mirror of https://github.com/ArduPilot/ardupilot
398 lines
12 KiB
C++
398 lines
12 KiB
C++
#pragma once
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#include "AP_DAL_InertialSensor.h"
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#include "AP_DAL_Baro.h"
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#include "AP_DAL_GPS.h"
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#include "AP_DAL_RangeFinder.h"
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#include "AP_DAL_Compass.h"
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#include "AP_DAL_Airspeed.h"
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#include "AP_DAL_Beacon.h"
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#include "AP_DAL_VisualOdom.h"
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#include "LogStructure.h"
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#include <stdio.h>
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#include <stdint.h>
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#include <cstddef>
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#define DAL_CORE(c) AP::dal().logging_core(c)
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class NavEKF2;
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class NavEKF3;
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class AP_DAL {
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public:
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enum class FrameType : uint8_t {
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InitialiseFilterEKF2 = 1U<<0,
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UpdateFilterEKF2 = 1U<<1,
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InitialiseFilterEKF3 = 1<<2,
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UpdateFilterEKF3 = 1<<3,
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LogWriteEKF2 = 1<<4,
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LogWriteEKF3 = 1<<5,
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};
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enum class Event : uint8_t {
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resetGyroBias = 0,
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resetHeightDatum = 1,
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//setInhibitGPS = 2, // removed
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//setTakeoffExpected = 3, // removed
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//unsetTakeoffExpected = 4, // removed
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//setTouchdownExpected = 5, // removed
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//unsetTouchdownExpected = 6, // removed
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//setInhibitGpsVertVelUse = 7, // removed
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//unsetInhibitGpsVertVelUse = 8, // removed
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setTerrainHgtStable = 9,
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unsetTerrainHgtStable = 10,
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requestYawReset = 11,
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checkLaneSwitch = 12,
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setSourceSet0 = 13,
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setSourceSet1 = 14,
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setSourceSet2 = 15,
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};
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// must remain the same as AP_AHRS_VehicleClass numbers-wise
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enum class VehicleClass : uint8_t {
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UNKNOWN,
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GROUND,
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COPTER,
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FIXED_WING,
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SUBMARINE,
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};
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AP_DAL() {}
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static AP_DAL *get_singleton() {
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if (!_singleton) {
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_singleton = NEW_NOTHROW AP_DAL();
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}
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return _singleton;
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}
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void start_frame(FrameType frametype);
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void end_frame(void);
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uint64_t micros64() const { return _RFRH.time_us; }
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uint32_t micros() const { return _micros; }
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uint32_t millis() const { return _millis; }
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void log_event2(Event event);
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void log_SetOriginLLH2(const Location &loc);
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void log_writeDefaultAirSpeed2(const float aspeed, const float uncertainty);
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void log_event3(Event event);
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void log_SetOriginLLH3(const Location &loc);
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void log_SetLatLng(const Location &loc, float posAccuracy, uint32_t timestamp_ms);
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void log_writeDefaultAirSpeed3(const float aspeed, const float uncertainty);
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void log_writeEulerYawAngle(float yawAngle, float yawAngleErr, uint32_t timeStamp_ms, uint8_t type);
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enum class StateMask {
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ARMED = (1U<<0),
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};
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// EKF ID for timing checks
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enum class EKFType : uint8_t {
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EKF2 = 0,
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EKF3 = 1,
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};
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// check if we are low on CPU for this core
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bool ekf_low_time_remaining(EKFType etype, uint8_t core);
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// returns armed state for the current frame
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bool get_armed() const { return _RFRN.armed; }
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// memory available at start of current frame. While this could
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// potentially change as we go through the frame, the
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// ramifications of being out of memory are that you don't start
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// the EKF, so the simplicity of having one value for the entire
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// frame is worthwhile.
