mirror of https://github.com/ArduPilot/ardupilot
978 lines
34 KiB
Plaintext
978 lines
34 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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#define THISFIRMWARE "ArduRover v2.30"
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// This is the APMrover firmware derived from the Arduplane v2.32 by Jean-Louis Naudin (JLN)
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/*
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Authors: Doug Weibel, Jose Julio, Jordi Munoz, Jason Short, Andrew Tridgell, Randy Mackay, Pat Hickey, John Arne Birkeland, Olivier Adler, Jean-Louis Naudin
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Thanks to: Chris Anderson, Michael Oborne, Paul Mather, Bill Premerlani, James Cohen, JB from rotorFX, Automatik, Fefenin, Peter Meister, Remzibi, Yury Smirnov, Sandro Benigno, Max Levine, Roberto Navoni, Lorenz Meier
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Please contribute your ideas!
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APMrover alpha version tester: Franco Borasio, Daniel Chapelat...
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This firmware is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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//
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// JLN updates: last update 2012-06-21
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// DOLIST:
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//-------------------------------------------------------------------------------------------------------------------------
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// Dev Startup : 2012-04-21
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//
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// 2012-06-21: Update for HIL mode with mavlink 1.0 (new lib)
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// 2012-06-13: use RangeFinder optical SharpGP2Y instead of ultrasonic sonar
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// 2012-06-13: added Test sonar
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// 2012-05-17: added speed_boost during straight line
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// 2012-05-17: New update about the throttle rate control based on the field test done by Franco Borasio (Thanks Franco..)
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// 2012-05-15: The Throttle rate can be controlled by the THROTTLE_SLEW_LIMIT (the value give the step increase, 1 = 0.1)
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// 2012-05-14: Update about mavlink library (now compatible with the latest version of mavlink)
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// 2012-05-14: Added option (hold roll to full right + SW7 ON/OFF) to init_home during the wp_list reset
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// 2012-05-13: Add ROV_SONAR_TRIG (default = 200 cm)
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// 2012-05-13: Restart_nav() added and heading bug correction, tested OK in the field
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// 2012-05-12: RTL then stop update - Tested in the field
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// 2012-05-11: The rover now STOP after the RTL... (special update for Franco...)
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// 2012-05-11: Added SONAR detection for obstacle avoidance (alpha version for SONAR testing)
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// 2012-05-04: Added #define LITE ENABLED for the APM1280 or APM2560 CPU IMUless version
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// 2012-05-03: Successful missions tests with a full APM2560 kit (GPS MT3329 + magnetometer HMC5883L)
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// 2012-05-03: removing stick mixing in auto mode
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// 2012-05-01: special update for rover about ground_course if compass is enabled
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// 2012-04-30: Successfully tested in autonomous nav with a waypoints list recorded in live mode
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// 2012-04-30: Now a full version for APM v1 or APM v2 with magnetometer
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// 2012-04-27: Cosmetic changes
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// 2012-04-26: Only one PID (pidNavRoll) for steering the wheel with nav_roll
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// 2012-04-26: Added ground_speed and ground_course variables in Update_GPS
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// 2012-04-26: Set GPS to 10 Hz (updated in the AP_GPS lib)
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// 2012-04-22: Tested on Traxxas Monster Jam Grinder XL-5 3602
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// 2012-04-21: Roll set to wheels control and Throttle neutral to 50% (0 -100) - Forward>50, Backward<50
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//
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// Radio setup:
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// APM INPUT (Rec = receiver)
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// Rec ch1: Roll
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// Rec ch2: Throttle
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// Rec ch3: Pitch
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// Rec ch4: Yaw
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// Rec ch5: not used
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// Rec ch6: not used
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// Rec ch7: Option channel to 2 positions switch
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// Rec ch8: Mode channel to 3 positions switch
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// APM OUTPUT
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// Ch1: Wheel servo (direction)
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// Ch2: not used
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// Ch3: to the motor ESC
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// Ch4: not used
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//
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// more infos about this experimental version: http://diydrones.com/profile/JeanLouisNaudin
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// =======================================================================================================
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*/
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////////////////////////////////////////////////////////////////////////////////
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// Header includes
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////////////////////////////////////////////////////////////////////////////////
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#include <math.h>
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#include <stdarg.h>
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#include <stdio.h>
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// Libraries
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#include <AP_Common.h>
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#include <AP_Progmem.h>
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#include <AP_HAL.h>
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#include <AP_Menu.h>
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#include <AP_Param.h>
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#include <AP_GPS.h> // ArduPilot GPS library
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#include <AP_ADC.h> // ArduPilot Mega Analog to Digital Converter Library
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#include <AP_ADC_AnalogSource.h>
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#include <AP_Baro.h>
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#include <AP_Compass.h> // ArduPilot Mega Magnetometer Library
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#include <AP_Math.h> // ArduPilot Mega Vector/Matrix math Library
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#include <AP_InertialSensor.h> // Inertial Sensor (uncalibated IMU) Library
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#include <AP_AHRS.h> // ArduPilot Mega DCM Library
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#include <PID.h> // PID library
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#include <RC_Channel.h> // RC Channel Library
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#include <AP_RangeFinder.h> // Range finder library
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#include <Filter.h> // Filter library
