ardupilot/libraries/SITL/SITL.cpp

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/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/*
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SITL.cpp - software in the loop state
*/
#include "SITL.h"
#include <AP_Common/AP_Common.h>
#include <AP_HAL/AP_HAL.h>
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
#include <GCS_MAVLink/GCS_MAVLink.h>
#include <AP_Logger/AP_Logger.h>
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#ifdef SFML_JOYSTICK
#ifdef HAVE_SFML_GRAPHICS_HPP
#include <SFML/Window/Joystick.hpp>
#elif HAVE_SFML_GRAPHIC_H
#include <SFML/Window/Joystick.h>
#endif
#endif // SFML_JOYSTICK
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extern const AP_HAL::HAL& hal;
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namespace SITL {
SITL *SITL::_singleton = nullptr;
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// table of user settable parameters
const AP_Param::GroupInfo SITL::var_info[] = {
AP_GROUPINFO("DRIFT_SPEED", 5, SITL, drift_speed, 0.05f),
AP_GROUPINFO("DRIFT_TIME", 6, SITL, drift_time, 5),
AP_GROUPINFO("ENGINE_MUL", 8, SITL, engine_mul, 1),
AP_GROUPINFO("WIND_SPD", 9, SITL, wind_speed, 0),
AP_GROUPINFO("WIND_DIR", 10, SITL, wind_direction, 180),
AP_GROUPINFO("WIND_TURB", 11, SITL, wind_turbulance, 0),
AP_GROUPINFO("SERVO_SPEED", 16, SITL, servo_speed, 0.14),
AP_GROUPINFO("BATT_VOLTAGE", 19, SITL, batt_voltage, 12.6f),
AP_GROUPINFO("BATT_CAP_AH", 20, SITL, batt_capacity_ah, 0),
AP_GROUPINFO("SONAR_GLITCH", 23, SITL, sonar_glitch, 0),
AP_GROUPINFO("SONAR_RND", 24, SITL, sonar_noise, 0),
AP_GROUPINFO("RC_FAIL", 25, SITL, rc_fail, 0),
AP_GROUPINFO("FLOAT_EXCEPT", 28, SITL, float_exception, 1),
AP_GROUPINFO("SONAR_SCALE", 32, SITL, sonar_scale, 12.1212f),
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AP_GROUPINFO("FLOW_ENABLE", 33, SITL, flow_enable, 0),
AP_GROUPINFO("TERRAIN", 34, SITL, terrain_enable, 1),
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AP_GROUPINFO("FLOW_RATE", 35, SITL, flow_rate, 10),
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AP_GROUPINFO("FLOW_DELAY", 36, SITL, flow_delay, 0),
AP_GROUPINFO("WIND_DELAY", 40, SITL, wind_delay, 0),
AP_GROUPINFO("ADSB_COUNT", 45, SITL, adsb_plane_count, -1),
AP_GROUPINFO("ADSB_RADIUS", 46, SITL, adsb_radius_m, 10000),
AP_GROUPINFO("ADSB_ALT", 47, SITL, adsb_altitude_m, 1000),
AP_GROUPINFO("PIN_MASK", 50, SITL, pin_mask, 0),
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AP_GROUPINFO("ADSB_TX", 51, SITL, adsb_tx, 0),
AP_GROUPINFO("SPEEDUP", 52, SITL, speedup, -1),
AP_GROUPINFO("IMU_POS", 53, SITL, imu_pos_offset, 0),
AP_SUBGROUPEXTENSION("", 54, SITL, var_ins),
AP_GROUPINFO("SONAR_POS", 55, SITL, rngfnd_pos_offset, 0),
AP_GROUPINFO("FLOW_POS", 56, SITL, optflow_pos_offset, 0),
AP_GROUPINFO("ENGINE_FAIL", 58, SITL, engine_fail, 0),
AP_SUBGROUPINFO(shipsim, "SHIP_", 59, SITL, ShipSim),
AP_SUBGROUPEXTENSION("", 60, SITL, var_mag),
AP_SUBGROUPEXTENSION("", 61, SITL, var_gps),
AP_SUBGROUPEXTENSION("", 62, SITL, var_info3),
AP_SUBGROUPEXTENSION("", 63, SITL, var_info2),
AP_GROUPEND
};
// second table of user settable parameters for SITL.