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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uint32_t available_memory() const { return _RFRN.available_memory + 10240; }
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#else
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uint32_t available_memory() const { return _RFRN.available_memory; }
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#endif
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int8_t get_ekf_type(void) const {
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return _RFRN.ekf_type;
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}
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int snprintf(char* str, size_t size, const char *format, ...) const;
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// copied in AP_HAL/Util.h
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enum Memory_Type {
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MEM_DMA_SAFE,
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MEM_FAST
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};
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void *malloc_type(size_t size, enum Memory_Type mem_type) const;
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AP_DAL_InertialSensor &ins() { return _ins; }
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AP_DAL_Baro &baro() { return _baro; }
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AP_DAL_GPS &gps() { return _gps; }
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AP_DAL_RangeFinder *rangefinder() {
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return _rangefinder;
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}
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AP_DAL_Airspeed *airspeed() {
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return _airspeed;
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}
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#if AP_BEACON_ENABLED
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AP_DAL_Beacon *beacon() {
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return _beacon;
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}
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#endif
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#if HAL_VISUALODOM_ENABLED
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AP_DAL_VisualOdom *visualodom() {
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return _visualodom;
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}
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#endif
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AP_DAL_Compass &compass() { return _compass; }
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// random methods that AP_NavEKF3 wants to call on AHRS:
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bool airspeed_sensor_enabled(void) const {
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return _RFRN.ahrs_airspeed_sensor_enabled;
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}
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// this replaces AP::ahrs()->EAS2TAS(), which should probably go
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// away in favour of just using the Baro method.
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// get apparent to true airspeed ratio
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float get_EAS2TAS(void) const {
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return _RFRN.EAS2TAS;
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}
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VehicleClass get_vehicle_class(void) const {
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return (VehicleClass)_RFRN.vehicle_class;
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}
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bool get_fly_forward(void) const {
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return _RFRN.fly_forward;
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}
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bool get_takeoff_expected(void) const {
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return _RFRN.takeoff_expected;
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}
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bool get_touchdown_expected(void) const {
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return _RFRN.touchdown_expected;
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}
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// for EKF usage to enable takeoff expected to true
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void set_takeoff_expected();
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// get ahrs trim
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const Vector3f &get_trim() const {
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return _RFRN.ahrs_trim;
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}
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const Matrix3f &get_rotation_vehicle_body_to_autopilot_body(void) const {
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return _rotation_vehicle_body_to_autopilot_body;
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}
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// get the home location. This is const to prevent any changes to
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// home without telling AHRS about the change
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const class Location &get_home(void) const {
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return _home;
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}
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uint32_t get_time_flying_ms(void) const {
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return _RFRH.time_flying_ms;
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}
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bool opticalflow_enabled(void) const {
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return _RFRN.opticalflow_enabled;
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}
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bool wheelencoder_enabled(void) const {
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return _RFRN.wheelencoder_enabled;
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}
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// log optical flow data
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void writeOptFlowMeas(const uint8_t rawFlowQuality, const Vector2f &rawFlowRates, const Vector2f &rawGyroRates, const uint32_t msecFlowMeas, const Vector3f &posOffset, float heightOverride);
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// log external nav data
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void writeExtNavData(const Vector3f &pos, const Quaternion &quat, float posErr, float angErr, uint32_t timeStamp_ms, uint16_t delay_ms, uint32_t resetTime_ms);
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void writeExtNavVelData(const Vector3f &vel, float err, uint32_t timeStamp_ms, uint16_t delay_ms);
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// log wheel odometry data
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void writeWheelOdom(float delAng, float delTime, uint32_t timeStamp_ms, const Vector3f &posOffset, float radius);
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void writeBodyFrameOdom(float quality, const Vector3f &delPos, const Vector3f &delAng, float delTime, uint32_t timeStamp_ms, uint16_t delay_ms, const Vector3f &posOffset);
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// Replay support:
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void handle_message(const log_RFRH &msg) {
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_RFRH = msg;
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_micros = _RFRH.time_us;
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_millis = _RFRH.time_us / 1000UL;
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}
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void handle_message(const log_RFRN &msg) {
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_RFRN = msg;
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_home.lat = msg.lat;
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_home.lng = msg.lng;
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_home.alt = msg.alt;
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}
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void handle_message(const log_RFRF &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_RISH &msg) {
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_ins.handle_message(msg);
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}
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void handle_message(const log_RISI &msg) {
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_ins.handle_message(msg);
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}
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void handle_message(const log_RASH &msg) {
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if (_airspeed == nullptr) {
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_airspeed = NEW_NOTHROW AP_DAL_Airspeed;
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}
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_airspeed->handle_message(msg);
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}
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void handle_message(const log_RASI &msg) {
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if (_airspeed == nullptr) {
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_airspeed = NEW_NOTHROW AP_DAL_Airspeed;
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}
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_airspeed->handle_message(msg);
