mirror of https://github.com/ArduPilot/ardupilot
136 lines
4.3 KiB
C++
136 lines
4.3 KiB
C++
#pragma once
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#include <AP_GPS/AP_GPS.h>
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#include <AP_Logger/LogStructure.h>
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class AP_DAL_GPS {
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public:
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/// GPS status codes
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enum GPS_Status : uint8_t {
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NO_GPS = GPS_FIX_TYPE_NO_GPS, ///< No GPS connected/detected
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NO_FIX = GPS_FIX_TYPE_NO_FIX, ///< Receiving valid GPS messages but no lock
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GPS_OK_FIX_2D = GPS_FIX_TYPE_2D_FIX, ///< Receiving valid messages and 2D lock
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GPS_OK_FIX_3D = GPS_FIX_TYPE_3D_FIX, ///< Receiving valid messages and 3D lock
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GPS_OK_FIX_3D_DGPS = GPS_FIX_TYPE_DGPS, ///< Receiving valid messages and 3D lock with differential improvements
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GPS_OK_FIX_3D_RTK_FLOAT = GPS_FIX_TYPE_RTK_FLOAT, ///< Receiving valid messages and 3D RTK Float
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GPS_OK_FIX_3D_RTK_FIXED = GPS_FIX_TYPE_RTK_FIXED, ///< Receiving valid messages and 3D RTK Fixed
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};
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AP_DAL_GPS();
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GPS_Status status(uint8_t sensor_id) const {
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return (GPS_Status)_RGPI[sensor_id].status;
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}
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GPS_Status status() const {
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return status(primary_sensor());
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}
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const Location &location(uint8_t instance) const;
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bool have_vertical_velocity(uint8_t instance) const {
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return _RGPI[instance].have_vertical_velocity;
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}
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bool have_vertical_velocity() const {
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return have_vertical_velocity(primary_sensor());
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}
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bool horizontal_accuracy(uint8_t instance, float &hacc) const {
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hacc = _RGPJ[instance].hacc;
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return _RGPI[instance].horizontal_accuracy_returncode;
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}
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bool horizontal_accuracy(float &hacc) const {
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return horizontal_accuracy(primary_sensor(),hacc);
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}
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bool vertical_accuracy(uint8_t instance, float &vacc) const {
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vacc = _RGPJ[instance].vacc;
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return _RGPI[instance].vertical_accuracy_returncode;
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}
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bool vertical_accuracy(float &vacc) const {
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return vertical_accuracy(primary_sensor(), vacc);
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}
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uint16_t get_hdop(uint8_t instance) const {
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return _RGPJ[instance].hdop;
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}
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uint16_t get_hdop() const {
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return get_hdop(primary_sensor());
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}
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uint32_t last_message_time_ms(uint8_t instance) const {
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return _RGPJ[instance].last_message_time_ms;
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}
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uint8_t num_sats(uint8_t instance) const {
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return _RGPI[instance].num_sats;
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}
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uint8_t num_sats() const {
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return num_sats(primary_sensor());
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}
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bool get_lag(uint8_t instance, float &lag_sec) const {
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lag_sec = _RGPI[instance].lag_sec;
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return _RGPI[instance].get_lag_returncode;
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}
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bool get_lag(float &lag_sec) const {
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return get_lag(primary_sensor(), lag_sec);
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}
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const Vector3f &velocity(uint8_t instance) const {
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return _RGPJ[instance].velocity;
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}
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const Vector3f &velocity() const {
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return velocity(primary_sensor());
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}
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bool speed_accuracy(uint8_t instance, float &sacc) const {
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sacc = _RGPJ[instance].sacc;
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return _RGPI[instance].speed_accuracy_returncode;
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}
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bool speed_accuracy(float &sacc) const {
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return speed_accuracy(primary_sensor(), sacc);
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}
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bool gps_yaw_deg(uint8_t instance, float &yaw_deg, float &accuracy_deg, uint32_t &time_ms) const {
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yaw_deg = _RGPJ[instance].yaw_deg;
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accuracy_deg = _RGPJ[instance].yaw_accuracy_deg;
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time_ms = _RGPJ[instance].yaw_deg_time_ms;
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return _RGPI[instance].gps_yaw_deg_returncode;
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}
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uint8_t num_sensors(void) const {
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return _RGPH.num_sensors;
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}
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uint8_t primary_sensor(void) const {
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return _RGPH.primary_sensor;
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}
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// TODO: decide if this really, really should be here!
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const Location &location() const {
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return location(_RGPH.primary_sensor);
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}
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// return a 3D vector defining the offset of the GPS antenna in meters relative to the body frame origin
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const Vector3f &get_antenna_offset(uint8_t instance) const {
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return _RGPI[instance].antenna_offset;
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}
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void start_frame();
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void handle_message(const log_RGPH &msg) {
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_RGPH = msg;
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}
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void handle_message(const log_RGPI &msg) {
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_RGPI[msg.instance] = msg;
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}
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void handle_message(const log_RGPJ &msg) {
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_RGPJ[msg.instance] = msg;
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}
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private:
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struct log_RGPH _RGPH;
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struct log_RGPI _RGPI[GPS_MAX_INSTANCES];
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struct log_RGPJ _RGPJ[GPS_MAX_INSTANCES];
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};
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