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#include <AP_Buffer.h> // FIFO buffer library
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#include <ModeFilter.h> // Mode Filter from Filter library
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#include <AverageFilter.h> // Mode Filter from Filter library
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#include <AP_Relay.h> // APM relay
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#include <AP_Mount.h> // Camera/Antenna mount
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#include <GCS_MAVLink.h> // MAVLink GCS definitions
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#include <AP_Airspeed.h> // needed for AHRS build
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#include <memcheck.h>
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#include <DataFlash.h>
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#include <SITL.h>
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#include <stdarg.h>
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#include <AP_HAL_AVR.h>
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#include <AP_HAL_AVR_SITL.h>
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#include <AP_HAL_PX4.h>
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#include <AP_HAL_Empty.h>
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#include "compat.h"
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// Configuration
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#include "config.h"
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// Local modules
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#include "defines.h"
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#include "Parameters.h"
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#include "GCS.h"
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#include <AP_Declination.h> // ArduPilot Mega Declination Helper Library
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AP_HAL::BetterStream* cliSerial;
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const AP_HAL::HAL& hal = AP_HAL_BOARD_DRIVER;
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// this sets up the parameter table, and sets the default values. This
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// must be the first AP_Param variable declared to ensure its
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// constructor runs before the constructors of the other AP_Param
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// variables
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AP_Param param_loader(var_info, WP_START_BYTE);
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////////////////////////////////////////////////////////////////////////////////
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// the rate we run the main loop at
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////////////////////////////////////////////////////////////////////////////////
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static const AP_InertialSensor::Sample_rate ins_sample_rate = AP_InertialSensor::RATE_50HZ;
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////////////////////////////////////////////////////////////////////////////////
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// Parameters
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////////////////////////////////////////////////////////////////////////////////
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//
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// Global parameters are all contained within the 'g' class.
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//
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static Parameters g;
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////////////////////////////////////////////////////////////////////////////////
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// prototypes
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static void update_events(void);
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////////////////////////////////////////////////////////////////////////////////
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// DataFlash
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////////////////////////////////////////////////////////////////////////////////
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#if CONFIG_HAL_BOARD == HAL_BOARD_APM1
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DataFlash_APM1 DataFlash;
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#elif CONFIG_HAL_BOARD == HAL_BOARD_APM2
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DataFlash_APM2 DataFlash;
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#elif CONFIG_HAL_BOARD == HAL_BOARD_AVR_SITL
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DataFlash_SITL DataFlash;
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#elif CONFIG_HAL_BOARD == HAL_BOARD_PX4
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DataFlash_Empty DataFlash;
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#endif
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////////////////////////////////////////////////////////////////////////////////
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// Sensors
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////////////////////////////////////////////////////////////////////////////////
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//
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// There are three basic options related to flight sensor selection.
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//
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// - Normal flight mode. Real sensors are used.
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// - HIL Attitude mode. Most sensors are disabled, as the HIL
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// protocol supplies attitude information directly.
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// - HIL Sensors mode. Synthetic sensors are configured that
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// supply data from the simulation.
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//
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// All GPS access should be through this pointer.
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static GPS *g_gps;
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// flight modes convenience array
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static AP_Int8 *flight_modes = &g.flight_mode1;
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#if HIL_MODE == HIL_MODE_DISABLED
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// real sensors
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#if CONFIG_ADC == ENABLED
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static AP_ADC_ADS7844 adc;
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#endif
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#if CONFIG_HAL_BOARD == HAL_BOARD_AVR_SITL
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static AP_Compass_HIL compass;
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static SITL sitl;
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#else
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static AP_Compass_HMC5843 compass;
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#endif
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// real GPS selection
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#if GPS_PROTOCOL == GPS_PROTOCOL_AUTO
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AP_GPS_Auto g_gps_driver(&g_gps);
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#elif GPS_PROTOCOL == GPS_PROTOCOL_NMEA
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AP_GPS_NMEA g_gps_driver();
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#elif GPS_PROTOCOL == GPS_PROTOCOL_SIRF
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AP_GPS_SIRF g_gps_driver();
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#elif GPS_PROTOCOL == GPS_PROTOCOL_UBLOX
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AP_GPS_UBLOX g_gps_driver();
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#elif GPS_PROTOCOL == GPS_PROTOCOL_MTK
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AP_GPS_MTK g_gps_driver();
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#elif GPS_PROTOCOL == GPS_PROTOCOL_MTK19
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AP_GPS_MTK19 g_gps_driver();
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#elif GPS_PROTOCOL == GPS_PROTOCOL_NONE
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AP_GPS_None g_gps_driver();
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#else
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#error Unrecognised GPS_PROTOCOL setting.
