mirror of https://github.com/ArduPilot/ardupilot
404 lines
13 KiB
C++
404 lines
13 KiB
C++
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef __AP_GPS_H__
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#define __AP_GPS_H__
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#include <AP_HAL/AP_HAL.h>
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#include <inttypes.h>
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#include <AP_Common/AP_Common.h>
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#include <AP_Param/AP_Param.h>
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#include <AP_Math/AP_Math.h>
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#include <GCS_MAVLink/GCS_MAVLink.h>
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#include <AP_Vehicle/AP_Vehicle.h>
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#include "GPS_detect_state.h"
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#include <AP_SerialManager/AP_SerialManager.h>
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/**
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maximum number of GPS instances available on this platform. If more
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than 1 then redundent sensors may be available
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*/
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#define GPS_MAX_INSTANCES 2
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#define GPS_RTK_INJECT_TO_ALL 127
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class DataFlash_Class;
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class AP_GPS_Backend;
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/// @class AP_GPS
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/// GPS driver main class
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class AP_GPS
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{
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public:
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// constructor
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AP_GPS() {
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AP_Param::setup_object_defaults(this, var_info);
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}
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/// Startup initialisation.
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void init(DataFlash_Class *dataflash, const AP_SerialManager& serial_manager);
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/// Update GPS state based on possible bytes received from the module.
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/// This routine must be called periodically (typically at 10Hz or
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/// more) to process incoming data.
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void update(void);
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// GPS driver types
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enum GPS_Type {
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GPS_TYPE_NONE = 0,
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GPS_TYPE_AUTO = 1,
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GPS_TYPE_UBLOX = 2,
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GPS_TYPE_MTK = 3,
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GPS_TYPE_MTK19 = 4,
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GPS_TYPE_NMEA = 5,
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GPS_TYPE_SIRF = 6,
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GPS_TYPE_HIL = 7,
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GPS_TYPE_SBP = 8,
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GPS_TYPE_PX4 = 9,
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GPS_TYPE_SBF = 10,
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GPS_TYPE_GSOF = 11,
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GPS_TYPE_QURT = 12,
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};
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/// GPS status codes
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enum GPS_Status {
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NO_GPS = 0, ///< No GPS connected/detected
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NO_FIX = 1, ///< Receiving valid GPS messages but no lock
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GPS_OK_FIX_2D = 2, ///< Receiving valid messages and 2D lock
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GPS_OK_FIX_3D = 3, ///< Receiving valid messages and 3D lock
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GPS_OK_FIX_3D_DGPS = 4, ///< Receiving valid messages and 3D lock with differential improvements
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GPS_OK_FIX_3D_RTK = 5, ///< Receiving valid messages and 3D lock, with relative-positioning improvements
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};
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// GPS navigation engine settings. Not all GPS receivers support
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// this
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enum GPS_Engine_Setting {
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GPS_ENGINE_NONE = -1,
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GPS_ENGINE_PORTABLE = 0,
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GPS_ENGINE_STATIONARY = 2,
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GPS_ENGINE_PEDESTRIAN = 3,
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GPS_ENGINE_AUTOMOTIVE = 4,
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GPS_ENGINE_SEA = 5,
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GPS_ENGINE_AIRBORNE_1G = 6,
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GPS_ENGINE_AIRBORNE_2G = 7,
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GPS_ENGINE_AIRBORNE_4G = 8
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};
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/*
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The GPS_State structure is filled in by the backend driver as it
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parses each message from the GPS.
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*/
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struct GPS_State {
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uint8_t instance; // the instance number of this GPS
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// all the following fields must all be filled by the backend driver
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GPS_Status status; ///< driver fix status
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uint32_t time_week_ms; ///< GPS time (milliseconds from start of GPS week)
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uint16_t time_week; ///< GPS week number
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Location location; ///< last fix location
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float ground_speed; ///< ground speed in m/sec
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int32_t ground_course_cd; ///< ground course in 100ths of a degree
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uint16_t hdop; ///< horizontal dilution of precision in cm
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uint16_t vdop; ///< vertical dilution of precision in cm
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uint8_t num_sats; ///< Number of visible satelites
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Vector3f velocity; ///< 3D velocitiy in m/s, in NED format
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float speed_accuracy;
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float horizontal_accuracy;
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float vertical_accuracy;
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bool have_vertical_velocity:1; ///< does this GPS give vertical velocity?