const AP_Param::GroupInfo SITL::var_info2[] = {
AP_GROUPINFO("TEMP_START", 1, SITL, temp_start, 25),
AP_GROUPINFO("TEMP_FLIGHT", 2, SITL, temp_flight, 35),
AP_GROUPINFO("TEMP_TCONST", 3, SITL, temp_tconst, 30),
AP_GROUPINFO("TEMP_BFACTOR", 4, SITL, temp_baro_factor, 0),
AP_GROUPINFO("WIND_DIR_Z", 10, SITL, wind_dir_z, 0),
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AP_GROUPINFO("WIND_T" ,15, SITL, wind_type, SITL::WIND_TYPE_SQRT),
AP_GROUPINFO("WIND_T_ALT" ,16, SITL, wind_type_alt, 60),
AP_GROUPINFO("WIND_T_COEF", 17, SITL, wind_type_coef, 0.01f),
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AP_GROUPINFO("RC_CHANCOUNT",21, SITL, rc_chancount, 16),
// @Group: SPR_
// @Path: ./SIM_Sprayer.cpp
AP_SUBGROUPINFO(sprayer_sim, "SPR_", 22, SITL, Sprayer),
// @Group: GRPS_
// @Path: ./SIM_Gripper_Servo.cpp
AP_SUBGROUPINFO(gripper_sim, "GRPS_", 23, SITL, Gripper_Servo),
// @Group: GRPE_
// @Path: ./SIM_Gripper_EPM.cpp
AP_SUBGROUPINFO(gripper_epm_sim, "GRPE_", 24, SITL, Gripper_EPM),
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// weight on wheels pin
AP_GROUPINFO("WOW_PIN", 25, SITL, wow_pin, -1),
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// vibration frequencies on each axis
AP_GROUPINFO("VIB_FREQ", 26, SITL, vibe_freq, 0),
// @Path: ./SIM_Parachute.cpp
AP_SUBGROUPINFO(parachute_sim, "PARA_", 27, SITL, Parachute),
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// enable bandwidth limitting on telemetry ports:
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AP_GROUPINFO("BAUDLIMIT_EN", 28, SITL, telem_baudlimit_enable, 0),
// @Group: PLD_
// @Path: ./SIM_Precland.cpp
AP_SUBGROUPINFO(precland_sim, "PLD_", 29, SITL, SIM_Precland),
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// apply a force to the vehicle over a period of time:
AP_GROUPINFO("SHOVE_X", 30, SITL, shove.x, 0),
AP_GROUPINFO("SHOVE_Y", 31, SITL, shove.y, 0),
AP_GROUPINFO("SHOVE_Z", 32, SITL, shove.z, 0),
AP_GROUPINFO("SHOVE_TIME", 33, SITL, shove.t, 0),
// optical flow sensor measurement noise in rad/sec
AP_GROUPINFO("FLOW_RND", 34, SITL, flow_noise, 0.05f),
AP_GROUPINFO("TWIST_X", 37, SITL, twist.x, 0),
AP_GROUPINFO("TWIST_Y", 38, SITL, twist.y, 0),
AP_GROUPINFO("TWIST_Z", 39, SITL, twist.z, 0),
AP_GROUPINFO("TWIST_TIME", 40, SITL, twist.t, 0),
AP_GROUPINFO("GND_BEHAV", 41, SITL, gnd_behav, -1),
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// sailboat wave and tide simulation parameters
AP_GROUPINFO("WAVE_ENABLE", 44, SITL, wave.enable, 0.0f),
AP_GROUPINFO("WAVE_LENGTH", 45, SITL, wave.length, 10.0f),
AP_GROUPINFO("WAVE_AMP", 46, SITL, wave.amp, 0.5f),
AP_GROUPINFO("WAVE_DIR", 47, SITL, wave.direction, 0.0f),
AP_GROUPINFO("WAVE_SPEED", 48, SITL, wave.speed, 0.5f),
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AP_GROUPINFO("TIDE_DIR", 49, SITL, tide.direction, 0.0f),
AP_GROUPINFO("TIDE_SPEED", 50, SITL, tide.speed, 0.0f),
// the following coordinates are for CMAC, in Canberra
