ardupilot/libraries/AP_InertialSensor/AP_InertialSensor_Backend.cpp

/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-

#include <AP_HAL/AP_HAL.h>
#include "AP_InertialSensor.h"
#include "AP_InertialSensor_Backend.h"

AP_InertialSensor_Backend::AP_InertialSensor_Backend(AP_InertialSensor &imu) :
    _imu(imu),
    _product_id(AP_PRODUCT_ID_NONE)
{}

void AP_InertialSensor_Backend::_rotate_and_correct_accel(uint8_t instance, Vector3f &accel) 
{
    /*
      accel calibration is always done in sensor frame with this
      version of the code. That means we apply the rotation after the
      offsets and scaling.
     */

    // apply scaling
    const Vector3f &accel_scale = _imu._accel_scale[instance].get();
    accel.x *= accel_scale.x;
    accel.y *= accel_scale.y;
    accel.z *= accel_scale.z;

    // apply offsets
    accel -= _imu._accel_offset[instance];

    // rotate to body frame
    accel.rotate(_imu._board_orientation);
}

void AP_InertialSensor_Backend::_rotate_and_correct_gyro(uint8_t instance, Vector3f &gyro) 
{
    // gyro calibration is always assumed to have been done in sensor frame
    gyro -= _imu._gyro_offset[instance];
    gyro.rotate(_imu._board_orientation);
}

void AP_InertialSensor_Backend::_publish_delta_angle(uint8_t instance, const Vector3f &delta_angle)
{
    // publish delta angle
    _imu._delta_angle[instance] = delta_angle;
    _imu._delta_angle_valid[instance] = true;
}

/*
  rotate gyro vector and add the gyro offset
 */
void AP_InertialSensor_Backend::_publish_gyro(uint8_t instance, const Vector3f &gyro)
{
    _imu._gyro[instance] = gyro;
    _imu._gyro_healthy[instance] = true;
}

void AP_InertialSensor_Backend::_publish_delta_velocity(uint8_t instance, const Vector3f &delta_velocity, float dt)
{
    // publish delta velocity
    _imu._delta_velocity[instance] = delta_velocity;
    _imu._delta_velocity_dt[instance] = dt;
    _imu._delta_velocity_valid[instance] = true;
}

/*
  rotate accel vector, scale and add the accel offset
 */
void AP_InertialSensor_Backend::_publish_accel(uint8_t instance, const Vector3f &accel)
{
    _imu._accel[instance] = accel;
    _imu._accel_healthy[instance] = true;
}

void AP_InertialSensor_Backend::_set_accel_max_abs_offset(uint8_t instance,
                                                          float max_offset)
{
    _imu._accel_max_abs_offsets[instance] = max_offset;
}

// set accelerometer error_count
void AP_InertialSensor_Backend::_set_accel_error_count(uint8_t instance, uint32_t error_count)
{
    _imu._accel_error_count[instance] = error_count;
}

// set gyro error_count
void AP_InertialSensor_Backend::_set_gyro_error_count(uint8_t instance, uint32_t error_count)
{
    _imu._gyro_error_count[instance] = error_count;
}

// return the requested sample rate in Hz
uint16_t AP_InertialSensor_Backend::get_sample_rate_hz(void) const
{
    // enum can be directly cast to Hz
    return (uint16_t)_imu._sample_rate;
}

/*
  publish a temperature value for an instance
 */
void AP_InertialSensor_Backend::_publish_temperature(uint8_t instance, float temperature)
{
    _imu._temperature[instance] = temperature;
}
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`/// -- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil --`

AP_InertialSensor: standardize inclusion of libaries headers This commit changes the way libraries headers are included in source files: - If the header is in the same directory the source belongs to, so the notation '#include ""' is used with the path relative to the directory containing the source. - If the header is outside the directory containing the source, then we use the notation '#include <>' with the path relative to libraries folder. Some of the advantages of such approach: - Only one search path for libraries headers. - OSs like Windows may have a better lookup time. 2015-08-11 03:28:43 -03:00			`#include <AP_HAL/AP_HAL.h>`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`#include "AP_InertialSensor.h"`
			`#include "AP_InertialSensor_Backend.h"`