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#endif // GPS PROTOCOL
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# if CONFIG_INS_TYPE == CONFIG_INS_MPU6000
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AP_InertialSensor_MPU6000 ins;
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# elif CONFIG_INS_TYPE == CONFIG_INS_SITL
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AP_InertialSensor_Stub ins;
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#else
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AP_InertialSensor_Oilpan ins( &adc );
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#endif // CONFIG_INS_TYPE
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AP_AHRS_DCM ahrs(&ins, g_gps);
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#elif HIL_MODE == HIL_MODE_SENSORS
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// sensor emulators
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AP_ADC_HIL adc;
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AP_Compass_HIL compass;
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AP_GPS_HIL g_gps_driver(NULL);
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AP_InertialSensor_Oilpan ins( &adc );
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AP_AHRS_DCM ahrs(&ins, g_gps);
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#elif HIL_MODE == HIL_MODE_ATTITUDE
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AP_ADC_HIL adc;
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AP_AHRS_HIL ahrs(&ins, g_gps);
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AP_GPS_HIL g_gps_driver(NULL);
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AP_Compass_HIL compass; // never used
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#else
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#error Unrecognised HIL_MODE setting.
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#endif // HIL MODE
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////////////////////////////////////////////////////////////////////////////////
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// GCS selection
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////////////////////////////////////////////////////////////////////////////////
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//
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GCS_MAVLINK gcs0;
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GCS_MAVLINK gcs3;
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// a pin for reading the receiver RSSI voltage. The scaling by 0.25
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// is to take the 0 to 1024 range down to an 8 bit range for MAVLink
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AP_HAL::AnalogSource *rssi_analog_source;
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AP_HAL::AnalogSource *vcc_pin;
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AP_HAL::AnalogSource * batt_volt_pin;
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AP_HAL::AnalogSource * batt_curr_pin;
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////////////////////////////////////////////////////////////////////////////////
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// SONAR selection
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////////////////////////////////////////////////////////////////////////////////
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//
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ModeFilterInt16_Size5 sonar_mode_filter(2);
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#if CONFIG_SONAR == ENABLED
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AP_HAL::AnalogSource *sonar_analog_source;
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AP_RangeFinder_MaxsonarXL *sonar;
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#endif
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// relay support
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AP_Relay relay;
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// Camera/Antenna mount tracking and stabilisation stuff
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// --------------------------------------
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#if MOUNT == ENABLED
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AP_Mount camera_mount(g_gps, &dcm);
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#endif
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////////////////////////////////////////////////////////////////////////////////
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// Global variables
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////////////////////////////////////////////////////////////////////////////////
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// APM2 only
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#if USB_MUX_PIN > 0
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static bool usb_connected;
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#endif
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static const char *comma = ",";
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/* Radio values
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Channel assignments
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1 Steering
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2 ---
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3 Throttle
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4 ---
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5 Aux5
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6 Aux6
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7 Aux7
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8 Aux8/Mode
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Each Aux channel can be configured to have any of the available auxiliary functions assigned to it.
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See libraries/RC_Channel/RC_Channel_aux.h for more information
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*/
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////////////////////////////////////////////////////////////////////////////////
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// Radio
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////////////////////////////////////////////////////////////////////////////////
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// This is the state of the flight control system
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// There are multiple states defined such as MANUAL, FBW-A, AUTO
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uint8_t control_mode = INITIALISING;
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// Used to maintain the state of the previous control switch position
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// This is set to -1 when we need to re-read the switch
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uint8_t oldSwitchPosition;
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// These are values received from the GCS if the user is using GCS joystick
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// control and are substituted for the values coming from the RC radio
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static int16_t rc_override[8] = {0,0,0,0,0,0,0,0};
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// A flag if GCS joystick control is in use
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static bool rc_override_active = false;
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////////////////////////////////////////////////////////////////////////////////
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// Failsafe
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////////////////////////////////////////////////////////////////////////////////
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// A tracking variable for type of failsafe active
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// Used for failsafe based on loss of RC signal or GCS signal
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static int16_t failsafe;
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// Used to track if the value on channel 3 (throtttle) has fallen below the failsafe threshold
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// RC receiver should be set up to output a low throttle value when signal is lost
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static bool ch3_failsafe;
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// A timer used to track how long since we have received the last GCS heartbeat or rc override message
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static uint32_t rc_override_fs_timer = 0;
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// A timer used to track how long we have been in a "short failsafe" condition due to loss of RC signal
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static uint32_t ch3_failsafe_timer = 0;
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////////////////////////////////////////////////////////////////////////////////
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// LED output
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////////////////////////////////////////////////////////////////////////////////
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// state of the GPS light (on/off)
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static bool GPS_light;
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////////////////////////////////////////////////////////////////////////////////
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// GPS variables
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////////////////////////////////////////////////////////////////////////////////
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// This is used to scale GPS values for EEPROM storage
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// 10^7 times Decimal GPS means 1 == 1cm
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// This approximation makes calculations integer and it's easy to read
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static const float t7 = 10000000.0;
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// We use atan2 and other trig techniques to calaculate angles
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// A counter used to count down valid gps fixes to allow the gps estimate to settle
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// before recording our home position (and executing a ground start if we booted with an air start)
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static uint8_t ground_start_count = 5;
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// Used to compute a speed estimate from the first valid gps fixes to decide if we are
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// on the ground or in the air. Used to decide if a ground start is appropriate if we
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// booted with an air start.