AP_GROUPINFO("OPOS_LAT", 51, SITL, opos.lat, -35.363261f),
AP_GROUPINFO("OPOS_LNG", 52, SITL, opos.lng, 149.165230f),
AP_GROUPINFO("OPOS_ALT", 53, SITL, opos.alt, 584.0f),
AP_GROUPINFO("OPOS_HDG", 54, SITL, opos.hdg, 353.0f),
// extra delay per main loop
AP_GROUPINFO("LOOP_DELAY", 55, SITL, loop_delay, 0),
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// @Path: ./SIM_Buzzer.cpp
AP_SUBGROUPINFO(buzzer_sim, "BZ_", 56, SITL, Buzzer),
// @Path: ./SIM_ToneAlarm.cpp
AP_SUBGROUPINFO(tonealarm_sim, "TA_", 57, SITL, ToneAlarm),
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AP_GROUPINFO("EFI_TYPE", 58, SITL, efi_type, SITL::EFI_TYPE_NONE),
AP_GROUPINFO("SAFETY_STATE", 59, SITL, _safety_switch_state, 0),
// max motor vibration frequency
AP_GROUPINFO("VIB_MOT_MAX", 61, SITL, vibe_motor, 0.0f),
// minimum throttle for simulated ins noise
AP_GROUPINFO("INS_THR_MIN", 62, SITL, ins_noise_throttle_min, 0.1f),
// amplitude scaling of motor noise relative to gyro/accel noise
AP_GROUPINFO("VIB_MOT_MULT", 63, SITL, vibe_motor_scale, 1.0f),
AP_GROUPEND
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};
// third table of user settable parameters for SITL.
const AP_Param::GroupInfo SITL::var_info3[] = {
AP_GROUPINFO("ODOM_ENABLE", 1, SITL, odom_enable, 0),
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AP_GROUPINFO("LED_LAYOUT", 11, SITL, led_layout, 0),
// Scenario for thermalling simulation, for soaring
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AP_GROUPINFO("THML_SCENARI", 12, SITL, thermal_scenario, 0),
// vicon sensor position (position offsets in body frame)
AP_GROUPINFO("VICON_POS", 14, SITL, vicon_pos_offset, 0),
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// Buyoancy for submarines
AP_GROUPINFO_FRAME("BUOYANCY", 15, SITL, buoyancy, 1, AP_PARAM_FRAME_SUB),
// vicon glitch in NED frame
AP_GROUPINFO("VICON_GLIT", 16, SITL, vicon_glitch, 0),
// vicon failure
AP_GROUPINFO("VICON_FAIL", 17, SITL, vicon_fail, 0),
// vicon yaw (in earth frame)
AP_GROUPINFO("VICON_YAW", 18, SITL, vicon_yaw, 0),
// vicon yaw error in degrees (added to reported yaw sent to vehicle)
AP_GROUPINFO("VICON_YAWERR", 19, SITL, vicon_yaw_error, 0),
// vicon message type mask
AP_GROUPINFO("VICON_TMASK", 20, SITL, vicon_type_mask, 3),
// vicon velocity glitch in NED frame
AP_GROUPINFO("VICON_VGLI", 21, SITL, vicon_vel_glitch, 0),
AP_GROUPINFO("RATE_HZ", 22, SITL, loop_rate_hz, 1200),
// count of simulated IMUs
AP_GROUPINFO("IMU_COUNT", 23, SITL, imu_count, 2),
// @Path: ./SIM_RichenPower.cpp
AP_SUBGROUPINFO(richenpower_sim, "RICH_", 31, SITL, RichenPower),
// @Path: ./SIM_IntelligentEnergy24.cpp
AP_SUBGROUPINFO(ie24_sim, "IE24_", 32, SITL, IntelligentEnergy24),
// user settable barometer parameters
AP_GROUPINFO("BARO_COUNT", 33, SITL, baro_count, 2),
AP_SUBGROUPINFO(baro[0], "BARO_", 34, SITL, SITL::BaroParm),
AP_SUBGROUPINFO(baro[1], "BAR2_", 35, SITL, SITL::BaroParm),