AP_InertialSensor: converted PX4 driver to new API 2014-10-15 05:54:30 -03:00			`AP_InertialSensor_Backend::AP_InertialSensor_Backend(AP_InertialSensor &imu) :`
AP_InertialSensor: added product_id support fill in parameter from first backend 2014-10-15 23:14:56 -03:00			`_imu(imu),`
			`_product_id(AP_PRODUCT_ID_NONE)`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`{}`

AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00			`void AP_InertialSensor_Backend::_rotate_and_correct_accel(uint8_t instance, Vector3f &accel)`
			`{`
			`/*`
AP_InertialSensor: removed INS_CALSENSFRAME it is no longer needed as we have shifted the accel cal indexes 2015-03-11 20:22:52 -03:00			`accel calibration is always done in sensor frame with this`
			`version of the code. That means we apply the rotation after the`
			`offsets and scaling.`
AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00			`*/`

			`// apply scaling`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`const Vector3f &accel_scale = _imu._accel_scale[instance].get();`
			`accel.x *= accel_scale.x;`
			`accel.y *= accel_scale.y;`
			`accel.z *= accel_scale.z;`
AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00
			`// apply offsets`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`accel -= _imu._accel_offset[instance];`
AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00
AP_InertialSensor: removed INS_CALSENSFRAME it is no longer needed as we have shifted the accel cal indexes 2015-03-11 20:22:52 -03:00			`// rotate to body frame`
			`accel.rotate(_imu._board_orientation);`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`}`

AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00			`void AP_InertialSensor_Backend::_rotate_and_correct_gyro(uint8_t instance, Vector3f &gyro)`
			`{`
			`// gyro calibration is always assumed to have been done in sensor frame`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`gyro -= _imu._gyro_offset[instance];`
AP_InertialSensor: added INS_CALSENSFRAME parameter this allows us to detect if accel calibration was done in sensor frame or not. If it was done in sensor frame then the accel calibration is independent of AHRS_ORIENTATION, which makes it easier to move a board to a new airframe without having to recalibrate. 2015-03-10 04:05:41 -03:00			`gyro.rotate(_imu._board_orientation);`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`}`

			`void AP_InertialSensor_Backend::_publish_delta_angle(uint8_t instance, const Vector3f &delta_angle)`
			`{`
			`// publish delta angle`
			`_imu._delta_angle[instance] = delta_angle;`
			`_imu._delta_angle_valid[instance] = true;`
			`}`

AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`/*`
			`rotate gyro vector and add the gyro offset`
			`*/`
AP_InertialSensor: remove param rotate_and_correct from publish functions Once that parameter is always false. 2015-08-28 12:18:09 -03:00			`void AP_InertialSensor_Backend::_publish_gyro(uint8_t instance, const Vector3f &gyro)`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`{`
AP_InertialSensor: converted PX4 driver to new API 2014-10-15 05:54:30 -03:00			`_imu._gyro[instance] = gyro;`
AP_InertialSensor: implement gyro and accel health monitoring sensor is healthy if it gave a sample on the last update() 2014-10-15 23:27:22 -03:00			`_imu._gyro_healthy[instance] = true;`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`}`

AP_InertialSensor: publish delta_velocity_dt 2015-03-21 17:18:58 -03:00			`void AP_InertialSensor_Backend::_publish_delta_velocity(uint8_t instance, const Vector3f &delta_velocity, float dt)`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`{`
			`// publish delta velocity`
			`_imu._delta_velocity[instance] = delta_velocity;`
AP_InertialSensor: publish delta_velocity_dt 2015-03-21 17:18:58 -03:00			`_imu._delta_velocity_dt[instance] = dt;`
AP_InertialSensor: allow backends to publish delta velocities and angles 2015-02-17 02:54:17 -04:00			`_imu._delta_velocity_valid[instance] = true;`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`}`