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static int16_t ground_start_avg;
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static int32_t gps_base_alt;
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////////////////////////////////////////////////////////////////////////////////
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// Location & Navigation
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////////////////////////////////////////////////////////////////////////////////
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// Constants
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const float radius_of_earth = 6378100; // meters
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// true if we have a position estimate from AHRS
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static bool have_position;
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// This is the currently calculated direction to fly.
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// deg * 100 : 0 to 360
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static int32_t nav_bearing;
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// This is the direction to the next waypoint
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// deg * 100 : 0 to 360
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static int32_t target_bearing;
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//This is the direction from the last waypoint to the next waypoint
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// deg * 100 : 0 to 360
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static int32_t crosstrack_bearing;
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// A gain scaler to account for ground speed/headwind/tailwind
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static float nav_gain_scaler = 1;
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static bool rtl_complete = false;
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// There may be two active commands in Auto mode.
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// This indicates the active navigation command by index number
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static uint8_t nav_command_index;
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// This indicates the active non-navigation command by index number
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static uint8_t non_nav_command_index;
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// This is the command type (eg navigate to waypoint) of the active navigation command
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static uint8_t nav_command_ID = NO_COMMAND;
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static uint8_t non_nav_command_ID = NO_COMMAND;
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static float groundspeed_error;
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// 0-(throttle_max - throttle_cruise) : throttle nudge in Auto mode using top 1/2 of throttle stick travel
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static int16_t throttle_nudge = 0;
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// receiver RSSI
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static uint8_t receiver_rssi;
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// the time when the last HEARTBEAT message arrived from a GCS
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static uint32_t last_heartbeat_ms;
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// The distance as reported by Sonar in cm – Values are 20 to 700 generally.
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static int16_t sonar_dist;
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static bool obstacle = false;
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////////////////////////////////////////////////////////////////////////////////
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// Ground speed
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////////////////////////////////////////////////////////////////////////////////
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// The amount current ground speed is below min ground speed. Centimeters per second
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static int32_t groundspeed_undershoot = 0;
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static int32_t ground_speed = 0;
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static int16_t throttle_last = 0, throttle = 500;
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////////////////////////////////////////////////////////////////////////////////
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// Location Errors
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////////////////////////////////////////////////////////////////////////////////
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// Difference between current bearing and desired bearing. Hundredths of a degree
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static int32_t bearing_error;
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// Difference between current altitude and desired altitude. Centimeters
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static int32_t altitude_error;
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// Distance perpandicular to the course line that we are off trackline. Meters
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static float crosstrack_error;
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////////////////////////////////////////////////////////////////////////////////
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// CH7 control
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////////////////////////////////////////////////////////////////////////////////
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// Used to track the CH7 toggle state.
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// When CH7 goes LOW PWM from HIGH PWM, this value will have been set true
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// This allows advanced functionality to know when to execute
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static bool trim_flag;
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// This register tracks the current Mission Command index when writing
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// a mission using CH7 in flight
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static int8_t CH7_wp_index;
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float tuning_value;
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////////////////////////////////////////////////////////////////////////////////
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// Battery Sensors
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////////////////////////////////////////////////////////////////////////////////
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// Battery pack 1 voltage. Initialized above the low voltage threshold to pre-load the filter and prevent low voltage events at startup.
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static float battery_voltage1 = LOW_VOLTAGE * 1.05;
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// Battery pack 1 instantaneous currrent draw. Amperes
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static float current_amps1;
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// Totalized current (Amp-hours) from battery 1
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static float current_total1;
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// To Do - Add support for second battery pack
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//static float battery_voltage2 = LOW_VOLTAGE * 1.05; // Battery 2 Voltage, initialized above threshold for filter
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//static float current_amps2; // Current (Amperes) draw from battery 2
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//static float current_total2; // Totalized current (Amp-hours) from battery 2
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// JLN Update
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uint32_t timesw = 0;
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static bool speed_boost = false;
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////////////////////////////////////////////////////////////////////////////////
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// Navigation control variables
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////////////////////////////////////////////////////////////////////////////////
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// The instantaneous desired bank angle. Hundredths of a degree
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static int32_t nav_roll;
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// Calculated radius for the wp turn based on ground speed and max turn angle
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static int32_t wp_radius;
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////////////////////////////////////////////////////////////////////////////////
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// Waypoint distances
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////////////////////////////////////////////////////////////////////////////////
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// Distance between plane and next waypoint. Meters
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static int32_t wp_distance;
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// Distance between previous and next waypoint. Meters
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static int32_t wp_totalDistance;
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////////////////////////////////////////////////////////////////////////////////
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// repeating event control
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////////////////////////////////////////////////////////////////////////////////
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// Flag indicating current event type
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static uint8_t event_id;
|
||
// when the event was started in ms
|
||
static int32_t event_timer;
|
||
// how long to delay the next firing of event in millis
|
||
static uint16_t event_delay;
|
||
// how many times to cycle : -1 (or -2) = forever, 2 = do one cycle, 4 = do two cycles
|
||
static int16_t event_repeat = 0;
|
||
// per command value, such as PWM for servos
|
||
static int16_t event_value;
|
||
// the value used to cycle events (alternate value to event_value)
|
||
static int16_t event_undo_value;
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// Conditional command
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// A value used in condition commands (eg delay, change alt, etc.)