AP_SUBGROUPINFO(baro[2], "BAR3_", 36, SITL, SITL::BaroParm),
// user settable parameters for the 1st barometer
// @Param: BARO_RND
// @DisplayName: Baro Noise
// @Description: Amount of (evenly-distributed) noise injected into the 1st baro
// @Units: m
// @User: Advanced
// @Param: BARO_GLITCH
// @DisplayName: Baro Glitch
// @Description: Glitch for 1st baro
// @Units: m
// @User: Advanced
// user settable parameters for the 2nd barometer
// @Param: BAR2_RND
// @DisplayName: Baro2 Noise
// @Description: Amount of (evenly-distributed) noise injected into the 2nd baro
// @Units: m
// @User: Advanced
// @Param: BAR2_GLITCH
// @DisplayName: Baro2 Glitch
// @Description: Glitch for 2nd baro
// @Units: m
// @User: Advanced
// user settable parameters for the 3rd barometer
// @Param: BAR3_RND
// @DisplayName: Baro3 Noise
// @Description: Amount of (evenly-distributed) noise injected into the 3rd baro
// @Units: m
// @User: Advanced
// @Param: BAR3_GLITCH
// @DisplayName: Baro3 Glitch
// @Description: Glitch for 2nd baro
// @Units: m
// @User: Advanced
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AP_GROUPINFO("ESC_TELEM", 40, SITL, esc_telem, 1),
// user settable parameters for the 1st airspeed sensor
AP_GROUPINFO("ARSPD_RND", 50, SITL, arspd_noise[0], 2.0),
AP_GROUPINFO("ARSPD_OFS", 51, SITL, arspd_offset[0], 2013),
AP_GROUPINFO("ARSPD_FAIL", 52, SITL, arspd_fail[0], 0),
AP_GROUPINFO("ARSPD_FAILP", 53, SITL, arspd_fail_pressure[0], 0),
AP_GROUPINFO("ARSPD_PITOT", 54, SITL, arspd_fail_pitot_pressure[0], 0),
// user settable parameters for the 2nd airspeed sensor
AP_GROUPINFO("ARSPD2_RND", 56, SITL, arspd_noise[1], 2.0),
AP_GROUPINFO("ARSPD2_OFS", 57, SITL, arspd_offset[1], 2013),
AP_GROUPINFO("ARSPD2_FAIL", 58, SITL, arspd_fail[1], 0),
AP_GROUPINFO("ARSPD2_FAILP", 59, SITL, arspd_fail_pressure[1], 0),
AP_GROUPINFO("ARSPD2_PITOT", 60, SITL, arspd_fail_pitot_pressure[1], 0),
// user settable common airspeed parameters
AP_GROUPINFO("ARSPD_SIGN", 62, SITL, arspd_signflip, 0),
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#ifdef SFML_JOYSTICK
AP_SUBGROUPEXTENSION("", 63, SITL, var_sfml_joystick),
#endif // SFML_JOYSTICK
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AP_GROUPEND
};
// user settable parameters for the barometers
const AP_Param::GroupInfo SITL::BaroParm::var_info[] = {
AP_GROUPINFO("RND", 1, SITL::BaroParm, noise, 0.2f),
AP_GROUPINFO("DRIFT", 2, SITL::BaroParm, drift, 0),
AP_GROUPINFO("DISABLE", 3, SITL::BaroParm, disable, 0),
AP_GROUPINFO("GLITCH", 4, SITL::BaroParm, glitch, 0),
AP_GROUPINFO("FREEZE", 5, SITL::BaroParm, freeze, 0),
AP_GROUPINFO("DELAY", 6, SITL::BaroParm, delay, 0),
// wind coeffients
AP_GROUPINFO("WCF_FWD", 7, SITL::BaroParm, wcof_xp, 0.0),
AP_GROUPINFO("WCF_BAK", 8, SITL::BaroParm, wcof_xn, 0.0),
AP_GROUPINFO("WCF_RGT", 9, SITL::BaroParm, wcof_yp, 0.0),
AP_GROUPINFO("WCF_LFT", 10, SITL::BaroParm, wcof_yn, 0.0),
AP_GROUPEND
};
// GPS SITL parameters
