#include "Plane.h" #include "RC_Channel.h" // defining these two macros and including the RC_Channels_VarInfo // header defines the parameter information common to all vehicle // types #define RC_CHANNELS_SUBCLASS RC_Channels_Plane #define RC_CHANNEL_SUBCLASS RC_Channel_Plane #include // note that this callback is not presently used on Plane: int8_t RC_Channels_Plane::flight_mode_channel_number() const { return plane.g.flight_mode_channel.get(); } bool RC_Channels_Plane::has_valid_input() const { if (plane.rc_failsafe_active() || plane.failsafe.rc_failsafe) { return false; } if (plane.failsafe.throttle_counter != 0) { return false; } return true; } RC_Channel * RC_Channels_Plane::get_arming_channel(void) const { return plane.channel_rudder; } void RC_Channel_Plane::do_aux_function_change_mode(const Mode::Number number, const AuxSwitchPos ch_flag) { switch(ch_flag) { case AuxSwitchPos::HIGH: { // engage mode (if not possible we remain in current flight mode) const bool success = plane.set_mode_by_number(number, ModeReason::RC_COMMAND); if (plane.control_mode != &plane.mode_initializing) { if (success) { AP_Notify::events.user_mode_change = 1; } else { AP_Notify::events.user_mode_change_failed = 1; } } break; } default: // return to flight mode switch's flight mode if we are currently // in this mode if (plane.control_mode->mode_number() == number) { // TODO: rc().reset_mode_switch(); plane.reset_control_switch(); } } } void RC_Channel_Plane::do_aux_function_q_assist_state(AuxSwitchPos ch_flag) { switch(ch_flag) { case AuxSwitchPos::HIGH: gcs().send_text(MAV_SEVERITY_INFO, "QAssist: Force enabled"); plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_FORCE); break; case AuxSwitchPos::MIDDLE: gcs().send_text(MAV_SEVERITY_INFO, "QAssist: Enabled"); plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_ENABLED); break; case AuxSwitchPos::LOW: gcs().send_text(MAV_SEVERITY_INFO, "QAssist: Disabled"); plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_DISABLED); break; } } void RC_Channel_Plane::do_aux_function_crow_mode(AuxSwitchPos ch_flag) { switch(ch_flag) { case AuxSwitchPos::HIGH: plane.crow_mode = Plane::CrowMode::CROW_DISABLED; gcs().send_text(MAV_SEVERITY_INFO, "Crow Flaps Disabled"); break; case AuxSwitchPos::MIDDLE: gcs().send_text(MAV_SEVERITY_INFO, "Progressive Crow Flaps"); plane.crow_mode = Plane::CrowMode::PROGRESSIVE; break; case AuxSwitchPos::LOW: plane.crow_mode = Plane::CrowMode::NORMAL; gcs().send_text(MAV_SEVERITY_INFO, "Normal Crow Flaps"); break; } } void RC_Channel_Plane::do_aux_function_soaring_3pos(AuxSwitchPos ch_flag) { #if HAL_SOARING_ENABLED SoaringController::ActiveStatus desired_state = SoaringController::ActiveStatus::SOARING_DISABLED; switch (ch_flag) { case AuxSwitchPos::LOW: desired_state = SoaringController::ActiveStatus::SOARING_DISABLED; break; case AuxSwitchPos::MIDDLE: desired_state = SoaringController::ActiveStatus::MANUAL_MODE_CHANGE; break; case AuxSwitchPos::HIGH: desired_state = SoaringController::ActiveStatus::AUTO_MODE_CHANGE; break; } plane.g2.soaring_controller.set_pilot_desired_state(desired_state); #endif } void RC_Channel_Plane::do_aux_function_flare(AuxSwitchPos ch_flag) { switch(ch_flag) { case AuxSwitchPos::HIGH: plane.flare_mode = Plane::FlareMode::ENABLED_PITCH_TARGET; plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_DISABLED); break; case AuxSwitchPos::MIDDLE: plane.flare_mode = Plane::FlareMode::ENABLED_NO_PITCH_TARGET; plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_DISABLED); break; case AuxSwitchPos::LOW: plane.quadplane.set_q_assist_state(plane.quadplane.Q_ASSIST_STATE_ENUM::Q_ASSIST_ENABLED); plane.flare_mode = Plane::FlareMode::FLARE_DISABLED; break; } } void RC_Channel_Plane::do_aux_function_mission_reset(const AuxSwitchPos ch_flag) { plane.mission.start(); plane.prev_WP_loc = plane.current_loc; } void RC_Channel_Plane::init_aux_function(const RC_Channel::aux_func_t ch_option, const RC_Channel::AuxSwitchPos ch_flag) { switch(ch_option) { // the following functions do not need to be initialised: case AUX_FUNC::AUTO: case AUX_FUNC::CIRCLE: case AUX_FUNC::ACRO: case AUX_FUNC::TRAINING: case AUX_FUNC::FLAP: case