mirror of https://github.com/ArduPilot/ardupilot
298 lines
10 KiB
C++
298 lines
10 KiB
C++
#include "Sub.h"
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/*
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constructor for Mode object
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*/
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Mode::Mode(void) :
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g(sub.g),
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g2(sub.g2),
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inertial_nav(sub.inertial_nav),
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ahrs(sub.ahrs),
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motors(sub.motors),
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channel_roll(sub.channel_roll),
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channel_pitch(sub.channel_pitch),
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channel_throttle(sub.channel_throttle),
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channel_yaw(sub.channel_yaw),
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channel_forward(sub.channel_forward),
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channel_lateral(sub.channel_lateral),
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position_control(&sub.pos_control),
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attitude_control(&sub.attitude_control),
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G_Dt(sub.G_Dt)
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{ };
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// return the static controller object corresponding to supplied mode
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Mode *Sub::mode_from_mode_num(const Mode::Number mode)
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{
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Mode *ret = nullptr;
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switch (mode) {
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case Mode::Number::MANUAL:
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ret = &mode_manual;
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break;
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case Mode::Number::STABILIZE:
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ret = &mode_stabilize;
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break;
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case Mode::Number::ACRO:
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ret = &mode_acro;
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break;
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case Mode::Number::ALT_HOLD:
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ret = &mode_althold;
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break;
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case Mode::Number::SURFTRAK:
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ret = &mode_surftrak;
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break;
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case Mode::Number::POSHOLD:
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ret = &mode_poshold;
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break;
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case Mode::Number::AUTO:
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ret = &mode_auto;
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break;
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case Mode::Number::GUIDED:
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ret = &mode_guided;
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break;
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case Mode::Number::CIRCLE:
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ret = &mode_circle;
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break;
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case Mode::Number::SURFACE:
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ret = &mode_surface;
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break;
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case Mode::Number::MOTOR_DETECT:
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ret = &mode_motordetect;
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break;
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default:
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break;
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}
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return ret;
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}
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// set_mode - change flight mode and perform any necessary initialisation
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// optional force parameter used to force the flight mode change (used only first time mode is set)
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// returns true if mode was successfully set
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// Some modes can always be set successfully but the return state of other flight modes should be checked and the caller should deal with failures appropriately
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bool Sub::set_mode(Mode::Number mode, ModeReason reason)
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{
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// return immediately if we are already in the desired mode
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if (mode == control_mode) {
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control_mode_reason = reason;
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return true;
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}
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Mode *new_flightmode = mode_from_mode_num((Mode::Number)mode);
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if (new_flightmode == nullptr) {
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notify_no_such_mode((uint8_t)mode);
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return false;
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}
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if (new_flightmode->requires_GPS() &&
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!sub.position_ok()) {
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gcs().send_text(MAV_SEVERITY_WARNING, "Mode change failed: %s requires position", new_flightmode->name());
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LOGGER_WRITE_ERROR(LogErrorSubsystem::FLIGHT_MODE, LogErrorCode(mode));
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return false;
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}
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// check for valid altitude if old mode did not require it but new one does
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// we only want to stop changing modes if it could make things worse
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if (!sub.control_check_barometer() && // maybe use ekf_alt_ok() instead?