const AP_Param::GroupInfo SITL::var_gps[] = {
AP_GROUPINFO("GPS_DISABLE", 1, SITL, gps_disable[0], 0),
AP_GROUPINFO("GPS_DELAY", 2, SITL, gps_delay[0], 1),
AP_GROUPINFO("GPS_TYPE", 3, SITL, gps_type[0], SITL::GPS_TYPE_UBLOX),
AP_GROUPINFO("GPS_BYTELOSS", 4, SITL, gps_byteloss[0], 0),
AP_GROUPINFO("GPS_NUMSATS", 5, SITL, gps_numsats[0], 10),
AP_GROUPINFO("GPS_GLITCH", 6, SITL, gps_glitch[0], 0),
AP_GROUPINFO("GPS_HZ", 7, SITL, gps_hertz[0], 5),
AP_GROUPINFO("GPS_DRIFTALT", 8, SITL, gps_drift_alt[0], 0),
AP_GROUPINFO("GPS_POS", 9, SITL, gps_pos_offset[0], 0),
AP_GROUPINFO("GPS_NOISE", 10, SITL, gps_noise[0], 0),
AP_GROUPINFO("GPS_LOCKTIME", 11, SITL, gps_lock_time[0], 0),
AP_GROUPINFO("GPS_ALT_OFS", 12, SITL, gps_alt_offset[0], 0),
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AP_GROUPINFO("GPS_HDG", 13, SITL, gps_hdg_enabled[0], SITL::GPS_HEADING_NONE),
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AP_GROUPINFO("GPS_ACC", 14, SITL, gps_accuracy[0], 0.3),
AP_GROUPINFO("GPS_VERR", 15, SITL, gps_vel_err[0], 0),
AP_GROUPINFO("GPS2_DISABLE", 30, SITL, gps_disable[1], 1),
AP_GROUPINFO("GPS2_DELAY", 31, SITL, gps_delay[1], 1),
AP_GROUPINFO("GPS2_TYPE", 32, SITL, gps_type[1], SITL::GPS_TYPE_UBLOX),
AP_GROUPINFO("GPS2_BYTELOS", 33, SITL, gps_byteloss[1], 0),
AP_GROUPINFO("GPS2_NUMSATS", 34, SITL, gps_numsats[1], 10),
AP_GROUPINFO("GPS2_GLTCH", 35, SITL, gps_glitch[1], 0),
AP_GROUPINFO("GPS2_HZ", 36, SITL, gps_hertz[1], 5),
AP_GROUPINFO("GPS2_DRFTALT", 37, SITL, gps_drift_alt[1], 0),
AP_GROUPINFO("GPS2_POS", 38, SITL, gps_pos_offset[1], 0),
AP_GROUPINFO("GPS2_NOISE", 39, SITL, gps_noise[1], 0),
AP_GROUPINFO("GPS2_LCKTIME", 40, SITL, gps_lock_time[1], 0),
AP_GROUPINFO("GPS2_ALT_OFS", 41, SITL, gps_alt_offset[1], 0),
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AP_GROUPINFO("GPS2_HDG", 42, SITL, gps_hdg_enabled[1], SITL::GPS_HEADING_NONE),
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AP_GROUPINFO("GPS2_ACC", 43, SITL, gps_accuracy[1], 0.3),
AP_GROUPINFO("GPS2_VERR", 44, SITL, gps_vel_err[1], 0),
AP_GROUPINFO("INIT_LAT_OFS", 45, SITL, gps_init_lat_ofs, 0),
AP_GROUPINFO("INIT_LON_OFS", 46, SITL, gps_init_lon_ofs, 0),
AP_GROUPINFO("INIT_ALT_OFS", 47, SITL, gps_init_alt_ofs, 0),
AP_GROUPEND
};
// Mag SITL parameters
const AP_Param::GroupInfo SITL::var_mag[] = {
AP_GROUPINFO("MAG_RND", 1, SITL, mag_noise, 0),
AP_GROUPINFO("MAG_MOT", 2, SITL, mag_mot, 0),
AP_GROUPINFO("MAG_DELAY", 3, SITL, mag_delay, 0),
AP_GROUPINFO("MAG_OFS", 4, SITL, mag_ofs[0], 0),
AP_GROUPINFO("MAG_ALY", 5, SITL, mag_anomaly_ned, 0),
AP_GROUPINFO("MAG_ALY_HGT", 6, SITL, mag_anomaly_hgt, 1.0f),
AP_GROUPINFO("MAG_DIA", 7, SITL, mag_diag[0], 0),
AP_GROUPINFO("MAG_ODI", 8, SITL, mag_offdiag[0], 0),
AP_GROUPINFO("MAG_ORIENT", 9, SITL, mag_orient[0], 0),
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AP_GROUPINFO("MAG1_SCALING", 10, SITL, mag_scaling[0], 1),
AP_GROUPINFO("MAG1_DEVID", 11, SITL, mag_devid[0], 97539),
