if self.get_parameter("H_RSC_MODE") == 4:
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self.context_collect('STATUSTEXT')
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self.wait_statustext("Governor Engaged", check_context=True)
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elif self.get_parameter("H_RSC_MODE") == 3:
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self.wait_rpm(1, 1300, 1400)
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else:
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self.wait_servo_channel_value(8, 1659, timeout=10)
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# wait for motor runup
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self.delay_sim_time(20)
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if mode == 'GUIDED':
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self.user_takeoff(alt_min=alt_min)
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else:
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self.set_rc(3, takeoff_throttle)
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self.wait_altitude(alt_min-1, alt_min+5, relative=True, timeout=timeout)
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self.hover()
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self.progress("TAKEOFF COMPLETE")
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def FlyEachFrame(self):
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'''Fly each supported internal frame'''
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vinfo = vehicleinfo.VehicleInfo()
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vinfo_options = vinfo.options[self.vehicleinfo_key()]
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known_broken_frames = {
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}
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for frame in sorted(vinfo_options["frames"].keys()):
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self.start_subtest("Testing frame (%s)" % str(frame))
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if frame in known_broken_frames:
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self.progress("Actually, no I'm not - it is known-broken (%s)" %
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(known_broken_frames[frame]))
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continue
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frame_bits = vinfo_options["frames"][frame]
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print("frame_bits: %s" % str(frame_bits))
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if frame_bits.get("external", False):
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self.progress("Actually, no I'm not - it is an external simulation")
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continue
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model = frame_bits.get("model", frame)
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# the model string for Callisto has crap in it.... we
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# should really have another entry in the vehicleinfo data
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# to carry the path to the JSON.
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actual_model = model.split(":")[0]
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defaults = self.model_defaults_filepath(actual_model)
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if not isinstance(defaults, list):
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defaults = [defaults]
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self.customise_SITL_commandline(
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[],
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defaults_filepath=defaults,
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model=model,
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wipe=True,
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)
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self.takeoff(10)
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self.do_RTL()
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def governortest(self):
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'''Test Heli Internal Throttle Curve and Governor'''
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self.customise_SITL_commandline(
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[],
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defaults_filepath=self.model_defaults_filepath('heli-gas'),
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model="heli-gas",
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wipe=True,
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)
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self.set_parameter("H_RSC_MODE", 4)
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self.takeoff(10)
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self.do_RTL()
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def hover(self):
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self.progress("Setting hover collective")
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self.set_rc(3, 1500)
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def PosHoldTakeOff(self):
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"""ensure vehicle stays put until it is ready to fly"""
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self.set_parameter("PILOT_TKOFF_ALT", 700)
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self.change_mode('POSHOLD')
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self.zero_throttle()
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self.set_rc(8, 1000)
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self.wait_ready_to_arm()
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# Arm
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self.arm_vehicle()
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self.progress("Raising rotor speed")
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self.set_rc(8, 2000)
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self.progress("wait for rotor runup to complete")
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self.wait_servo_channel_value(8, 1659, timeout=10)
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self.delay_sim_time(20)
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# check we are still on the ground...
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max_relalt = 1 # metres
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relative_alt = self.get_altitude(relative=True)
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if abs(relative_alt) > max_relalt:
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raise NotAchievedException("Took off prematurely (abs(%f)>%f)" %
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(relative_alt, max_relalt))
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self.progress("Pushing collective past half-way")
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self.set_rc(3, 1600)
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self.delay_sim_time(0.5)
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self.hover()
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# make sure we haven't already reached alt:
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relative_alt = self.get_altitude(relative=True)
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max_initial_alt = 1.5 # metres
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if abs(relative_alt) > max_initial_alt:
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raise NotAchievedException("Took off too fast (%f > %f" %
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(abs(relative_alt), max_initial_alt))
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self.progress("Monitoring takeoff-to-alt")
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self.wait_altitude(6, 8, relative=True, minimum_duration=5)
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self.progress("takeoff OK")
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self.land_and_disarm()
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def StabilizeTakeOff(self):
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"""Fly stabilize takeoff"""
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self.change_mode('STABILIZE')
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_ready_to_arm()
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self.arm_vehicle()
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self.set_rc(8, 2000)
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self.progress("wait for rotor runup to complete")
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self.wait_servo_channel_value(8, 1659, timeout=10)
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self.delay_sim_time(20)
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# check we are still on the ground...