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flightmode->has_manual_throttle() &&
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!new_flightmode->has_manual_throttle()) {
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gcs().send_text(MAV_SEVERITY_WARNING, "Mode change failed: %s need alt estimate", new_flightmode->name());
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LOGGER_WRITE_ERROR(LogErrorSubsystem::FLIGHT_MODE, LogErrorCode(mode));
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return false;
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}
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if (!new_flightmode->init(false)) {
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gcs().send_text(MAV_SEVERITY_WARNING,"Flight mode change failed %s", new_flightmode->name());
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LOGGER_WRITE_ERROR(LogErrorSubsystem::FLIGHT_MODE, LogErrorCode(mode));
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return false;
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}
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// perform any cleanup required by previous flight mode
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exit_mode(flightmode, new_flightmode);
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// store previous flight mode
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prev_control_mode = control_mode;
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// update flight mode
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flightmode = new_flightmode;
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control_mode = mode;
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control_mode_reason = reason;
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#if HAL_LOGGING_ENABLED
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logger.Write_Mode((uint8_t)control_mode, reason);
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#endif
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gcs().send_message(MSG_HEARTBEAT);
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// update notify object
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notify_flight_mode();
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// return success
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return true;
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}
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// exit_mode - high level call to organise cleanup as a flight mode is exited
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void Sub::exit_mode(Mode::Number old_control_mode, Mode::Number new_control_mode)
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{
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// stop mission when we leave auto mode
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if (old_control_mode == Mode::Number::AUTO) {
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if (mission.state() == AP_Mission::MISSION_RUNNING) {
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mission.stop();
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}
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#if HAL_MOUNT_ENABLED
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camera_mount.set_mode_to_default();
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#endif // HAL_MOUNT_ENABLED
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}
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}
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bool Sub::set_mode(const uint8_t new_mode, const ModeReason reason)
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{
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static_assert(sizeof(Mode::Number) == sizeof(new_mode), "The new mode can't be mapped to the vehicles mode number");
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return sub.set_mode(static_cast<Mode::Number>(new_mode), reason);
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}
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// update_flight_mode - calls the appropriate attitude controllers based on flight mode
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// called at 100hz or more
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void Sub::update_flight_mode()
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{
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flightmode->run();
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}
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// exit_mode - high level call to organise cleanup as a flight mode is exited
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void Sub::exit_mode(Mode *&old_flightmode, Mode *&new_flightmode){
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#if HAL_MOUNT_ENABLED
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camera_mount.set_mode_to_default();
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#endif // HAL_MOUNT_ENABLED
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}
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// notify_flight_mode - sets notify object based on current flight mode. Only used for OreoLED notify device
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void Sub::notify_flight_mode()
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{
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AP_Notify::flags.autopilot_mode = flightmode->is_autopilot();
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AP_Notify::flags.flight_mode = (uint8_t)control_mode;
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notify.set_flight_mode_str(flightmode->name4());
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}
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// get_pilot_desired_angle_rates - transform pilot's roll pitch and yaw input into a desired lean angle rates
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// returns desired angle rates in centi-degrees-per-second
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void Mode::get_pilot_desired_angle_rates(int16_t roll_in, int16_t pitch_in, int16_t yaw_in, float &roll_out, float &pitch_out, float &yaw_out)
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{
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float rate_limit;
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Vector3f rate_ef_level, rate_bf_level, rate_bf_request;
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// apply circular limit to pitch and roll inputs
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float total_in = norm(pitch_in, roll_in);
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if (total_in > ROLL_PITCH_INPUT_MAX) {
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float ratio = (float)ROLL_PITCH_INPUT_MAX / total_in;
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roll_in *= ratio;
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pitch_in *= ratio;
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}
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// calculate roll, pitch rate requests
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if (g.acro_expo <= 0) {
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rate_bf_request.x = roll_in * g.acro_rp_p;
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rate_bf_request.y = pitch_in * g.acro_rp_p;
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} else {
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// expo variables
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float rp_in, rp_in3, rp_out;
