/* * AP_MavlinkCommand.h * * Created on: Apr 4, 2011 * Author: jgoppert */ #ifndef AP_MAVLINKCOMMAND_H_ #define AP_MAVLINKCOMMAND_H_ #include "../GCS_MAVLink/GCS_MAVLink.h" #include "../AP_Common/AP_Common.h" #include "AP_Var_keys.h" #include "constants.h" namespace apo { class AP_MavlinkCommand { private: struct CommandStorage { MAV_CMD command; bool autocontinue; MAV_FRAME frame; float param1; float param2; float param3; float param4; float x; float y; float z; }; AP_VarS _data; uint16_t _seq; public: static AP_MavlinkCommand home; /** * Copy Constructor */ AP_MavlinkCommand(const AP_MavlinkCommand & v); /** * Basic Constructor * @param index Start at zero. */ AP_MavlinkCommand(uint16_t index, bool doLoad = true); /** * Constructor for copying/ saving from a mavlink waypoint. * @param cmd The mavlink_waopint_t structure for the command. */ AP_MavlinkCommand(const mavlink_waypoint_t & cmd); bool save() { return _data.save(); } bool load() { return _data.load(); } uint8_t getSeq() const { return _seq; } bool getAutocontinue() const { return _data.get().autocontinue; } void setAutocontinue( bool val) { _data.get().autocontinue = val; } void setSeq(uint8_t val) { _seq = val; } MAV_CMD getCommand() const { return _data.get().command; } void setCommand(MAV_CMD val) { _data.get().command = val; } MAV_FRAME getFrame() const { return _data.get().frame; } void setFrame(MAV_FRAME val) { _data.get().frame = val; } float getParam1() const { return _data.get().param1; } void setParam1(float val) { _data.get().param1 = val; } float getParam2() const { return _data.get().param2; } void setParam2(float val) { _data.get().param2 = val; } float getParam3() const { return _data.get().param3; } void setParam3(float val) { _data.get().param3 = val; } float getParam4() const { return _data.get().param4; } void setParam4(float val) { _data.get().param4 = val; } float getX() const { return _data.get().x; } void setX(float val) { _data.get().x = val; } float getY() const { return _data.get().y; } void setY(float val) { _data.get().y = val; } float getZ() const { return _data.get().z; } void setZ(float val) { _data.get().z = val; } float getLatDeg() const { switch (getFrame()) { case MAV_FRAME_GLOBAL: case MAV_FRAME_GLOBAL_RELATIVE_ALT: return getX(); break; case MAV_FRAME_LOCAL: case MAV_FRAME_LOCAL_ENU: case MAV_FRAME_MISSION: default: return 0; break; } } void setLatDeg(float val) { switch (getFrame()) { case MAV_FRAME_GLOBAL: case MAV_FRAME_GLOBAL_RELATIVE_ALT: setX(val); break; case MAV_FRAME_LOCAL: case MAV_FRAME_LOCAL_ENU: case MAV_FRAME_MISSION: default: break; } } float getLonDeg() const { switch (getFrame()) { case MAV_FRAME_GLOBAL: case MAV_FRAME_GLOBAL_RELATIVE_ALT: return getY(); break; case MAV_FRAME_LOCAL: case MAV_FRAME_LOCAL_ENU: case MAV_FRAME_MISSION: default: return 0; break; } } void setLonDeg(float val) { switch (getFrame()) { case MAV_FRAME_GLOBAL: case MAV_FRAME_GLOBAL_RELATIVE_ALT: setY(val); break; case MAV_FRAME_LOCAL: case MAV_FRAME_LOCAL_ENU: case MAV_FRAME_MISSION: default: break; } } void setLon(float val) { setLonDeg(val * rad2Deg); } void setLon_degInt(int32_t val) { setLonDeg(val / 1.0e7); } void setLat_degInt(int32_t val) { setLatDeg(val / 1.0e7); } int32_t getLon_degInt() const { return getLonDeg() * 1e7; } int32_t getLat_degInt() const { return getLatDeg() * 1e7; } float getLon() const { return getLonDeg() * deg2Rad; } float getLat() const { return getLatDeg() * deg2Rad; } void setLat(float val) { setLatDeg(val * rad2Deg); } float getAlt() const { switch (getFrame()) { case MAV_FRAME_GLOBAL: return getZ(); break; case MAV_FRAME_GLOBAL_RELATIVE_ALT: case MAV_FRAME_LOCAL: return -getZ() + home.getAlt(); break; case MAV_FRAME_LOCAL_ENU: return getZ() + home.getAlt(); break; case MAV_FRAME_MISSION: default: return 0; break; } } /** * set the altitude in meters */ void setAlt(float val) { switch (getFrame()) { case MAV_FRAME_GLOBAL: case MAV_FRAME_GLOBAL_RELATIVE_ALT: setZ(val); break; case MAV_FRAME_LOCAL: setZ(home.getLonDeg() - val); break; case MAV_FRAME_LOCAL_ENU: setZ(val - home.getLonDeg()); break; case MAV_FRAME_MISSION: default: break; } } /** * Get the relative altitude to home * @return relative altitude in meters */ float getRelAlt() const { switch (getFrame()) { case MAV_FRAME_GLOBAL: return getZ() - home.getAlt(); break; case MAV_FRAME_GLOBAL_RELATIVE_ALT: case MAV_FRAME_LOCAL: return -getZ(); break; case MAV_FRAME_LOCAL_ENU: return getZ(); break; case MAV_FRAME_MISSION: default: return 0; break; } } /** * set the relative altitude in meters from home (up) */ void setRelAlt(float val) { switch (getFrame()) { case MAV_FRAME_GLOBAL: setZ(val + home.getAlt()); break; case MAV_FRAME_GLOBAL_RELATIVE_ALT: case MAV_FRAME_LOCAL: setZ(-val); break; case MAV_FRAME_LOCAL_ENU: setZ(val); break; case MAV_FRAME_MISSION: break; } } float getRadius() const { return getParam2(); } void setRadius(float val) { setParam2(val); } /** * conversion for outbound packets to ground station * @return output the mavlink_waypoint_t packet */ mavlink_waypoint_t convert(uint8_t current) const; /** * Calculate the bearing from this command to the next command * @param next The command to calculate the bearing to. * @return the bearing */ float bearingTo(const AP_MavlinkCommand & next) const; /** * Bearing form this command to a gps coordinate in integer units * @param latDegInt latitude in degrees E-7 * @param lonDegInt longitude in degrees E-7 * @return */ float bearingTo(int32_t latDegInt, int32_t lonDegInt) const; /** * Distance to another command * @param next The command to measure to. * @return The distance in meters. */ float distanceTo(const AP_MavlinkCommand & next) const; /** * Distance to a gps coordinate in integer units * @param latDegInt latitude in degrees E-7 * @param lonDegInt longitude in degrees E-7 * @return The distance in meters. */ float distanceTo(int32_t lat_degInt, int32_t lon_degInt) const; float getPN(int32_t lat_degInt, int32_t lon_degInt) const { // local tangent approximation at this waypoint float deltaLat = (lat_degInt - getLat_degInt()) * degInt2Rad; return deltaLat * rEarth; } float getPE(int32_t lat_degInt, int32_t lon_degInt) const { // local tangent approximation at this waypoint float deltaLon = (lon_degInt - getLon_degInt()) * degInt2Rad; return cos(getLat()) * deltaLon * rEarth; } float getPD(int32_t alt_intM) const { return -(alt_intM / scale_m - getAlt()); } float getLat(float pN) const { return pN / rEarth + getLat(); } float getLon(float pE) const { return pE / rEarth / cos(getLat()) + getLon(); } /** * Gets altitude in meters * @param pD alt in meters * @return */ float getAlt(float pD) const { return getAlt() - pD; } //calculates cross track of a current location float crossTrack(const AP_MavlinkCommand & previous, int32_t lat_degInt, int32_t lon_degInt) const; // calculates along track distance of a current location float alongTrack(const AP_MavlinkCommand & previous, int32_t lat_degInt, int32_t lon_degInt) const; }; } // namespace apo #endif /* AP_MAVLINKCOMMAND_H_ */ // vim:ts=4:sw=4:expandtab