AP_GROUPINFO("MAG2_DEVID", 12, SITL, mag_devid[1], 131874),
AP_GROUPINFO("MAG3_DEVID", 13, SITL, mag_devid[2], 263178),
AP_GROUPINFO("MAG4_DEVID", 14, SITL, mag_devid[3], 97283),
AP_GROUPINFO("MAG5_DEVID", 15, SITL, mag_devid[4], 97795),
AP_GROUPINFO("MAG6_DEVID", 16, SITL, mag_devid[5], 98051),
AP_GROUPINFO("MAG7_DEVID", 17, SITL, mag_devid[6], 0),
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AP_GROUPINFO("MAG8_DEVID", 18, SITL, mag_devid[7], 0),
AP_GROUPINFO("MAG1_FAIL", 26, SITL, mag_fail[0], 0),
#if HAL_COMPASS_MAX_SENSORS > 1
AP_GROUPINFO("MAG2_OFS", 19, SITL, mag_ofs[1], 0),
AP_GROUPINFO("MAG2_DIA", 20, SITL, mag_diag[1], 0),
AP_GROUPINFO("MAG2_ODI", 21, SITL, mag_offdiag[1], 0),
AP_GROUPINFO("MAG2_ORIENT", 22, SITL, mag_orient[1], 0),
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AP_GROUPINFO("MAG2_FAIL", 27, SITL, mag_fail[1], 0),
AP_GROUPINFO("MAG2_SCALING", 28, SITL, mag_scaling[1], 1),
#endif
#if HAL_COMPASS_MAX_SENSORS > 2
AP_GROUPINFO("MAG3_OFS", 23, SITL, mag_ofs[2], 0),
AP_GROUPINFO("MAG3_DIA", 24, SITL, mag_diag[2], 0),
AP_GROUPINFO("MAG3_ODI", 25, SITL, mag_offdiag[2], 0),
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AP_GROUPINFO("MAG3_FAIL", 29, SITL, mag_fail[2], 0),
AP_GROUPINFO("MAG3_SCALING", 30, SITL, mag_scaling[2], 1),
AP_GROUPINFO("MAG3_ORIENT", 36, SITL, mag_orient[2], 0),
#endif
AP_GROUPEND
};
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#ifdef SFML_JOYSTICK
const AP_Param::GroupInfo SITL::var_sfml_joystick[] = {
AP_GROUPINFO("SF_JS_STICK", 1, SITL, sfml_joystick_id, 0),
AP_GROUPINFO("SF_JS_AXIS1", 2, SITL, sfml_joystick_axis[0], sf::Joystick::Axis::X),
AP_GROUPINFO("SF_JS_AXIS2", 3, SITL, sfml_joystick_axis[1], sf::Joystick::Axis::Y),
AP_GROUPINFO("SF_JS_AXIS3", 4, SITL, sfml_joystick_axis[2], sf::Joystick::Axis::Z),
AP_GROUPINFO("SF_JS_AXIS4", 5, SITL, sfml_joystick_axis[3], sf::Joystick::Axis::U),
AP_GROUPINFO("SF_JS_AXIS5", 6, SITL, sfml_joystick_axis[4], sf::Joystick::Axis::V),
AP_GROUPINFO("SF_JS_AXIS6", 7, SITL, sfml_joystick_axis[5], sf::Joystick::Axis::R),
AP_GROUPINFO("SF_JS_AXIS7", 8, SITL, sfml_joystick_axis[6], sf::Joystick::Axis::PovX),
AP_GROUPINFO("SF_JS_AXIS8", 9, SITL, sfml_joystick_axis[7], sf::Joystick::Axis::PovY),
AP_GROUPEND
};
#endif //SFML_JOYSTICK
// INS SITL parameters
const AP_Param::GroupInfo SITL::var_ins[] = {
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AP_GROUPINFO("IMUT_START", 1, SITL, imu_temp_start, 25),
AP_GROUPINFO("IMUT_END", 2, SITL, imu_temp_end, 45),
AP_GROUPINFO("IMUT_TCONST", 3, SITL, imu_temp_tconst, 300),
AP_GROUPINFO("IMUT_FIXED", 4, SITL, imu_temp_fixed, 0),
AP_GROUPINFO("ACC1_BIAS", 5, SITL, accel_bias[0], 0),
AP_GROUPINFO("ACC2_BIAS", 6, SITL, accel_bias[1], 0),
AP_GROUPINFO("ACC3_BIAS", 7, SITL, accel_bias[2], 0),
AP_GROUPINFO("GYR1_RND", 8, SITL, gyro_noise[0], 0),
AP_GROUPINFO("GYR2_RND", 9, SITL, gyro_noise[1], 0),