AUX_FUNC::GUIDED: case AUX_FUNC::INVERTED: case AUX_FUNC::LOITER: case AUX_FUNC::MANUAL: case AUX_FUNC::RTL: case AUX_FUNC::TAKEOFF: case AUX_FUNC::FBWA: case AUX_FUNC::FBWA_TAILDRAGGER: case AUX_FUNC::FWD_THR: case AUX_FUNC::LANDING_FLARE: case AUX_FUNC::PARACHUTE_RELEASE: case AUX_FUNC::MODE_SWITCH_RESET: break; case AUX_FUNC::Q_ASSIST: case AUX_FUNC::SOARING: case AUX_FUNC::AIRMODE: #if AP_AIRSPEED_AUTOCAL_ENABLE case AUX_FUNC::ARSPD_CALIBRATE: #endif case AUX_FUNC::TER_DISABLE: case AUX_FUNC::CROW_SELECT: run_aux_function(ch_option, ch_flag, AuxFuncTriggerSource::INIT); break; case AUX_FUNC::REVERSE_THROTTLE: plane.have_reverse_throttle_rc_option = true; // setup input throttle as a range. This is needed as init_aux_function is called // after set_control_channels() if (plane.channel_throttle) { plane.channel_throttle->set_range(100); } // note that we don't call do_aux_function() here as we don't // want to startup with reverse thrust break; default: // handle in parent class RC_Channel::init_aux_function(ch_option, ch_flag); break; } } // do_aux_function - implement the function invoked by auxillary switches bool RC_Channel_Plane::do_aux_function(const aux_func_t ch_option, const AuxSwitchPos ch_flag) { switch(ch_option) { case AUX_FUNC::INVERTED: plane.inverted_flight = (ch_flag == AuxSwitchPos::HIGH); break; case AUX_FUNC::REVERSE_THROTTLE: plane.reversed_throttle = (ch_flag == AuxSwitchPos::HIGH); gcs().send_text(MAV_SEVERITY_INFO, "RevThrottle: %s", plane.reversed_throttle?"ENABLE":"DISABLE"); break; case AUX_FUNC::AUTO: do_aux_function_change_mode(Mode::Number::AUTO, ch_flag); break; case AUX_FUNC::CIRCLE: do_aux_function_change_mode(Mode::Number::CIRCLE, ch_flag); break; case AUX_FUNC::ACRO: do_aux_function_change_mode(Mode::Number::ACRO, ch_flag); break; case AUX_FUNC::TRAINING: do_aux_function_change_mode(Mode::Number::TRAINING, ch_flag); break; case AUX_FUNC::LOITER: do_aux_function_change_mode(Mode::Number::LOITER, ch_flag); break; case AUX_FUNC::GUIDED: do_aux_function_change_mode(Mode::Number::GUIDED, ch_flag); break; case AUX_FUNC::MANUAL: do_aux_function_change_mode(Mode::Number::MANUAL, ch_flag); break; case AUX_FUNC::RTL: do_aux_function_change_mode(Mode::Number::RTL, ch_flag); break; case AUX_FUNC::TAKEOFF: do_aux_function_change_mode(Mode::Number::TAKEOFF, ch_flag); break; case AUX_FUNC::FBWA: do_aux_function_change_mode(Mode::Number::FLY_BY_WIRE_A, ch_flag); break; case AUX_FUNC::SOARING: do_aux_function_soaring_3pos(ch_flag); break; case AUX_FUNC::FLAP: case AUX_FUNC::FBWA_TAILDRAGGER: break; // input labels, nothing to do case AUX_FUNC::Q_ASSIST: do_aux_function_q_assist_state(ch_flag); break; case AUX_FUNC::FWD_THR: break; // VTOL forward throttle input label, nothing to do case AUX_FUNC::TER_DISABLE: switch (ch_flag) { case AuxSwitchPos::HIGH: plane.non_auto_terrain_disable = true; if (plane.control_mode->allows_terrain_disable()) { plane.set_target_altitude_current(); } break; case AuxSwitchPos::MIDDLE: break; case AuxSwitchPos::LOW: plane.non_auto_terrain_disable = false; if (plane.control_mode->allows_terrain_disable()) { plane.set_target_altitude_current(); } break; } gcs().send_text(MAV_SEVERITY_INFO, "NON AUTO TERRN: %s", plane.non_auto_terrain_disable?"OFF":"ON"); break; case AUX_FUNC::CROW_SELECT: do_aux_function_crow_mode(ch_flag); break; case AUX_FUNC::AIRMODE: switch (ch_flag) { case AuxSwitchPos::HIGH: plane.quadplane.air_mode = AirMode::ON; break; case AuxSwitchPos::MIDDLE: break; case AuxSwitchPos::LOW: plane.quadplane.air_mode = AirMode::OFF; break; } break; case AUX_FUNC::ARSPD_CALIBRATE: #if AP_AIRSPEED_AUTOCAL_ENABLE switch (ch_flag) { case AuxSwitchPos::HIGH: plane.airspeed.set_calibration_enabled(true); break; case AuxSwitchPos::MIDDLE: break; case AuxSwitchPos::LOW: plane.airspeed.set_calibration_enabled(false); break; } #endif break; case AUX_FUNC::LANDING_FLARE: do_aux_function_flare(ch_flag); break; case AUX_FUNC::PARACHUTE_RELEASE: #if PARACHUTE == ENABLED plane.parachute_manual_release(); #endif break; case AUX_FUNC::MODE_SWITCH_RESET: plane.reset_control_switch(); break; default: return RC_Channel::do_aux_function(ch_option, ch_flag); } return true; }