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bool have_speed_accuracy:1;
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bool have_horizontal_accuracy:1;
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bool have_vertical_accuracy:1;
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uint32_t last_gps_time_ms; ///< the system time we got the last GPS timestamp, milliseconds
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};
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// Accessor functions
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// return number of active GPS sensors. Note that if the first GPS
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// is not present but the 2nd is then we return 2
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uint8_t num_sensors(void) const {
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return num_instances;
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}
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uint8_t primary_sensor(void) const {
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return primary_instance;
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}
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/// Query GPS status
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GPS_Status status(uint8_t instance) const {
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return state[instance].status;
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}
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GPS_Status status(void) const {
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return status(primary_instance);
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}
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// Query the highest status this GPS supports
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GPS_Status highest_supported_status(uint8_t instance) const;
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GPS_Status highest_supported_status(void) const;
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// location of last fix
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const Location &location(uint8_t instance) const {
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return state[instance].location;
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}
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const Location &location() const {
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return location(primary_instance);
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}
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bool speed_accuracy(uint8_t instance, float &sacc) const {
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if(state[instance].have_speed_accuracy) {
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sacc = state[instance].speed_accuracy;
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return true;
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}
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return false;
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}
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bool speed_accuracy(float &sacc) const {
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return speed_accuracy(primary_instance, sacc);
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}
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bool horizontal_accuracy(uint8_t instance, float &hacc) const {
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if(state[instance].have_horizontal_accuracy) {
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hacc = state[instance].horizontal_accuracy;
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return true;
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}
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return false;
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}
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bool horizontal_accuracy(float &hacc) const {
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return horizontal_accuracy(primary_instance, hacc);
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}
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bool vertical_accuracy(uint8_t instance, float &vacc) const {
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if(state[instance].have_vertical_accuracy) {
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vacc = state[instance].vertical_accuracy;
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return true;
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}
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return false;
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}
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bool vertical_accuracy(float &vacc) const {
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return vertical_accuracy(primary_instance, vacc);
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}
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// 3D velocity in NED format
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const Vector3f &velocity(uint8_t instance) const {
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return state[instance].velocity;
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}
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const Vector3f &velocity() const {
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return velocity(primary_instance);
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}
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// ground speed in m/s
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float ground_speed(uint8_t instance) const {
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return state[instance].ground_speed;
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}
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float ground_speed() const {
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return ground_speed(primary_instance);
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}
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// ground speed in cm/s
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uint32_t ground_speed_cm(void) {
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return ground_speed() * 100;
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}
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// ground course in centidegrees
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int32_t ground_course_cd(uint8_t instance) const {
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return state[instance].ground_course_cd;
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}
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int32_t ground_course_cd() const {
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return ground_course_cd(primary_instance);
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}
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// number of locked satellites
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uint8_t num_sats(uint8_t instance) const {
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return state[instance].num_sats;
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}
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uint8_t num_sats() const {
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return num_sats(primary_instance);
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}
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// GPS time of week in milliseconds
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uint32_t time_week_ms(uint8_t instance) const {
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return state[instance].time_week_ms;
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}
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uint32_t time_week_ms() const {
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return time_week_ms(primary_instance);
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}
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// GPS week
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uint16_t time_week(uint8_t instance) const {
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return state[instance].time_week;
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}
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uint16_t time_week() const {
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return time_week(primary_instance);
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}
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// horizontal dilution of precision
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uint16_t get_hdop(uint8_t instance) const {
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return state[instance].hdop;
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}
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uint16_t get_hdop() const {
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return get_hdop(primary_instance);
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}
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// vertical dilution of precision
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uint16_t get_vdop(uint8_t instance) const {
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return state[instance].vdop;
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}
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uint16_t get_vdop() const {
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return get_vdop(primary_instance);
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}
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// the time we got our last fix in system milliseconds. This is
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// used when calculating how far we might have moved since that fix