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relative_alt = self.get_altitude(relative=True)
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if abs(relative_alt) > 0.1:
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raise NotAchievedException("Took off prematurely")
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self.progress("Pushing throttle past half-way")
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self.set_rc(3, 1650)
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self.progress("Monitoring takeoff")
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self.wait_altitude(6.9, 8, relative=True)
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self.progress("takeoff OK")
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self.land_and_disarm()
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def SplineWaypoint(self, timeout=600):
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"""ensure basic spline functionality works"""
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self.load_mission("copter_spline_mission.txt", strict=False)
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self.change_mode("LOITER")
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self.wait_ready_to_arm()
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self.arm_vehicle()
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self.progress("Raising rotor speed")
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self.set_rc(8, 2000)
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self.delay_sim_time(20)
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self.change_mode("AUTO")
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self.set_rc(3, 1500)
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self.wait_disarmed(timeout=600)
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self.progress("Lowering rotor speed")
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self.set_rc(8, 1000)
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def AutoRotation(self, timeout=600):
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"""Check engine-out behaviour"""
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self.set_parameter("AROT_ENABLE", 1)
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start_alt = 100 # metres
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self.set_parameter("PILOT_TKOFF_ALT", start_alt * 100)
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self.change_mode('POSHOLD')
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_ready_to_arm()
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self.arm_vehicle()
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self.set_rc(8, 2000)
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self.progress("wait for rotor runup to complete")
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self.wait_servo_channel_value(8, 1659, timeout=10)
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self.delay_sim_time(20)
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self.set_rc(3, 2000)
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self.wait_altitude(start_alt - 1,
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(start_alt + 5),
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relative=True,
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timeout=timeout)
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self.context_collect('STATUSTEXT')
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self.progress("Triggering autorotate by raising interlock")
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_statustext("SS Glide Phase", check_context=True)
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self.change_mode('STABILIZE')
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self.wait_statustext(r"SIM Hit ground at ([0-9.]+) m/s",
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check_context=True,
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regex=True)
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speed = float(self.re_match.group(1))
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if speed > 30:
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raise NotAchievedException("Hit too hard")
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self.wait_disarmed()
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def ManAutoRotation(self, timeout=600):
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"""Check autorotation power recovery behaviour"""
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RAMP_TIME = 4
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AROT_RAMP_TIME = 2
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start_alt = 100 # metres
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self.set_parameters({
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"H_RSC_AROT_MN_EN": 1,
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"H_RSC_AROT_ENG_T": AROT_RAMP_TIME,
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"H_RSC_AROT_IDLE": 20,
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"H_RSC_RAMP_TIME": RAMP_TIME,
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"H_RSC_IDLE": 0,
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"PILOT_TKOFF_ALT": start_alt * 100,
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})
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self.change_mode('POSHOLD')
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_ready_to_arm()
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self.arm_vehicle()
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self.set_rc(8, 2000)
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self.progress("wait for rotor runup to complete")
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self.wait_servo_channel_value(8, 1659, timeout=10)
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self.delay_sim_time(20)
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self.set_rc(3, 2000)
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self.wait_altitude(start_alt - 1,
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(start_alt + 5),
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relative=True,
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timeout=timeout)
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self.context_collect('STATUSTEXT')
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self.change_mode('STABILIZE')
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self.progress("Triggering manual autorotation by disabling interlock")
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_servo_channel_value(8, 1199, timeout=3)
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self.progress("channel 8 set to autorotation window")
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# wait to establish autorotation
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self.delay_sim_time(2)
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self.set_rc(8, 2000)
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self.wait_servo_channel_value(8, 1659, timeout=AROT_RAMP_TIME * 1.1)
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# give time for engine to power up
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self.set_rc(3, 1400)
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self.delay_sim_time(2)
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self.progress("in-flight power recovery")
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self.set_rc(3, 1500)
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self.delay_sim_time(5)
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# initiate autorotation again
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self.set_rc(3, 1000)
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self.set_rc(8, 1000)
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self.wait_statustext(r"SIM Hit ground at ([0-9.]+) m/s",
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check_context=True,
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regex=True)
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speed = float(self.re_match.group(1))
