ardupilot/libraries/SITL/SITL.cpp

/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
/*
	SITL.cpp - software in the loop state

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public License
    as published by the Free Software Foundation; either version 2.1
    of the License, or (at your option) any later version.
*/

#include <AP_Common.h>
#include <GCS_MAVLink.h>
#include <SITL.h>

// table of user settable parameters
const AP_Param::GroupInfo SITL::var_info[] PROGMEM = {
    AP_GROUPINFO("BARO_RND",   0, SITL,  baro_noise,  3),
    AP_GROUPINFO("GYR_RND",    1, SITL,  gyro_noise, 30),
    AP_GROUPINFO("ACC_RND",    2, SITL,  accel_noise, 3),
    AP_GROUPINFO("MAG_RND",    3, SITL,  mag_noise,  10),
    AP_GROUPINFO("GPS_DISABLE",4, SITL,  gps_disable, 0),
    AP_GROUPINFO("DRIFT_SPEED",5, SITL,  drift_speed, 0.2),
    AP_GROUPINFO("DRIFT_TIME", 6, SITL,  drift_time,  5),
    AP_GROUPINFO("GPS_DELAY",  7, SITL,  gps_delay,   4),
    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,  0.2),
    AP_GROUPINFO("GPS_TYPE",  12, SITL,  gps_type,  SITL::GPS_TYPE_UBLOX),
    AP_GROUPINFO("GPS_BYTELOSS",  13, SITL,  gps_byteloss,  0),
    AP_GROUPINFO("GPS_NUMSATS",   14, SITL,  gps_numsats,   10),
    AP_GROUPINFO("MAG_ERROR",     15, SITL,  mag_error,  0),
    AP_GROUPEND
};


/* report SITL state via MAVLink */
void SITL::simstate_send(mavlink_channel_t chan)
{
	double p, q, r;
	float yaw;

	// we want the gyro values to be directly comparable to the
	// raw_imu message, which is in body frame
	convert_body_frame(state.rollDeg, state.pitchDeg,
                       state.rollRate, state.pitchRate, state.yawRate,
                       &p, &q, &r);

	// 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,
                              p, q, r,
                              state.latitude*1.0e7,
                              state.longitude*1.0e7);
}

// convert a set of roll rates from earth frame to body frame
void SITL::convert_body_frame(double rollDeg, double pitchDeg,
                              double rollRate, double pitchRate, double yawRate,
                              double *p, double *q, double *r)
{
	double phi, theta, phiDot, thetaDot, psiDot;

	phi = ToRad(rollDeg);
	theta = ToRad(pitchDeg);
	phiDot = ToRad(rollRate);
	thetaDot = ToRad(pitchRate);
	psiDot = ToRad(yawRate);

	*p = phiDot - psiDot*sin(theta);
	*q = cos(phi)*thetaDot + sin(phi)*psiDot*cos(theta);
	*r = cos(phi)*psiDot*cos(theta) - sin(phi)*thetaDot;    
}
SITL: added SITL class for controlling simulation this holds mavlink settable parameters for controlling sensor noise levels 2012-06-29 02:06:28 -03:00			`/// -- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil --`
			`/*`
			`SITL.cpp - software in the loop state`

			`This library is free software; you can redistribute it and/or`
			`modify it under the terms of the GNU Lesser General Public License`
			`as published by the Free Software Foundation; either version 2.1`
			`of the License, or (at your option) any later version.`
			`*/`