|
||
// For example in a change altitude command, it is the altitude to change to.
|
||
static int32_t condition_value;
|
||
// A starting value used to check the status of a conditional command.
|
||
// For example in a delay command the condition_start records that start time for the delay
|
||
static int32_t condition_start;
|
||
// A value used in condition commands. For example the rate at which to change altitude.
|
||
static int16_t condition_rate;
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// 3D Location vectors
|
||
// Location structure defined in AP_Common
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// The home location used for RTL. The location is set when we first get stable GPS lock
|
||
static struct Location home;
|
||
// Flag for if we have g_gps lock and have set the home location
|
||
static bool home_is_set;
|
||
// The location of the previous waypoint. Used for track following and altitude ramp calculations
|
||
static struct Location prev_WP;
|
||
// The plane's current location
|
||
static struct Location current_loc;
|
||
// The location of the current/active waypoint. Used for track following
|
||
static struct Location next_WP;
|
||
// The location of the active waypoint in Guided mode.
|
||
static struct Location guided_WP;
|
||
|
||
// The location structure information from the Nav command being processed
|
||
static struct Location next_nav_command;
|
||
// The location structure information from the Non-Nav command being processed
|
||
static struct Location next_nonnav_command;
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// IMU variables
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// The main loop execution time. Seconds
|
||
//This is the time between calls to the DCM algorithm and is the Integration time for the gyros.
|
||
static float G_Dt = 0.02;
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// Performance monitoring
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// Timer used to accrue data and trigger recording of the performanc monitoring log message
|
||
static int32_t perf_mon_timer;
|
||
// The maximum main loop execution time recorded in the current performance monitoring interval
|
||
static int16_t G_Dt_max = 0;
|
||
// The number of gps fixes recorded in the current performance monitoring interval
|
||
static int16_t gps_fix_count = 0;
|
||
// A variable used by developers to track performanc metrics.
|
||
// Currently used to record the number of GCS heartbeat messages received
|
||
static int16_t pmTest1 = 0;
|
||
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// System Timers
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// Time in miliseconds of start of main control loop. Milliseconds
|
||
static uint32_t fast_loopTimer;
|
||
// Time Stamp when fast loop was complete. Milliseconds
|
||
static uint32_t fast_loopTimeStamp;
|
||
// Number of milliseconds used in last main loop cycle
|
||
static uint8_t delta_ms_fast_loop;
|
||
// Counter of main loop executions. Used for performance monitoring and failsafe processing
|
||
static uint16_t mainLoop_count;
|
||
|
||
// Time in miliseconds of start of medium control loop. Milliseconds
|
||
static uint32_t medium_loopTimer;
|
||
// Counters for branching from main control loop to slower loops
|
||
static uint8_t medium_loopCounter;
|
||
// Number of milliseconds used in last medium loop cycle
|
||
static uint8_t delta_ms_medium_loop;
|
||
|
||
// Counters for branching from medium control loop to slower loops
|
||
static uint8_t slow_loopCounter;
|
||
// Counter to trigger execution of very low rate processes
|
||
static uint8_t superslow_loopCounter;
|
||
// Counter to trigger execution of 1 Hz processes
|
||
static uint8_t counter_one_herz;
|
||
|
||
// % MCU cycles used
|
||
static float load;
|
||
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
// Top-level logic
|
||
////////////////////////////////////////////////////////////////////////////////
|
||
|
||
void setup() {
|
||
memcheck_init();
|
||
cliSerial = hal.console;
|
||
|
||
// load the default values of variables listed in var_info[]
|
||
AP_Param::setup_sketch_defaults();
|
||
|
||
rssi_analog_source = hal.analogin->channel(ANALOG_INPUT_NONE, 0.25);
|
||
vcc_pin = hal.analogin->channel(ANALOG_INPUT_BOARD_VCC);
|
||