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if speed > 30:
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raise NotAchievedException("Hit too hard")
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self.set_rc(3, 1000)
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# verify servo 8 resets to RSC_IDLE after land complete
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self.wait_servo_channel_value(8, 1000, timeout=3)
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self.wait_disarmed()
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def mission_item_home(self, target_system, target_component):
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'''returns a mission_item_int which can be used as home in a mission'''
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return self.mav.mav.mission_item_int_encode(
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target_system,
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target_component,
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0, # seq
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mavutil.mavlink.MAV_FRAME_GLOBAL_INT,
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mavutil.mavlink.MAV_CMD_NAV_WAYPOINT,
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0, # current
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0, # autocontinue
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3, # p1
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0, # p2
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0, # p3
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0, # p4
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int(1.0000 * 1e7), # latitude
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int(2.0000 * 1e7), # longitude
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31.0000, # altitude
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mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
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def mission_item_takeoff(self, target_system, target_component):
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'''returns a mission_item_int which can be used as takeoff in a mission'''
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return self.mav.mav.mission_item_int_encode(
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target_system,
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target_component,
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1, # seq
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mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT,
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mavutil.mavlink.MAV_CMD_NAV_TAKEOFF,
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0, # current
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0, # autocontinue
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0, # p1
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0, # p2
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0, # p3
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0, # p4
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int(1.0000 * 1e7), # latitude
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int(1.0000 * 1e7), # longitude
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31.0000, # altitude
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mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
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def mission_item_rtl(self, target_system, target_component):
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'''returns a mission_item_int which can be used as takeoff in a mission'''
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return self.mav.mav.mission_item_int_encode(
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target_system,
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target_component,
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1, # seq
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mavutil.mavlink.MAV_FRAME_GLOBAL,
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mavutil.mavlink.MAV_CMD_NAV_RETURN_TO_LAUNCH,
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0, # current
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0, # autocontinue
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0, # p1
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0, # p2
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0, # p3
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0, # p4
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0, # latitude
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0, # longitude
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0.0000, # altitude
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mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
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def scurve_nasty_mission(self, target_system=1, target_component=1):
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'''returns a mission which attempts to give the SCurve library
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indigestion. The same destination is given several times.'''
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wp2_loc = self.mav.location()
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wp2_offset_n = 20
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wp2_offset_e = 30
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self.location_offset_ne(wp2_loc, wp2_offset_n, wp2_offset_e)
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wp2_by_three = self.mav.mav.mission_item_int_encode(
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target_system,
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target_component,
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2, # seq
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mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT,
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mavutil.mavlink.MAV_CMD_NAV_WAYPOINT,
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0, # current
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0, # autocontinue
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3, # p1
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0, # p2
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0, # p3
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0, # p4
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int(wp2_loc.lat * 1e7), # latitude
|
|
int(wp2_loc.lng * 1e7), # longitude
|
|
31.0000, # altitude
|
|
mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
|
|
|
|
wp5_loc = self.mav.location()
|
|
wp5_offset_n = -20
|
|
wp5_offset_e = 30
|
|
self.location_offset_ne(wp5_loc, wp5_offset_n, wp5_offset_e)
|
|
|
|
wp5_by_three = self.mav.mav.mission_item_int_encode(
|
|
target_system,
|
|
target_component,
|
|
5, # seq
|
|
mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT,
|
|
mavutil.mavlink.MAV_CMD_NAV_SPLINE_WAYPOINT,
|
|
0, # current
|
|
0, # autocontinue
|
|
3, # p1
|
|
0, # p2
|
|
0, # p3
|
|
0, # p4
|
|
int(wp5_loc.lat * 1e7), # latitude
|
|
int(wp5_loc.lng * 1e7), # longitude
|
|
31.0000, # altitude
|
|
mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
|
|
|
|
ret = copy.copy([
|
|
# slot 0 is home
|
|
self.mission_item_home(target_system=target_system, target_component=target_component),
|
|
# slot 1 is takeoff
|
|
self.mission_item_takeoff(target_system=target_system, target_component=target_component),
|
|
# now three spline waypoints right on top of one another:
|
|
copy.copy(wp2_by_three),
|
|
copy.copy(wp2_by_three),
|
|
copy.copy(wp2_by_three),
|
|
# now three MORE spline waypoints right on top of one another somewhere else:
|
|
copy.copy(wp5_by_three),
|
|
copy.copy(wp5_by_three),
|
|
copy.copy(wp5_by_three),
|
|
self.mission_item_rtl(target_system=target_system, target_component=target_component),
|
|
])
|
|
self.correct_wp_seq_numbers(ret)
|
|
return ret
|
|
|
|
def scurve_nasty_up_mission(self, target_system=1, target_component=1):
|
|
'''returns a mission which attempts to give the SCurve library
|
|
indigestion. The same destination is given several times but with differing altitudes.'''