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}
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void handle_message(const log_RBRH &msg) {
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_baro.handle_message(msg);
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}
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void handle_message(const log_RBRI &msg) {
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_baro.handle_message(msg);
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}
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void handle_message(const log_RRNH &msg) {
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if (_rangefinder == nullptr) {
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_rangefinder = NEW_NOTHROW AP_DAL_RangeFinder;
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}
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_rangefinder->handle_message(msg);
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}
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void handle_message(const log_RRNI &msg) {
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if (_rangefinder == nullptr) {
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_rangefinder = NEW_NOTHROW AP_DAL_RangeFinder;
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}
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_rangefinder->handle_message(msg);
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}
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void handle_message(const log_RGPH &msg) {
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_gps.handle_message(msg);
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}
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void handle_message(const log_RGPI &msg) {
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_gps.handle_message(msg);
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}
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void handle_message(const log_RGPJ &msg) {
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_gps.handle_message(msg);
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}
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void handle_message(const log_RMGH &msg) {
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_compass.handle_message(msg);
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}
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void handle_message(const log_RMGI &msg) {
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_compass.handle_message(msg);
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}
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void handle_message(const log_RBCH &msg) {
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#if AP_BEACON_ENABLED
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if (_beacon == nullptr) {
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_beacon = NEW_NOTHROW AP_DAL_Beacon;
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}
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_beacon->handle_message(msg);
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#endif
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}
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void handle_message(const log_RBCI &msg) {
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#if AP_BEACON_ENABLED
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if (_beacon == nullptr) {
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_beacon = NEW_NOTHROW AP_DAL_Beacon;
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}
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_beacon->handle_message(msg);
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#endif
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}
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void handle_message(const log_RVOH &msg) {
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#if HAL_VISUALODOM_ENABLED
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if (_visualodom == nullptr) {
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_visualodom = NEW_NOTHROW AP_DAL_VisualOdom;
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}
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_visualodom->handle_message(msg);
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#endif
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}
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void handle_message(const log_ROFH &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_REPH &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_REVH &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_RWOH &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_RBOH &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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void handle_message(const log_RSLL &msg, NavEKF2 &ekf2, NavEKF3 &ekf3);
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// map core number for replay
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uint8_t logging_core(uint8_t c) const;
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#if HAL_LOGGING_ENABLED
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// write out a DAL log message. If old_msg is non-null, then
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// only write if the content has changed
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static void WriteLogMessage(enum LogMessages msg_type, void *msg, const void *old_msg, uint8_t msg_size);
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#endif
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private:
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static AP_DAL *_singleton;
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// framing structures
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struct log_RFRH _RFRH;
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struct log_RFRF _RFRF;
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struct log_RFRN _RFRN;
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// push-based sensor structures
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struct log_ROFH _ROFH;
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struct log_REPH _REPH;
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struct log_REVH _REVH;
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struct log_RWOH _RWOH;
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struct log_RBOH _RBOH;
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struct log_RSLL _RSLL;
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// cached variables for speed:
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uint32_t _micros;
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uint32_t _millis;
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Matrix3f _rotation_vehicle_body_to_autopilot_body;
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Location _home;
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uint32_t _last_imu_time_us;
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AP_DAL_InertialSensor _ins;
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AP_DAL_Baro _baro;
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AP_DAL_GPS _gps;
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AP_DAL_RangeFinder *_rangefinder;
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AP_DAL_Compass _compass;
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AP_DAL_Airspeed *_airspeed;
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#if AP_BEACON_ENABLED
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AP_DAL_Beacon *_beacon;
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#endif
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#if HAL_VISUALODOM_ENABLED
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AP_DAL_VisualOdom *_visualodom;
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#endif
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static bool logging_started;
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static bool force_write;
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bool ekf2_init_done;
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bool ekf3_init_done;
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void init_sensors(void);
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bool init_done;
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};
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#if HAL_LOGGING_ENABLED
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#define WRITE_REPLAY_BLOCK(sname,v) AP_DAL::WriteLogMessage(LOG_## sname ##_MSG, &v, nullptr, offsetof(log_ ##sname, _end))
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#define WRITE_REPLAY_BLOCK_IFCHANGED(sname,v,old) do { static_assert(sizeof(v) == sizeof(old), "types must match"); \
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AP_DAL::WriteLogMessage(LOG_## sname ##_MSG, &v, &old, offsetof(log_ ##sname, _end)); } \
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while (0)
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#else
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#define WRITE_REPLAY_BLOCK(sname,v) do { (void)v; } while (false)
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#define WRITE_REPLAY_BLOCK_IFCHANGED(sname,v,old) do { (void)old; } while (false)
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#endif
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namespace AP {
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AP_DAL &dal();
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};
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// replay printf for debugging
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void rprintf(const char *format, ...);
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