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uint32_t last_fix_time_ms(uint8_t instance) const {
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return timing[instance].last_fix_time_ms;
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}
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uint32_t last_fix_time_ms(void) const {
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return last_fix_time_ms(primary_instance);
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}
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// the time we last processed a message in milliseconds. This is
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// used to indicate that we have new GPS data to process
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uint32_t last_message_time_ms(uint8_t instance) const {
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return timing[instance].last_message_time_ms;
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}
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uint32_t last_message_time_ms(void) const {
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return last_message_time_ms(primary_instance);
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}
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// return last fix time since the 1/1/1970 in microseconds
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uint64_t time_epoch_usec(uint8_t instance);
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uint64_t time_epoch_usec(void) {
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return time_epoch_usec(primary_instance);
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}
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// return true if the GPS supports vertical velocity values
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bool have_vertical_velocity(uint8_t instance) const {
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return state[instance].have_vertical_velocity;
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}
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bool have_vertical_velocity(void) const {
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return have_vertical_velocity(primary_instance);
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}
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// the expected lag (in seconds) in the position and velocity readings from the gps
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float get_lag() const { return 0.2f; }
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// set position for HIL
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void setHIL(uint8_t instance, GPS_Status status, uint64_t time_epoch_ms,
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const Location &location, const Vector3f &velocity, uint8_t num_sats,
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uint16_t hdop, bool _have_vertical_velocity);
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static const struct AP_Param::GroupInfo var_info[];
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// dataflash for logging, if available
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DataFlash_Class *_DataFlash;
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// configuration parameters
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AP_Int8 _type[GPS_MAX_INSTANCES];
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AP_Int8 _navfilter;
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AP_Int8 _auto_switch;
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AP_Int8 _min_dgps;
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AP_Int16 _sbp_logmask;
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AP_Int8 _inject_to;
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uint32_t _last_instance_swap_ms;
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AP_Int8 _sbas_mode;
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AP_Int8 _min_elevation;
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AP_Int8 _raw_data;
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AP_Int8 _gnss_mode;
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AP_Int8 _save_config;
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// handle sending of initialisation strings to the GPS
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void send_blob_start(uint8_t instance, const char *_blob, uint16_t size);
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void send_blob_update(uint8_t instance);
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// lock out a GPS port, allowing another application to use the port
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void lock_port(uint8_t instance, bool locked);
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//Inject a packet of raw binary to a GPS
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void inject_data(uint8_t *data, uint8_t len);
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void inject_data(uint8_t instance, uint8_t *data, uint8_t len);
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//MAVLink Status Sending
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void send_mavlink_gps_raw(mavlink_channel_t chan);
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void send_mavlink_gps2_raw(mavlink_channel_t chan);
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void send_mavlink_gps_rtk(mavlink_channel_t chan);
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void send_mavlink_gps2_rtk(mavlink_channel_t chan);
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private:
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struct GPS_timing {
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// the time we got our last fix in system milliseconds
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uint32_t last_fix_time_ms;
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// the time we got our last fix in system milliseconds
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uint32_t last_message_time_ms;
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};
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GPS_timing timing[GPS_MAX_INSTANCES];
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GPS_State state[GPS_MAX_INSTANCES];
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AP_GPS_Backend *drivers[GPS_MAX_INSTANCES];
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AP_HAL::UARTDriver *_port[GPS_MAX_INSTANCES];
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/// primary GPS instance
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uint8_t primary_instance:2;
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/// number of GPS instances present
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uint8_t num_instances:2;
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// which ports are locked
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uint8_t locked_ports:2;
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// state of auto-detection process, per instance
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struct detect_state {
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uint32_t detect_started_ms;
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uint32_t last_baud_change_ms;
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uint8_t last_baud;
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struct UBLOX_detect_state ublox_detect_state;
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struct MTK_detect_state mtk_detect_state;
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struct MTK19_detect_state mtk19_detect_state;
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struct SIRF_detect_state sirf_detect_state;
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struct NMEA_detect_state nmea_detect_state;
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struct SBP_detect_state sbp_detect_state;
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} detect_state[GPS_MAX_INSTANCES];
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struct {
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const char *blob;
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uint16_t remaining;
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} initblob_state[GPS_MAX_INSTANCES];
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static const uint32_t _baudrates[];
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static const char _initialisation_blob[];
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static const char _initialisation_raw_blob[];
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void detect_instance(uint8_t instance);
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void update_instance(uint8_t instance);
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};
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#define GPS_BAUD_TIME_MS 1200
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#include "GPS_Backend.h"
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#include "AP_GPS_UBLOX.h"
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#include "AP_GPS_MTK.h"
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#include "AP_GPS_MTK19.h"
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#include "AP_GPS_NMEA.h"
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#include "AP_GPS_SIRF.h"
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#include "AP_GPS_SBP.h"
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#include "AP_GPS_PX4.h"
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#include "AP_GPS_QURT.h"
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#include "AP_GPS_SBF.h"
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#include "AP_GPS_GSOF.h"
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#endif // __AP_GPS_H__
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