batt_volt_pin = hal.analogin->channel(g.battery_volt_pin);
|
||
batt_curr_pin = hal.analogin->channel(g.battery_curr_pin);
|
||
|
||
#if CONFIG_SONAR == ENABLED
|
||
#if CONFIG_SONAR_SOURCE == SONAR_SOURCE_ADC
|
||
sonar_analog_source = new AP_ADC_AnalogSource(
|
||
&adc, CONFIG_SONAR_SOURCE_ADC_CHANNEL, 0.25);
|
||
#elif CONFIG_SONAR_SOURCE == SONAR_SOURCE_ANALOG_PIN
|
||
sonar_analog_source = hal.analogin->channel(
|
||
CONFIG_SONAR_SOURCE_ANALOG_PIN);
|
||
#else
|
||
#warning "Invalid CONFIG_SONAR_SOURCE"
|
||
#endif
|
||
sonar = new AP_RangeFinder_MaxsonarXL(sonar_analog_source,
|
||
&sonar_mode_filter);
|
||
#endif
|
||
|
||
init_ardupilot();
|
||
}
|
||
|
||
void loop()
|
||
{
|
||
// We want this to execute at 50Hz, but synchronised with the gyro/accel
|
||
uint16_t num_samples = ins.num_samples_available();
|
||
if (num_samples >= 1) {
|
||
delta_ms_fast_loop = millis() - fast_loopTimer;
|
||
load = (float)(fast_loopTimeStamp - fast_loopTimer)/delta_ms_fast_loop;
|
||
G_Dt = (float)delta_ms_fast_loop / 1000.f;
|
||
fast_loopTimer = millis();
|
||
|
||
mainLoop_count++;
|
||
|
||
// Execute the fast loop
|
||
// ---------------------
|
||
fast_loop();
|
||
|
||
// Execute the medium loop
|
||
// -----------------------
|
||
medium_loop();
|
||
|
||
counter_one_herz++;
|
||
if(counter_one_herz == 50){
|
||
one_second_loop();
|
||
counter_one_herz = 0;
|
||
}
|
||
|
||
if (millis() - perf_mon_timer > 20000) {
|
||
if (mainLoop_count != 0) {
|
||
#if LITE == DISABLED
|
||
if (g.log_bitmask & MASK_LOG_PM)
|
||
#if HIL_MODE != HIL_MODE_ATTITUDE
|
||
Log_Write_Performance();
|
||
#endif
|
||
#endif
|
||
resetPerfData();
|
||
}
|
||
}
|
||
|
||
fast_loopTimeStamp = millis();
|
||
} else if (millis() - fast_loopTimeStamp < 19) {
|
||
// less than 19ms has passed. We have at least one millisecond
|
||
// of free time. The most useful thing to do with that time is
|
||
// to accumulate some sensor readings, specifically the
|
||
// compass, which is often very noisy but is not interrupt
|
||
// driven, so it can't accumulate readings by itself
|
||
if (g.compass_enabled) {
|
||
compass.accumulate();
|
||
}
|
||
}
|
||
}
|
||
|
||
// Main loop 50Hz
|
||
static void fast_loop()
|
||
{
|
||
// This is the fast loop - we want it to execute at 50Hz if possible
|
||
// -----------------------------------------------------------------
|
||
if (delta_ms_fast_loop > G_Dt_max)
|
||
G_Dt_max = delta_ms_fast_loop;
|
||
|
||
// Read radio
|
||
// ----------
|
||
read_radio();
|
||
|
||
// try to send any deferred messages if the serial port now has
|
||
// some space available
|
||
gcs_send_message(MSG_RETRY_DEFERRED);
|
||
|
||
// check for loss of control signal failsafe condition
|
||
// ------------------------------------
|
||
check_short_failsafe();
|
||
|
||
#if HIL_MODE == HIL_MODE_SENSORS
|
||
// update hil before dcm update
|
||
gcs_update();
|
||
#endif
|
||
|
||
#if LITE == DISABLED
|
||
ahrs.update();
|
||
#endif
|
||
// Read Sonar
|
||
// ----------
|
||
#if CONFIG_SONAR == ENABLED
|
||
if(g.sonar_enabled){
|
||
sonar_dist = sonar->read();
|
||
|
||
if(sonar_dist <= g.sonar_trigger) { // obstacle detected in front
|
||
obstacle = true;
|
||
} else {
|
||
obstacle = false;
|
||
}
|
||
}
|
||
#endif
|
||
|
||
// uses the yaw from the DCM to give more accurate turns
|
||
calc_bearing_error();
|
||
|
||
#if LITE == DISABLED
|
||
# if HIL_MODE == HIL_MODE_DISABLED
|
||
if (g.log_bitmask & MASK_LOG_ATTITUDE_FAST)
|
||
Log_Write_Attitude((int)ahrs.roll_sensor, (int)ahrs.pitch_sensor, (uint16_t)ahrs.yaw_sensor);
|
||
|
||
if (g.log_bitmask & MASK_LOG_RAW)
|
||
Log_Write_Raw();
|
||
#endif
|
||
#endif
|
||
// inertial navigation
|
||
// ------------------
|
||
#if INERTIAL_NAVIGATION == ENABLED
|
||
// TODO: implement inertial nav function
|
||
inertialNavigation();
|
||
#endif
|
||
|
||
// custom code/exceptions for flight modes
|
||
// ---------------------------------------
|
||
update_current_flight_mode();
|
||
|
||
// apply desired roll, pitch and yaw to the plane
|
||
// ----------------------------------------------
|
||
if (control_mode > LEARNING)
|
||
learning();
|
||
|
||
// write out the servo PWM values
|
||
// ------------------------------
|
||
set_servos();
|
||
|
||
|
||
// XXX is it appropriate to be doing the comms below on the fast loop?
