ardupilot/libraries/AP_DAL/AP_DAL_InertialSensor.h

78 lines
2.4 KiB
C++

#pragma once
#include <AP_InertialSensor/AP_InertialSensor.h>
#include <AP_Logger/LogStructure.h>
#include <AP_Vehicle/AP_Vehicle_Type.h>
class AP_DAL_InertialSensor {
public:
// InertialSensor-like methods:
// return the selected loop rate at which samples are made available
uint16_t get_loop_rate_hz(void) const { return _RISH.loop_rate_hz; }
const Vector3f &get_imu_pos_offset(uint8_t instance) const {
return pos[instance];
}
// accel stuff
uint8_t get_accel_count(void) const { return _RISH.accel_count; }
uint8_t get_primary_accel(void) const { return _RISH.primary_accel; };
bool use_accel(uint8_t instance) const { return _RISI[instance].use_accel; }
const Vector3f &get_accel(uint8_t i) const { return accel_filtered[i]; }
bool get_delta_velocity(uint8_t i, Vector3f &delta_velocity, float &delta_velocity_dt) const {
delta_velocity = _RISI[i].delta_velocity;
delta_velocity_dt = _RISI[i].delta_velocity_dt;
return _RISI[i].get_delta_velocity_ret;
}
// gyro stuff
uint8_t get_gyro_count(void) const { return _RISH.gyro_count; }
uint8_t get_primary_gyro(void) const { return _RISH.primary_gyro; };
bool use_gyro(uint8_t instance) const { return _RISI[instance].use_gyro; }
const Vector3f &get_gyro(uint8_t i) const { return gyro_filtered[i]; }
const Vector3f &get_gyro() const { return get_gyro(_primary_gyro); }
bool get_delta_angle(uint8_t i, Vector3f &delta_angle, float &delta_angle_dt) const {
delta_angle = _RISI[i].delta_angle;
delta_angle_dt = _RISI[i].delta_angle_dt;
return _RISI[i].get_delta_angle_ret;
}
// return the main loop delta_t in seconds
float get_loop_delta_t(void) const { return _RISH.loop_delta_t; }
// AP_DAL methods:
AP_DAL_InertialSensor();
void start_frame();
void handle_message(const log_RISH &msg) {
_RISH = msg;
}
void handle_message(const log_RISI &msg) {
_RISI[msg.instance] = msg;
pos[msg.instance] = AP::ins().get_imu_pos_offset(msg.instance);
update_filtered(msg.instance);
}
private:
struct log_RISH _RISH;
struct log_RISI _RISI[INS_MAX_INSTANCES];
float alpha;
// sensor positions
Vector3f pos[INS_MAX_INSTANCES];
Vector3f gyro_filtered[INS_MAX_INSTANCES];
Vector3f accel_filtered[INS_MAX_INSTANCES];
uint8_t _primary_gyro;
void update_filtered(uint8_t i);
};