AP_GROUPINFO("GYR3_RND", 10, SITL, gyro_noise[2], 0),
AP_GROUPINFO("ACC1_RND", 11, SITL, accel_noise[0], 0),
AP_GROUPINFO("ACC2_RND", 12, SITL, accel_noise[1], 0),
AP_GROUPINFO("ACC3_RND", 13, SITL, accel_noise[2], 0),
AP_GROUPINFO("GYR1_SCALE", 14, SITL, gyro_scale[0], 0),
AP_GROUPINFO("GYR2_SCALE", 15, SITL, gyro_scale[1], 0),
AP_GROUPINFO("GYR3_SCALE", 16, SITL, gyro_scale[2], 0),
AP_GROUPINFO("ACCEL1_FAIL", 17, SITL, accel_fail[0], 0),
AP_GROUPINFO("ACCEL2_FAIL", 18, SITL, accel_fail[1], 0),
AP_GROUPINFO("ACCEL3_FAIL", 19, SITL, accel_fail[2], 0),
AP_GROUPINFO("GYR_FAIL_MSK", 20, SITL, gyro_fail_mask, 0),
AP_GROUPINFO("ACC_FAIL_MSK", 21, SITL, accel_fail_mask, 0),
AP_GROUPINFO("ACC1_SCAL", 22, SITL, accel_scale[0], 0),
AP_GROUPINFO("ACC2_SCAL", 23, SITL, accel_scale[1], 0),
AP_GROUPINFO("ACC3_SCAL", 24, SITL, accel_scale[2], 0),
AP_GROUPINFO("ACC_TRIM", 25, SITL, accel_trim, 0),
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// @Param: SAIL_TYPE
// @DisplayName: Sailboat simulation sail type
// @Description: 0: mainsail with sheet, 1: directly actuated wing
AP_GROUPINFO("SAIL_TYPE", 26, SITL, sail_type, 0),
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// the IMUT parameters must be last due to the enable parameters
AP_SUBGROUPINFO(imu_tcal[0], "IMUT1_", 61, SITL, AP_InertialSensor::TCal),
AP_SUBGROUPINFO(imu_tcal[1], "IMUT2_", 62, SITL, AP_InertialSensor::TCal),
AP_SUBGROUPINFO(imu_tcal[2], "IMUT3_", 63, SITL, AP_InertialSensor::TCal),
AP_GROUPEND
};
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/* report SITL state via MAVLink SIMSTATE*/
void SITL::simstate_send(mavlink_channel_t chan) const
{
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float yaw;
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// convert to same conventions as DCM
yaw = state.yawDeg;
if (yaw > 180) {
yaw -= 360;
}
mavlink_msg_simstate_send(chan,
ToRad(state.rollDeg),
ToRad(state.pitchDeg),
ToRad(yaw),
state.xAccel,
state.yAccel,
state.zAccel,
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radians(state.rollRate),
radians(state.pitchRate),
radians(state.yawRate),
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state.latitude*1.0e7,
state.longitude*1.0e7);
}
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/* report SITL state via MAVLink SIM_STATE */
void SITL::sim_state_send(mavlink_channel_t chan) const
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{
// convert to same conventions as DCM
float yaw = state.yawDeg;
if (yaw > 180) {
yaw -= 360;
}
mavlink_msg_sim_state_send(chan,
state.quaternion.q1,
state.quaternion.q2,
state.quaternion.q3,
state.quaternion.q4,
ToRad(state.rollDeg),
ToRad(state.pitchDeg),
ToRad(yaw),
state.xAccel,
state.yAccel,
state.zAccel,
radians(state.rollRate),
radians(state.pitchRate),
radians(state.yawRate),
state.latitude*1.0e7,
state.longitude*1.0e7,
(float)state.altitude,
0.0,
0.0,
state.speedN,
state.speedE,
state.speedD);
}
/* report SITL state to AP_Logger */
