// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- /// @brief Imposes limits on location (geofence), altitude and other parameters. /// Each breach will trigger an action or set of actions to recover. Adapted from geofence. /// @author Andrew Tridgell /// Andreas Antonopoulos #ifndef AP_LIMITS_H #define AP_LIMITS_H #ifndef AP_LIMITS #define AP_LIMITS ENABLED #endif #include #include #include // MAVLink messages, trying to pull into library //#include "../GCS_MAVLink/include/mavlink/v1.0/protocol.h" //#include "../GCS_MAVLink/include/mavlink/v1.0/mavlink_types.h" //#include "../GCS_MAVLink/include/mavlink/v1.0/common/mavlink.h" //#include "../GCS_MAVLink/include/mavlink/v1.0/ardupilotmega/mavlink_msg_limits_status.h" #ifndef HAVE_ENUM_LIMITS_STATE #define HAVE_ENUM_LIMITS_STATE enum LimitState { LIMITS_INIT, // pre-initialization LIMITS_DISABLED, // disabled LIMITS_ENABLED, // checking limits LIMITS_TRIGGERED, // a limit has been breached LIMITS_RECOVERING, // taking action, eg. RTL LIMITS_RECOVERED, // we're no longer in breach of a limit }; #endif class AP_Limits { public: AP_Limits(); // access functions bool enabled(); bool debug(); bool required(); AP_Int8 state(); AP_Int8 safetime(); AP_Int8 channel(); AP_Int8 recmode(); // module linked list management methods void modules(AP_Limit_Module *m); // pointer to the first module in linked list of modules AP_Limit_Module * modules_first(); AP_Limit_Module * modules_current(); AP_Limit_Module * modules_last(); AP_Limit_Module * modules_next(); void modules_add(AP_Limit_Module *m); uint8_t modules_count(); // main limit methods bool init(); // initialize self and all modules void set_state(int s); // change state bool check_all(); // check if any limit is triggered bool check_required(); // check if any of the required modules is triggered bool check_triggered(bool required); // the function that does the checking for the two above uint32_t last_trigger; // time of last limit breach (trigger) uint32_t last_action; // time of last recovery action taken uint32_t last_recovery; // time of last recovery success uint32_t last_status_update; // time of last recovery success uint32_t last_clear; // last time all triggers were clear (or 0 if never clear) uint16_t breach_count; // count of total breaches byte old_mode_switch; LimitModuleBits mods_enabled; LimitModuleBits mods_required; LimitModuleBits mods_triggered; LimitModuleBits mods_recovering; static const struct AP_Param::GroupInfo var_info[]; // module parameters protected: AP_Int8 _enabled; // the entire AP_Limits system on/off switch AP_Int8 _required; // master switch for pre-arm checks of limits. Will not allow vehicle to "arm" if breaching limits. AP_Int8 _debug; // enable debug console messages AP_Int8 _safetime; // how long after recovered before switching to stabilize AP_Int8 _state; // overall state - used in the main loop state machine inside the vehicle's slow loop. AP_Int8 _channel; // channel used for switching limits on/off AP_Int8 _recmode; // recovery mode: 0=RTL mode, 1=bounce mode private: AP_Limit_Module * _modules_head; // points to linked list of modules AP_Limit_Module * _modules_current; // points to linked list of modules uint8_t _modules_count; }; #endif // AP_LIMITS_H