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// range check expo
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if (g.acro_expo > 1.0f) {
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g.acro_expo.set(1.0f);
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}
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// roll expo
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rp_in = float(roll_in)/ROLL_PITCH_INPUT_MAX;
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rp_in3 = rp_in*rp_in*rp_in;
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rp_out = (g.acro_expo * rp_in3) + ((1 - g.acro_expo) * rp_in);
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rate_bf_request.x = ROLL_PITCH_INPUT_MAX * rp_out * g.acro_rp_p;
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// pitch expo
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rp_in = float(pitch_in)/ROLL_PITCH_INPUT_MAX;
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rp_in3 = rp_in*rp_in*rp_in;
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rp_out = (g.acro_expo * rp_in3) + ((1 - g.acro_expo) * rp_in);
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rate_bf_request.y = ROLL_PITCH_INPUT_MAX * rp_out * g.acro_rp_p;
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}
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// calculate yaw rate request
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rate_bf_request.z = yaw_in * g.acro_yaw_p;
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// calculate earth frame rate corrections to pull the vehicle back to level while in ACRO mode
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if (g.acro_trainer != ACRO_TRAINER_DISABLED) {
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// Calculate trainer mode earth frame rate command for roll
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int32_t roll_angle = wrap_180_cd(ahrs.roll_sensor);
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rate_ef_level.x = -constrain_int32(roll_angle, -ACRO_LEVEL_MAX_ANGLE, ACRO_LEVEL_MAX_ANGLE) * g.acro_balance_roll;
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// Calculate trainer mode earth frame rate command for pitch
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int32_t pitch_angle = wrap_180_cd(ahrs.pitch_sensor);
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rate_ef_level.y = -constrain_int32(pitch_angle, -ACRO_LEVEL_MAX_ANGLE, ACRO_LEVEL_MAX_ANGLE) * g.acro_balance_pitch;
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// Calculate trainer mode earth frame rate command for yaw
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rate_ef_level.z = 0;
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// Calculate angle limiting earth frame rate commands
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if (g.acro_trainer == ACRO_TRAINER_LIMITED) {
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if (roll_angle > sub.aparm.angle_max) {
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rate_ef_level.x -= g.acro_balance_roll*(roll_angle-sub.aparm.angle_max);
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} else if (roll_angle < -sub.aparm.angle_max) {
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rate_ef_level.x -= g.acro_balance_roll*(roll_angle+sub.aparm.angle_max);
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}
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if (pitch_angle > sub.aparm.angle_max) {
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rate_ef_level.y -= g.acro_balance_pitch*(pitch_angle-sub.aparm.angle_max);
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} else if (pitch_angle < -sub.aparm.angle_max) {
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rate_ef_level.y -= g.acro_balance_pitch*(pitch_angle+sub.aparm.angle_max);
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}
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}
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// convert earth-frame level rates to body-frame level rates
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attitude_control->euler_rate_to_ang_vel(attitude_control->get_attitude_target_quat(), rate_ef_level, rate_bf_level);
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// combine earth frame rate corrections with rate requests
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if (g.acro_trainer == ACRO_TRAINER_LIMITED) {
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rate_bf_request.x += rate_bf_level.x;
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rate_bf_request.y += rate_bf_level.y;
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rate_bf_request.z += rate_bf_level.z;
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} else {
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float acro_level_mix = constrain_float(1-MAX(MAX(abs(roll_in), abs(pitch_in)), abs(yaw_in))/4500.0, 0, 1)*ahrs.cos_pitch();
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// Scale leveling rates by stick input
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rate_bf_level = rate_bf_level*acro_level_mix;
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// Calculate rate limit to prevent change of rate through inverted
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rate_limit = fabsf(fabsf(rate_bf_request.x)-fabsf(rate_bf_level.x));
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rate_bf_request.x += rate_bf_level.x;
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rate_bf_request.x = constrain_float(rate_bf_request.x, -rate_limit, rate_limit);
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// Calculate rate limit to prevent change of rate through inverted
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rate_limit = fabsf(fabsf(rate_bf_request.y)-fabsf(rate_bf_level.y));
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rate_bf_request.y += rate_bf_level.y;
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rate_bf_request.y = constrain_float(rate_bf_request.y, -rate_limit, rate_limit);
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// Calculate rate limit to prevent change of rate through inverted
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rate_limit = fabsf(fabsf(rate_bf_request.z)-fabsf(rate_bf_level.z));
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rate_bf_request.z += rate_bf_level.z;
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rate_bf_request.z = constrain_float(rate_bf_request.z, -rate_limit, rate_limit);
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}
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}
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// hand back rate request
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roll_out = rate_bf_request.x;
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pitch_out = rate_bf_request.y;
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yaw_out = rate_bf_request.z;
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}
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bool Mode::set_mode(Mode::Number mode, ModeReason reason)
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{
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return sub.set_mode(mode, reason);
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}
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GCS_Sub &Mode::gcs()
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{
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return sub.gcs();
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}
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