/** ****************************************************************************** * @addtogroup OpenPilotModules OpenPilot Modules * @{ * @addtogroup PathFollower FSM * @brief Executes landing sequence via an FSM * @{ * * @file vtollandfsm.h * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2015. * @brief Executes FSM for landing sequence * * @see The GNU Public License (GPL) Version 3 * *****************************************************************************/ /* * 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, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef VTOLAUTOTAKEOFFFSM_H #define VTOLAUTOTAKEOFFFSM_H extern "C" { #include "statusvtolautotakeoff.h" } #include "pathfollowerfsm.h" // AutoTakeoffing state machine typedef enum { AUTOTAKEOFF_STATE_INACTIVE = 0, // Inactive state is the initialised state on startup AUTOTAKEOFF_STATE_CHECKSTATE, // Initial condition checks AUTOTAKEOFF_STATE_SLOWSTART, // Slow start motors AUTOTAKEOFF_STATE_THRUSTUP, // Ramp motors up to neutral thrust AUTOTAKEOFF_STATE_TAKEOFF, // Ascend to target velocity AUTOTAKEOFF_STATE_HOLD, // Hold position as completion of the sequence AUTOTAKEOFF_STATE_THRUSTDOWN, // Thrust down sequence AUTOTAKEOFF_STATE_THRUSTOFF, // Thrust is now off AUTOTAKEOFF_STATE_DISARMED, // Disarmed AUTOTAKEOFF_STATE_ABORT, // Abort on error triggerig fallback to hold AUTOTAKEOFF_STATE_SIZE } PathFollowerFSM_AutoTakeoffState_T; class VtolAutoTakeoffFSM : public PathFollowerFSM { private: static VtolAutoTakeoffFSM *p_inst; VtolAutoTakeoffFSM(); public: static VtolAutoTakeoffFSM *instance() { if (!p_inst) { p_inst = new VtolAutoTakeoffFSM(); } return p_inst; } int32_t Initialize(VtolPathFollowerSettingsData *vtolPathFollowerSettings, PathDesiredData *pathDesired, FlightStatusData *flightStatus); void Inactive(void); void Activate(void); void Update(void); void BoundThrust(float &ulow, float &uhigh); PathFollowerFSMState_T GetCurrentState(void); void ConstrainStabiDesired(StabilizationDesiredData *stabDesired); void Abort(void); uint8_t PositionHoldState(void); void setControlState(StatusVtolAutoTakeoffControlStateOptions controlState); protected: // FSM instance data type typedef struct { StatusVtolAutoTakeoffData fsmAutoTakeoffStatus; StatusVtolAutoTakeoffStateOptions currentState; TakeOffLocationData takeOffLocation; uint32_t stateRunCount; uint32_t stateTimeoutCount; float sum1; float sum2; float expectedAutoTakeoffPositionNorth; float expectedAutoTakeoffPositionEast; float thrustLimit; float boundThrustMin; float boundThrustMax; uint8_t observationCount; uint8_t observation2Count; uint8_t flZeroStabiHorizontal; uint8_t flConstrainThrust; uint8_t flLowAltitude; uint8_t flAltitudeHold; } VtolAutoTakeoffFSMData_T; // FSM state structure typedef struct { void(VtolAutoTakeoffFSM::*setup) (void); // Called to initialise the state void(VtolAutoTakeoffFSM::*run) (uint8_t); // Run the event detection code for a state } PathFollowerFSM_AutoTakeoffStateHandler_T; // Private variables VtolAutoTakeoffFSMData_T *mAutoTakeoffData; VtolPathFollowerSettingsData *vtolPathFollowerSettings; PathDesiredData *pathDesired; FlightStatusData *flightStatus; void setup_inactive(void); void setup_checkstate(void); void setup_slowstart(void); void run_slowstart(uint8_t); void setup_takeoff(void); void run_takeoff(uint8_t); void setup_hold(void); void run_hold(uint8_t); void setup_thrustup(void); void run_thrustup(uint8_t); void setup_thrustdown(void); void run_thrustdown(uint8_t); void setup_thrustoff(void); void run_thrustoff(uint8_t); void setup_disarmed(void); void run_disarmed(uint8_t); void setup_abort(void); void run_abort(uint8_t); void initFSM(void); void setState(StatusVtolAutoTakeoffStateOptions newState, StatusVtolAutoTakeoffStateExitReasonOptions reason); int32_t runState(); int32_t runAlways(); void updateVtolAutoTakeoffFSMStatus(); void assessAltitude(void); void setStateTimeout(int32_t count); void fallback_to_hold(void); static PathFollowerFSM_AutoTakeoffStateHandler_T sAutoTakeoffStateTable[AUTOTAKEOFF_STATE_SIZE]; }; #endif // VTOLAUTOTAKEOFFFSM_H