|
|
|
|
wp2_loc = self.mav.location()
|
|
wp2_offset_n = 20
|
|
wp2_offset_e = 30
|
|
self.location_offset_ne(wp2_loc, wp2_offset_n, wp2_offset_e)
|
|
|
|
wp2 = self.mav.mav.mission_item_int_encode(
|
|
target_system,
|
|
target_component,
|
|
2, # seq
|
|
mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT,
|
|
mavutil.mavlink.MAV_CMD_NAV_WAYPOINT,
|
|
0, # current
|
|
0, # autocontinue
|
|
3, # p1
|
|
0, # p2
|
|
0, # p3
|
|
0, # p4
|
|
int(wp2_loc.lat * 1e7), # latitude
|
|
int(wp2_loc.lng * 1e7), # longitude
|
|
31.0000, # altitude
|
|
mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
|
|
wp3 = copy.copy(wp2)
|
|
wp3.alt = 40
|
|
wp4 = copy.copy(wp2)
|
|
wp4.alt = 31
|
|
|
|
wp5_loc = self.mav.location()
|
|
wp5_offset_n = -20
|
|
wp5_offset_e = 30
|
|
self.location_offset_ne(wp5_loc, wp5_offset_n, wp5_offset_e)
|
|
|
|
wp5 = self.mav.mav.mission_item_int_encode(
|
|
target_system,
|
|
target_component,
|
|
5, # seq
|
|
mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT,
|
|
mavutil.mavlink.MAV_CMD_NAV_SPLINE_WAYPOINT,
|
|
0, # current
|
|
0, # autocontinue
|
|
3, # p1
|
|
0, # p2
|
|
0, # p3
|
|
0, # p4
|
|
int(wp5_loc.lat * 1e7), # latitude
|
|
int(wp5_loc.lng * 1e7), # longitude
|
|
31.0000, # altitude
|
|
mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
|
|
wp6 = copy.copy(wp5)
|
|
wp6.alt = 41
|
|
wp7 = copy.copy(wp5)
|
|
wp7.alt = 51
|
|
|
|
ret = copy.copy([
|
|
# slot 0 is home
|
|
self.mission_item_home(target_system=target_system, target_component=target_component),
|
|
# slot 1 is takeoff
|
|
self.mission_item_takeoff(target_system=target_system, target_component=target_component),
|
|
wp2,
|
|
wp3,
|
|
wp4,
|
|
# now three MORE spline waypoints right on top of one another somewhere else:
|
|
wp5,
|
|
wp6,
|
|
wp7,
|
|
self.mission_item_rtl(target_system=target_system, target_component=target_component),
|
|
])
|
|
self.correct_wp_seq_numbers(ret)
|
|
return ret
|
|
|
|
def fly_mission_points(self, points):
|
|
'''takes a list of waypoints and flies them, expecting a disarm at end'''
|
|
self.check_mission_upload_download(points)
|
|
self.set_parameter("AUTO_OPTIONS", 3)
|
|
self.change_mode('AUTO')
|
|
self.set_rc(8, 1000)
|
|
self.wait_ready_to_arm()
|
|
self.arm_vehicle()
|
|
self.progress("Raising rotor speed")
|
|
self.set_rc(8, 2000)
|
|
self.wait_waypoint(0, len(points)-1)
|
|
self.wait_disarmed()
|
|
self.set_rc(8, 1000)
|
|
|
|
def NastyMission(self):
|
|
'''constructs and runs missions designed to test scurves'''
|
|
self.fly_mission_points(self.scurve_nasty_mission())
|
|
# hopefully we don't need this step forever:
|
|
self.progress("Restting mission state machine by changing into LOITER")
|
|
self.change_mode('LOITER')
|
|
self.fly_mission_points(self.scurve_nasty_up_mission())