void SITL::Log_Write_SIMSTATE()
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{
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float yaw;
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// convert to same conventions as DCM
yaw = state.yawDeg;
if (yaw > 180) {
yaw -= 360;
}
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struct log_AHRS pkt = {
LOG_PACKET_HEADER_INIT(LOG_SIMSTATE_MSG),
time_us : AP_HAL::micros64(),
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roll : (int16_t)(state.rollDeg*100),
pitch : (int16_t)(state.pitchDeg*100),
yaw : (uint16_t)(wrap_360_cd(yaw*100)),
alt : (float)state.altitude,
lat : (int32_t)(state.latitude*1.0e7),
lng : (int32_t)(state.longitude*1.0e7),
q1 : state.quaternion.q1,
q2 : state.quaternion.q2,
q3 : state.quaternion.q3,
q4 : state.quaternion.q4,
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};
AP::logger().WriteBlock(&pkt, sizeof(pkt));
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}
/*
convert a set of roll rates from earth frame to body frame
output values are in radians/second
*/
void SITL::convert_body_frame(double rollDeg, double pitchDeg,
double rollRate, double pitchRate, double yawRate,
double *p, double *q, double *r)
{
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double phi, theta, phiDot, thetaDot, psiDot;
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phi = ToRad(rollDeg);
theta = ToRad(pitchDeg);
phiDot = ToRad(rollRate);
thetaDot = ToRad(pitchRate);
psiDot = ToRad(yawRate);
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*p = phiDot - psiDot*sin(theta);
*q = cos(phi)*thetaDot + sin(phi)*psiDot*cos(theta);
*r = cos(phi)*psiDot*cos(theta) - sin(phi)*thetaDot;
}
/*
convert angular velocities from body frame to
earth frame.
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all inputs and outputs are in radians/s
*/
Vector3f SITL::convert_earth_frame(const Matrix3f &dcm, const Vector3f &gyro)
{
float p = gyro.x;
float q = gyro.y;
float r = gyro.z;
float phi, theta, psi;
dcm.to_euler(&phi, &theta, &psi);
float phiDot = p + tanf(theta)*(q*sinf(phi) + r*cosf(phi));
float thetaDot = q*cosf(phi) - r*sinf(phi);
if (fabsf(cosf(theta)) < 1.0e-20f) {
theta += 1.0e-10f;
}
float psiDot = (q*sinf(phi) + r*cosf(phi))/cosf(theta);
return Vector3f(phiDot, thetaDot, psiDot);
}
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// get the rangefinder reading for the desired rotation, returns -1 for no data
float SITL::get_rangefinder(uint8_t instance) {
if (instance < RANGEFINDER_MAX_INSTANCES) {
return state.rangefinder_m[instance];
}
return -1;
};
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} // namespace SITL
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namespace AP {
SITL::SITL *sitl()
{
return SITL::SITL::get_singleton();
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}
};
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#endif // CONFIG_HAL_BOARD