			`#include <AP_Common.h>`
			`#include <GCS_MAVLink.h>`
			`#include <SITL.h>`

			`// table of user settable parameters`
			`const AP_Param::GroupInfo SITL::var_info[] PROGMEM = {`
AP_Param: update remaining libraries for new constructor syntax 2012-08-06 22:02:14 -03:00			`AP_GROUPINFO("BARO_RND", 0, SITL, baro_noise, 3),`
			`AP_GROUPINFO("GYR_RND", 1, SITL, gyro_noise, 30),`
			`AP_GROUPINFO("ACC_RND", 2, SITL, accel_noise, 3),`
			`AP_GROUPINFO("MAG_RND", 3, SITL, mag_noise, 10),`
			`AP_GROUPINFO("GPS_DISABLE",4, SITL, gps_disable, 0),`
			`AP_GROUPINFO("DRIFT_SPEED",5, SITL, drift_speed, 0.2),`
			`AP_GROUPINFO("DRIFT_TIME", 6, SITL, drift_time, 5),`
			`AP_GROUPINFO("GPS_DELAY", 7, SITL, gps_delay, 4),`
SITL: added SIM_ENGINE_MUL this allows for simulated engine failures 2012-08-17 01:21:43 -03:00			`AP_GROUPINFO("ENGINE_MUL", 8, SITL, engine_mul, 1),`
SITL: change default wind speed to zero makes starting SITL easier for new users 2013-04-16 22:39:23 -03:00			`AP_GROUPINFO("WIND_SPD", 9, SITL, wind_speed, 0),`
SITL: added SIM_WIND_* parameters this allows control of the simulated wind during a flight 2012-08-24 08:22:20 -03:00			`AP_GROUPINFO("WIND_DIR", 10, SITL, wind_direction, 180),`
			`AP_GROUPINFO("WIND_TURB", 11, SITL, wind_turbulance, 0.2),`
SITL: added SIM_GPS_TYPE control for choosing what sort of GPS to simulate 2013-02-16 05:15:57 -04:00			`AP_GROUPINFO("GPS_TYPE", 12, SITL, gps_type, SITL::GPS_TYPE_UBLOX),`
SITL: added SIM_GPS_BYTELOSS option this allows testing of protocol recovery after losing bytes on the GPS serial link 2013-02-16 07:00:16 -04:00			`AP_GROUPINFO("GPS_BYTELOSS", 13, SITL, gps_byteloss, 0),`
SITL: added SIM_GPS_NUMSATS parameter this allows testing of the DCM code with less than 6 satellites 2013-05-06 21:38:36 -03:00			`AP_GROUPINFO("GPS_NUMSATS", 14, SITL, gps_numsats, 10),`
SITL: added SIM_MAG_ERROR parameter this is a compass yaw error in degrees, used for testing navigation with a bad compass 2013-05-27 00:37:18 -03:00			`AP_GROUPINFO("MAG_ERROR", 15, SITL, mag_error, 0),`
SITL: added SITL class for controlling simulation this holds mavlink settable parameters for controlling sensor noise levels 2012-06-29 02:06:28 -03:00			`AP_GROUPEND`
			`};`



			`/* report SITL state via MAVLink */`
			`void SITL::simstate_send(mavlink_channel_t chan)`
			`{`
			`double p, q, r;`
			`float yaw;`

			`// we want the gyro values to be directly comparable to the`
			`// raw_imu message, which is in body frame`
			`convert_body_frame(state.rollDeg, state.pitchDeg,`
			`state.rollRate, state.pitchRate, state.yawRate,`
			`&p, &q, &r);`

			`// 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,`
SITL: fill in SIMSTATE.lat and SIMSTATE.lng 2012-08-10 22:58:25 -03:00			`p, q, r,`
SITL: update for new SIMSTATE message 2013-08-14 01:27:39 -03:00			`state.latitude*1.0e7,`
			`state.longitude*1.0e7);`
SITL: added SITL class for controlling simulation this holds mavlink settable parameters for controlling sensor noise levels 2012-06-29 02:06:28 -03:00			`}`

			`// convert a set of roll rates from earth frame to body frame`
			`void SITL::convert_body_frame(double rollDeg, double pitchDeg,`
			`double rollRate, double pitchRate, double yawRate,`
			`double p, double q, double *r)`
			`{`
			`double phi, theta, phiDot, thetaDot, psiDot;`

			`phi = ToRad(rollDeg);`
			`theta = ToRad(pitchDeg);`
			`phiDot = ToRad(rollRate);`
			`thetaDot = ToRad(pitchRate);`
			`psiDot = ToRad(yawRate);`

			`p = phiDot - psiDotsin(theta);`
			`q = cos(phi)thetaDot + sin(phi)psiDotcos(theta);`
			`r = cos(phi)psiDotcos(theta) - sin(phi)thetaDot;`
			`}`