|
|
|
|
def set_rc_default(self):
|
|
super(AutoTestHelicopter, self).set_rc_default()
|
|
self.progress("Lowering rotor speed")
|
|
self.set_rc(8, 1000)
|
|
|
|
def fly_mission(self, filename, strict=True):
|
|
num_wp = self.load_mission(filename, strict=strict)
|
|
self.change_mode("LOITER")
|
|
self.wait_ready_to_arm()
|
|
self.arm_vehicle()
|
|
self.set_rc(8, 2000) # Raise rotor speed
|
|
self.delay_sim_time(20)
|
|
self.change_mode("AUTO")
|
|
self.set_rc(3, 1500)
|
|
|
|
self.wait_waypoint(1, num_wp-1)
|
|
self.wait_disarmed()
|
|
self.set_rc(8, 1000) # Lower rotor speed
|
|
|
|
# FIXME move this & plane's version to common
|
|
def AirspeedDrivers(self, timeout=600):
|
|
'''Test AirSpeed drivers'''
|
|
|
|
# Copter's airspeed sensors are off by default
|
|
self.set_parameters({
|
|
"ARSPD_ENABLE": 1,
|
|
"ARSPD_TYPE": 2, # Analog airspeed driver
|
|
"ARSPD_PIN": 1, # Analog airspeed driver pin for SITL
|
|
})
|
|
# set the start location to CMAC to use same test script as other vehicles
|
|
|
|
self.sitl_start_loc = mavutil.location(-35.362881, 149.165222, 582.000000, 90.0) # CMAC
|
|
self.customise_SITL_commandline(["--home", "%s,%s,%s,%s"
|
|
% (-35.362881, 149.165222, 582.000000, 90.0)])
|
|
|
|
# insert listener to compare airspeeds:
|
|
airspeed = [None, None]
|
|
|
|
def check_airspeeds(mav, m):
|
|
m_type = m.get_type()
|
|
if (m_type == 'NAMED_VALUE_FLOAT' and
|
|
m.name == 'AS2'):
|
|
airspeed[1] = m.value
|
|
elif m_type == 'VFR_HUD':
|
|
airspeed[0] = m.airspeed
|
|
else:
|
|
return
|
|
if airspeed[0] is None or airspeed[1] is None:
|
|
return
|
|
delta = abs(airspeed[0] - airspeed[1])
|
|
if delta > 3:
|
|
raise NotAchievedException("Airspeed mismatch (as1=%f as2=%f)" % (airspeed[0], airspeed[1]))
|
|
|
|
airspeed_sensors = [
|
|
("MS5525", 3, 1),
|
|
("DLVR", 7, 2),
|
|
]
|
|
for (name, t, bus) in airspeed_sensors:
|
|
self.context_push()
|
|
if bus is not None:
|
|
self.set_parameter("ARSPD2_BUS", bus)
|
|
self.set_parameter("ARSPD2_TYPE", t)
|
|
self.reboot_sitl()
|
|
self.wait_ready_to_arm()
|
|
self.arm_vehicle()
|
|
|
|
self.install_message_hook_context(check_airspeeds)
|
|
self.fly_mission("ap1.txt", strict=False)
|
|
|
|
if airspeed[0] is None:
|
|
raise NotAchievedException("Never saw an airspeed1")
|
|
if airspeed[1] is None:
|
|
raise NotAchievedException("Never saw an airspeed2")
|
|
if not self.current_onboard_log_contains_message("ARSP"):
|
|
raise NotAchievedException("Expected ARSP log message")
|
|
self.disarm_vehicle()
|
|
self.context_pop()
|
|
|
|
def TurbineCoolDown(self, timeout=200):
|
|
"""Check Turbine Cool Down Feature"""
|
|
# set option for Turbine
|
|
RAMP_TIME = 4
|
|
SETPOINT = 66
|
|
IDLE = 15
|
|
COOLDOWN_TIME = 5
|
|
self.set_parameter("RC6_OPTION", 161)