|
||
|
||
gcs_update();
|
||
gcs_data_stream_send();
|
||
}
|
||
|
||
static void medium_loop()
|
||
{
|
||
#if MOUNT == ENABLED
|
||
camera_mount.update_mount_position();
|
||
#endif
|
||
|
||
// This is the start of the medium (10 Hz) loop pieces
|
||
// -----------------------------------------
|
||
switch(medium_loopCounter) {
|
||
|
||
// This case deals with the GPS
|
||
//-------------------------------
|
||
case 0:
|
||
medium_loopCounter++;
|
||
update_GPS();
|
||
calc_gndspeed_undershoot();
|
||
|
||
//#if LITE == DISABLED
|
||
#if HIL_MODE != HIL_MODE_ATTITUDE
|
||
if (g.compass_enabled && compass.read()) {
|
||
ahrs.set_compass(&compass);
|
||
// Calculate heading
|
||
compass.null_offsets();
|
||
} else {
|
||
ahrs.set_compass(NULL);
|
||
}
|
||
#endif
|
||
//#endif
|
||
/*{
|
||
cliSerial->print(ahrs.roll_sensor, DEC); cliSerial->printf_P(PSTR("\t"));
|
||
cliSerial->print(ahrs.pitch_sensor, DEC); cliSerial->printf_P(PSTR("\t"));
|
||
cliSerial->print(ahrs.yaw_sensor, DEC); cliSerial->printf_P(PSTR("\t"));
|
||
Vector3f tempaccel = ins.get_accel();
|
||
cliSerial->print(tempaccel.x, DEC); cliSerial->printf_P(PSTR("\t"));
|
||
cliSerial->print(tempaccel.y, DEC); cliSerial->printf_P(PSTR("\t"));
|
||
cliSerial->println(tempaccel.z, DEC);
|
||
}*/
|
||
|
||
break;
|
||
|
||
// This case performs some navigation computations
|
||
//------------------------------------------------
|
||
case 1:
|
||
medium_loopCounter++;
|
||
navigate();
|
||
break;
|
||
|
||
// command processing
|
||
//------------------------------
|
||
case 2:
|
||
medium_loopCounter++;
|
||
|
||
// perform next command
|
||
// --------------------
|
||
update_commands();
|
||
break;
|
||
|
||
// This case deals with sending high rate telemetry
|
||
//-------------------------------------------------
|
||
case 3:
|
||
medium_loopCounter++;
|
||
#if LITE == DISABLED
|
||
#if HIL_MODE != HIL_MODE_ATTITUDE
|
||
if ((g.log_bitmask & MASK_LOG_ATTITUDE_MED) && !(g.log_bitmask & MASK_LOG_ATTITUDE_FAST))
|
||
Log_Write_Attitude((int)ahrs.roll_sensor, (int)ahrs.pitch_sensor, (uint16_t)ahrs.yaw_sensor);
|
||
|
||
if (g.log_bitmask & MASK_LOG_CTUN)
|
||
Log_Write_Control_Tuning();
|
||
#endif
|
||
|
||
if (g.log_bitmask & MASK_LOG_NTUN)
|
||
Log_Write_Nav_Tuning();
|
||
|
||
if (g.log_bitmask & MASK_LOG_GPS)
|
||
Log_Write_GPS(g_gps->time, current_loc.lat, current_loc.lng, g_gps->altitude, current_loc.alt, (long) g_gps->ground_speed, g_gps->ground_course, g_gps->fix, g_gps->num_sats);
|
||
#endif
|
||
break;
|
||
|
||
// This case controls the slow loop
|
||
//---------------------------------
|
||
case 4:
|
||
medium_loopCounter = 0;
|
||
delta_ms_medium_loop = millis() - medium_loopTimer;
|
||
medium_loopTimer = millis();
|
||
|
||
if (g.battery_monitoring != 0){
|
||
read_battery();
|
||
}
|
||
|
||
read_trim_switch();
|
||
|
||
slow_loop();
|
||
break;
|
||
}
|
||
}
|
||
|
||
static void slow_loop()
|
||
{
|
||
// This is the slow (3 1/3 Hz) loop pieces
|
||
//----------------------------------------
|
||
switch (slow_loopCounter){
|
||
case 0:
|
||
slow_loopCounter++;
|
||
check_long_failsafe();
|
||
superslow_loopCounter++;
|
||
if(superslow_loopCounter >=200) { // 200 = Execute every minute
|
||
#if LITE == DISABLED
|
||
#if HIL_MODE != HIL_MODE_ATTITUDE
|
||
if(g.compass_enabled) {
|
||
compass.save_offsets();
|
||
}
|