			`/*`
			`rotate accel vector, scale and add the accel offset`
			`*/`
AP_InertialSensor: remove param rotate_and_correct from publish functions Once that parameter is always false. 2015-08-28 12:18:09 -03:00			`void AP_InertialSensor_Backend::_publish_accel(uint8_t instance, const Vector3f &accel)`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`{`
AP_InertialSensor: converted PX4 driver to new API 2014-10-15 05:54:30 -03:00			`_imu._accel[instance] = accel;`
AP_InertialSensor: implement gyro and accel health monitoring sensor is healthy if it gave a sample on the last update() 2014-10-15 23:27:22 -03:00			`_imu._accel_healthy[instance] = true;`
AP_InertialSensor: first steps in frontend/backend split This converts the MPU6000 driver to a frontend/backend structure, and disables all other drivers. They will be progressively re-enabled as each is converted 2014-10-14 01:48:33 -03:00			`}`
AP_InertialSensor: moved default filter and sample_rate to frontend this simplifies the backends and prevents code repitition 2014-10-16 17:52:21 -03:00
AP_InertialSensor: use accel instance max abs offset instead of a constant value The calibration on LSM9DS0 was giving offsets between 4.0 and 4.2 on x-axis and around 3.6 on y-axis. It turned out that those offsets were actually right. The maximum absolute values of calibration offset should be a sensor characteristic rather than a constant value for all sensors. The constant value previously used (3.5 m/s/s for all axes) is set here as a default maximum absolute calibration offset for every instance to keep it working. 2015-06-09 17:47:16 -03:00			`void AP_InertialSensor_Backend::_set_accel_max_abs_offset(uint8_t instance,`
AP_InertialSensor: make max_abs_offsets a single float, not a vector 2015-06-29 21:51:43 -03:00			`float max_offset)`
AP_InertialSensor: use accel instance max abs offset instead of a constant value The calibration on LSM9DS0 was giving offsets between 4.0 and 4.2 on x-axis and around 3.6 on y-axis. It turned out that those offsets were actually right. The maximum absolute values of calibration offset should be a sensor characteristic rather than a constant value for all sensors. The constant value previously used (3.5 m/s/s for all axes) is set here as a default maximum absolute calibration offset for every instance to keep it working. 2015-06-09 17:47:16 -03:00			`{`
AP_InertialSensor: make max_abs_offsets a single float, not a vector 2015-06-29 21:51:43 -03:00			`_imu._accel_max_abs_offsets[instance] = max_offset;`
AP_InertialSensor: use accel instance max abs offset instead of a constant value The calibration on LSM9DS0 was giving offsets between 4.0 and 4.2 on x-axis and around 3.6 on y-axis. It turned out that those offsets were actually right. The maximum absolute values of calibration offset should be a sensor characteristic rather than a constant value for all sensors. The constant value previously used (3.5 m/s/s for all axes) is set here as a default maximum absolute calibration offset for every instance to keep it working. 2015-06-09 17:47:16 -03:00			`}`

AP_InertialSensor: prefer sensors that have zero error counts if a sensor has failed in flight then try not to use it if another error-free sensor is available 2014-12-29 06:19:35 -04:00			`// set accelerometer error_count`
			`void AP_InertialSensor_Backend::_set_accel_error_count(uint8_t instance, uint32_t error_count)`
			`{`
			`_imu._accel_error_count[instance] = error_count;`
			`}`

			`// set gyro error_count`
			`void AP_InertialSensor_Backend::_set_gyro_error_count(uint8_t instance, uint32_t error_count)`
			`{`
			`_imu._gyro_error_count[instance] = error_count;`
			`}`

AP_InertialSensor: calculate queue depth based on requested sample rate this auto-scales the queue depth for plane, rover and copter 2015-03-11 20:02:36 -03:00			`// return the requested sample rate in Hz`
			`uint16_t AP_InertialSensor_Backend::get_sample_rate_hz(void) const`
			`{`
			`// enum can be directly cast to Hz`
			`return (uint16_t)_imu._sample_rate;`
			`}`
AP_InertialSensor: added get_temperature() interface this will allow logging of individual temperature sensors 2015-03-16 23:32:54 -03:00
			`/*`
			`publish a temperature value for an instance`
			`*/`
			`void AP_InertialSensor_Backend::_publish_temperature(uint8_t instance, float temperature)`
			`{`
			`_imu._temperature[instance] = temperature;`
			`}`