|
|
self.set_parameter("H_RSC_RAMP_TIME", RAMP_TIME)
|
|
self.set_parameter("H_RSC_SETPOINT", SETPOINT)
|
|
self.set_parameter("H_RSC_IDLE", IDLE)
|
|
self.set_parameter("H_RSC_CLDWN_TIME", COOLDOWN_TIME)
|
|
self.set_rc(3, 1000)
|
|
self.set_rc(8, 1000)
|
|
|
|
self.progress("Starting turbine")
|
|
self.wait_ready_to_arm()
|
|
self.arm_vehicle()
|
|
|
|
self.set_rc(6, 2000)
|
|
self.wait_statustext('Turbine startup')
|
|
|
|
# Engage interlock to run up to head speed
|
|
self.set_rc(8, 2000)
|
|
|
|
# Check throttle gets to setpoint
|
|
expected_thr = SETPOINT * 0.01 * 1000 + 1000 - 1 # servo end points are 1000 to 2000
|
|
self.wait_servo_channel_value(8, expected_thr, timeout=RAMP_TIME+1, comparator=operator.ge)
|
|
|
|
self.progress("Checking cool down behaviour, idle x 1.5")
|
|
self.set_rc(8, 1000)
|
|
tstart = self.get_sim_time()
|
|
expected_thr = IDLE * 1.5 * 0.01 * 1000 + 1000 + 1
|
|
self.wait_servo_channel_value(8, expected_thr, timeout=2, comparator=operator.le)
|
|
|
|
# Check that the throttle drops to idle after cool down time
|
|
expected_thr = IDLE * 0.01 * 1000 + 1000 + 1
|
|
self.wait_servo_channel_value(8, expected_thr, timeout=COOLDOWN_TIME+1, comparator=operator.le)
|
|
|
|
measured_time = self.get_sim_time() - tstart
|
|
if (abs(measured_time - COOLDOWN_TIME) > 1.0):
|
|
raise NotAchievedException('Throttle did not reduce to idle within H_RSC_CLDWN_TIME')
|
|
|
|
self.set_rc(6, 1000)
|
|
self.wait_disarmed(timeout=20)
|
|
|
|
def TurbineStart(self, timeout=200):
|
|
"""Check Turbine Start Feature"""
|
|
RAMP_TIME = 4
|
|
# set option for Turbine Start
|
|
self.set_parameter("RC6_OPTION", 161)
|
|
self.set_parameter("H_RSC_RAMP_TIME", RAMP_TIME)
|
|
self.set_parameter("H_RSC_SETPOINT", 66)
|
|
self.set_parameter("DISARM_DELAY", 0)
|
|
self.set_rc(3, 1000)
|
|
self.set_rc(8, 1000)
|
|
|
|
# check that turbine start doesn't activate while disarmed
|
|
self.progress("Checking Turbine Start doesn't activate while disarmed")
|
|
self.set_rc(6, 2000)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() - tstart < 2:
|
|
servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
|
|
if servo.servo8_raw > 1050:
|
|
raise NotAchievedException("Turbine Start activated while disarmed")
|
|
self.set_rc(6, 1000)
|
|
|
|
# check that turbine start doesn't activate armed with interlock enabled
|
|
self.progress("Checking Turbine Start doesn't activate while armed with interlock enabled")
|
|
self.wait_ready_to_arm()
|
|
self.arm_vehicle()
|
|
self.set_rc(8, 2000)
|
|
self.set_rc(6, 2000)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() - tstart < 5:
|
|
servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
|
|
if servo.servo8_raw > 1660:
|
|
raise NotAchievedException("Turbine Start activated with interlock enabled")