||
#endif
|
||
#endif
|
||
superslow_loopCounter = 0;
|
||
}
|
||
break;
|
||
|
||
case 1:
|
||
slow_loopCounter++;
|
||
|
||
// Read 3-position switch on radio
|
||
// -------------------------------
|
||
read_control_switch();
|
||
|
||
update_aux_servo_function(&g.rc_5, &g.rc_6, &g.rc_7, &g.rc_8);
|
||
|
||
#if MOUNT == ENABLED
|
||
camera_mount.update_mount_type();
|
||
#endif
|
||
break;
|
||
|
||
case 2:
|
||
slow_loopCounter = 0;
|
||
|
||
update_events();
|
||
|
||
mavlink_system.sysid = g.sysid_this_mav; // This is just an ugly hack to keep mavlink_system.sysid sync'd with our parameter
|
||
|
||
#if USB_MUX_PIN > 0
|
||
check_usb_mux();
|
||
#endif
|
||
|
||
#if TRACE == ENABLED
|
||
// cliSerial->printf_P(PSTR("NAV->gnd_crs=%3.0f, nav_brg=%3.0f, tgt_brg=%3.0f, brg_err=%3.0f, nav_rll=%3.1f rsvo=%3.1f\n"),
|
||
// ahrs.yaw_sensor*0.01, (float)nav_bearing/100, (float)target_bearing/100, (float)bearing_error/100, (float)nav_roll/100, (float)g.channel_roll.servo_out/100);
|
||
// cliSerial->printf_P(PSTR("WPL->g.command_total=%d, g.command_index=%d, nav_command_index=%d\n"),
|
||
// g.command_total, g.command_index, nav_command_index);
|
||
cliSerial->printf_P(PSTR("NAV->gnd_crs=%3.0f, sonar_dist = %d obstacle = %d\n"), ahrs.yaw_sensor*0.01, (int)sonar_dist, obstacle);
|
||
#endif
|
||
break;
|
||
}
|
||
}
|
||
|
||
static void one_second_loop()
|
||
{
|
||
#if LITE == DISABLED
|
||
if (g.log_bitmask & MASK_LOG_CUR)
|
||
Log_Write_Current();
|
||
#endif
|
||
// send a heartbeat
|
||
gcs_send_message(MSG_HEARTBEAT);
|
||
}
|
||
|
||
static void update_GPS(void)
|
||
{
|
||
g_gps->update();
|
||
update_GPS_light();
|
||
|
||
have_position = ahrs.get_position(¤t_loc);
|
||
|
||
if (g_gps->new_data && g_gps->status() == GPS::GPS_OK) {
|
||
gps_fix_count++;
|
||
|
||
if(ground_start_count > 1){
|
||
ground_start_count--;
|
||
ground_start_avg += g_gps->ground_speed;
|
||
|
||
} else if (ground_start_count == 1) {
|
||
// We countdown N number of good GPS fixes
|
||
// so that the altitude is more accurate
|
||
// -------------------------------------
|
||
if (current_loc.lat == 0) {
|
||
ground_start_count = 5;
|
||
|
||
} else {
|
||
init_home();
|
||
if (g.compass_enabled) {
|
||
// Set compass declination automatically
|
||
compass.set_initial_location(g_gps->latitude, g_gps->longitude);
|
||
}
|
||
ground_start_count = 0;
|
||
}
|
||
}
|
||
ground_speed = g_gps->ground_speed;
|
||
}
|
||
}
|
||
|
||
static void update_current_flight_mode(void)
|
||
{
|
||
switch(control_mode){
|
||
case AUTO:
|
||
case RTL:
|
||
calc_nav_roll();
|
||
calc_throttle();
|
||
break;
|
||
|
||
case LEARNING:
|
||
case MANUAL:
|
||
nav_roll = 0;
|
||
g.channel_roll.servo_out = g.channel_roll.pwm_to_angle();
|
||
g.channel_pitch.servo_out = g.channel_pitch.pwm_to_angle();
|
||
g.channel_rudder.servo_out = g.channel_roll.pwm_to_angle();
|
||
break;
|
||
}
|
||
}
|
||
|
||
static void update_navigation()
|
||
{
|
||
switch (control_mode) {
|
||
case AUTO:
|
||
verify_commands();
|
||
break;
|
||
|
||
case RTL:
|
||
case GUIDED:
|
||
// no loitering around the wp with the rover, goes direct to the wp position
|
||
calc_nav_roll();
|
||
calc_bearing_error();
|
||
if(verify_RTL()) {
|
||
g.channel_throttle.servo_out = g.throttle_min.get();
|
||
set_mode(MANUAL);
|
||
}
|
||
break;
|
||
}
|
||
}
|
||
|
||
AP_HAL_MAIN();
|