|
|
|
|
self.set_rc(8, 1000)
|
|
self.set_rc(6, 1000)
|
|
self.disarm_vehicle()
|
|
|
|
# check that turbine start activates as designed (armed with interlock disabled)
|
|
self.progress("Checking Turbine Start activates as designed (armed with interlock disabled)")
|
|
self.delay_sim_time(2)
|
|
self.arm_vehicle()
|
|
|
|
self.set_rc(6, 2000)
|
|
tstart = self.get_sim_time()
|
|
while True:
|
|
if self.get_sim_time() - tstart > 5:
|
|
raise AutoTestTimeoutException("Turbine Start did not activate")
|
|
servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
|
|
if servo.servo8_raw > 1800:
|
|
break
|
|
|
|
self.wait_servo_channel_value(8, 1000, timeout=3)
|
|
self.set_rc(6, 1000)
|
|
|
|
# check that turbine start will not reactivate after interlock enabled
|
|
self.progress("Checking Turbine Start doesn't activate once interlock is enabled after start)")
|
|
self.set_rc(8, 2000)
|
|
self.set_rc(6, 2000)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() - tstart < 5:
|
|
servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW', blocking=True)
|
|
if servo.servo8_raw > 1660:
|
|
raise NotAchievedException("Turbine Start activated with interlock enabled")
|
|
self.set_rc(6, 1000)
|
|
self.set_rc(8, 1000)
|
|
self.disarm_vehicle()
|
|
|
|
def PIDNotches(self):
|
|
"""Use dynamic harmonic notch to control motor noise."""
|
|
self.progress("Flying with PID notches")
|
|
self.set_parameters({
|
|
"FILT1_TYPE": 1,
|
|
"FILT2_TYPE": 1,
|
|
"AHRS_EKF_TYPE": 10,
|
|
"INS_LOG_BAT_MASK": 3,
|
|
"INS_LOG_BAT_OPT": 0,
|
|
"INS_GYRO_FILTER": 100, # set the gyro filter high so we can observe behaviour
|
|
"LOG_BITMASK": 65535,
|
|
"LOG_DISARMED": 0,
|
|
"SIM_VIB_FREQ_X": 120, # roll
|
|
"SIM_VIB_FREQ_Y": 120, # pitch
|
|
"SIM_VIB_FREQ_Z": 180, # yaw
|
|
"FILT1_NOTCH_FREQ": 120,
|
|
"FILT2_NOTCH_FREQ": 180,
|
|
"ATC_RAT_RLL_NEF": 1,
|
|
"ATC_RAT_PIT_NEF": 1,
|
|
"ATC_RAT_YAW_NEF": 2,
|
|
"SIM_GYR1_RND": 5,
|
|
})
|
|
self.reboot_sitl()
|
|
|
|
self.hover_and_check_matched_frequency_with_fft(5, 20, 350, reverse=True, takeoff=True)
|
|
|
|
def AutoTune(self):
|
|
"""Test autotune mode"""
|
|
# test roll and pitch FF tuning
|
|
self.set_parameters({
|
|
"ATC_ANG_RLL_P": 4.5,
|
|
"ATC_RAT_RLL_P": 0,
|
|
"ATC_RAT_RLL_I": 0.1,
|
|
"ATC_RAT_RLL_D": 0,
|
|
"ATC_RAT_RLL_FF": 0.15,
|
|
"ATC_ANG_PIT_P": 4.5,
|
|
"ATC_RAT_PIT_P": 0,
|
|
"ATC_RAT_PIT_I": 0.1,
|
|
"ATC_RAT_PIT_D": 0,
|
|
"ATC_RAT_PIT_FF": 0.15,
|
|
"ATC_ANG_YAW_P": 4.5,
|
|
"ATC_RAT_YAW_P": 0.18,
|
|
"ATC_RAT_YAW_I": 0.024,
|
|
"ATC_RAT_YAW_D": 0.003,
|
|
"ATC_RAT_YAW_FF": 0.024,
|
|
"AUTOTUNE_AXES": 3,
|
|
"AUTOTUNE_SEQ": 1,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# test pitch rate P and Rate D tuning
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 2,
|
|
"AUTOTUNE_SEQ": 2,
|
|
"AUTOTUNE_GN_MAX": 1.8,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# test Roll rate P and Rate D tuning
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 1,
|
|
"AUTOTUNE_SEQ": 2,
|
|
"AUTOTUNE_GN_MAX": 1.6,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# test Roll and pitch angle P tuning
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 3,
|
|
"AUTOTUNE_SEQ": 4,
|
|
"AUTOTUNE_FRQ_MIN": 5,
|
|
"AUTOTUNE_FRQ_MAX": 50,
|
|
"AUTOTUNE_GN_MAX": 1.6,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# test yaw FF and rate P and Rate D
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 4,
|
|
"AUTOTUNE_SEQ": 3,
|
|
"AUTOTUNE_FRQ_MIN": 10,
|
|
"AUTOTUNE_FRQ_MAX": 70,
|
|
"AUTOTUNE_GN_MAX": 1.4,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# test yaw angle P tuning
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 4,
|
|
"AUTOTUNE_SEQ": 4,
|
|
"AUTOTUNE_FRQ_MIN": 5,
|
|
"AUTOTUNE_FRQ_MAX": 50,
|
|
"AUTOTUNE_GN_MAX": 1.5,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.autotune_land_and_save_gains()
|
|
|
|
# tune check
|
|
self.set_parameters({
|
|
"AUTOTUNE_AXES": 7,
|
|
"AUTOTUNE_SEQ": 16,
|
|
"AUTOTUNE_FRQ_MIN": 10,
|
|
"AUTOTUNE_FRQ_MAX": 80,
|
|
})
|
|
|
|
# Conduct testing from althold
|
|
self.takeoff(10, mode="ALT_HOLD")
|
|
|
|
# hold position in loiter
|
|
self.change_mode('AUTOTUNE')
|
|
|
|
tstart = self.get_sim_time()
|
|
self.wait_statustext('AutoTune: Success', timeout=1000)
|
|
now = self.get_sim_time()
|
|
self.progress("AUTOTUNE OK (%u seconds)" % (now - tstart))
|
|
self.land_and_disarm()
|
|
|
|
def autotune_land_and_save_gains(self):
|
|
self.set_rc(3, 1000)
|
|
self.context_collect('STATUSTEXT')
|
|
self.wait_statustext(r"SIM Hit ground at ([0-9.]+) m/s",
|
|
check_context=True,
|
|
regex=True)
|
|
self.set_rc(8, 1000)
|
|
self.wait_disarmed()
|
|
|
|
def land_and_disarm(self, **kwargs):
|
|
super(AutoTestHelicopter, self).land_and_disarm(**kwargs)
|
|
self.progress("Killing rotor speed")
|
|
self.set_rc(8, 1000)
|
|
|
|
def do_RTL(self, **kwargs):
|
|
super(AutoTestHelicopter, self).do_RTL(**kwargs)
|
|
self.progress("Killing rotor speed")
|
|
self.set_rc(8, 1000)
|
|
|
|
def tests(self):
|
|
'''return list of all tests'''
|
|
ret = vehicle_test_suite.TestSuite.tests(self)
|
|
ret.extend([
|
|
self.AVCMission,
|
|
self.RotorRunup,
|
|
self.PosHoldTakeOff,
|
|
self.StabilizeTakeOff,
|
|
self.SplineWaypoint,
|
|
self.AutoRotation,
|
|
self.ManAutoRotation,
|
|
self.governortest,
|
|
self.FlyEachFrame,
|
|
self.AirspeedDrivers,
|
|
self.TurbineStart,
|
|
self.TurbineCoolDown,
|
|
self.NastyMission,
|
|
self.PIDNotches,
|
|
self.AutoTune,
|
|
])
|
|
return ret
|
|
|
|
def disabled_tests(self):
|
|
return {
|
|
}
|