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/*
This program is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
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This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# pragma once
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# include <AP_HAL/AP_HAL_Boards.h>
# ifndef AP_OPTICALFLOW_ENABLED
# define AP_OPTICALFLOW_ENABLED 1
# endif
# ifndef HAL_MSP_OPTICALFLOW_ENABLED
# define HAL_MSP_OPTICALFLOW_ENABLED (AP_OPTICALFLOW_ENABLED && (HAL_MSP_ENABLED && !HAL_MINIMIZE_FEATURES))
# endif
# if AP_OPTICALFLOW_ENABLED
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/*
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* AP_OpticalFlow . h - OpticalFlow Base Class for ArduPilot
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*/
# include <AP_MSP/msp.h>
# include <AP_Math/AP_Math.h>
# include <GCS_MAVLink/GCS_MAVLink.h>
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# include "AP_OpticalFlow_Calibrator.h"
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class OpticalFlow_backend ;
class OpticalFlow
{
friend class OpticalFlow_backend ;
public :
OpticalFlow ( ) ;
/* Do not allow copies */
OpticalFlow ( const OpticalFlow & other ) = delete ;
OpticalFlow & operator = ( const OpticalFlow & ) = delete ;
// get singleton instance
static OpticalFlow * get_singleton ( ) {
return _singleton ;
}
enum class OpticalFlowType {
NONE = 0 ,
PX4FLOW = 1 ,
PIXART = 2 ,
BEBOP = 3 ,
CXOF = 4 ,
MAVLINK = 5 ,
UAVCAN = 6 ,
MSP = 7 ,
UPFLOW = 8 ,
SITL = 10 ,
} ;
// init - initialise sensor
void init ( uint32_t log_bit ) ;
// enabled - returns true if optical flow is enabled
bool enabled ( ) const { return _type ! = ( int8_t ) OpticalFlowType : : NONE ; }
// healthy - return true if the sensor is healthy
bool healthy ( ) const { return backend ! = nullptr & & _flags . healthy ; }
// read latest values from sensor and fill in x,y and totals.
void update ( void ) ;
// handle optical flow mavlink messages
void handle_msg ( const mavlink_message_t & msg ) ;
# if HAL_MSP_OPTICALFLOW_ENABLED
// handle optical flow msp messages
void handle_msp ( const MSP : : msp_opflow_data_message_t & pkt ) ;
# endif
// quality - returns the surface quality as a measure from 0 ~ 255
uint8_t quality ( ) const { return _state . surface_quality ; }
// raw - returns the raw movement from the sensor
const Vector2f & flowRate ( ) const { return _state . flowRate ; }
// velocity - returns the velocity in m/s
const Vector2f & bodyRate ( ) const { return _state . bodyRate ; }
// last_update() - returns system time of last sensor update
uint32_t last_update ( ) const { return _last_update_ms ; }
struct OpticalFlow_state {
uint8_t surface_quality ; // image quality (below TBD you can't trust the dx,dy values returned)
Vector2f flowRate ; // optical flow angular rate in rad/sec measured about the X and Y body axis. A RH rotation about a sensor axis produces a positive rate.
Vector2f bodyRate ; // body inertial angular rate in rad/sec measured about the X and Y body axis. A RH rotation about a sensor axis produces a positive rate.
} ;
// return a 3D vector defining the position offset of the sensors focal point in metres relative to the body frame origin
const Vector3f & get_pos_offset ( void ) const {
return _pos_offset ;
}
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// start or stop calibration
void start_calibration ( ) ;
void stop_calibration ( ) ;
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// parameter var info table
static const struct AP_Param : : GroupInfo var_info [ ] ;
private :
static OpticalFlow * _singleton ;
OpticalFlow_backend * backend ;
struct AP_OpticalFlow_Flags {
uint8_t healthy : 1 ; // true if sensor is healthy
} _flags ;
// parameters
AP_Int8 _type ; // user configurable sensor type
AP_Int16 _flowScalerX ; // X axis flow scale factor correction - parts per thousand
AP_Int16 _flowScalerY ; // Y axis flow scale factor correction - parts per thousand
AP_Int16 _yawAngle_cd ; // yaw angle of sensor X axis with respect to vehicle X axis - centi degrees
AP_Vector3f _pos_offset ; // position offset of the flow sensor in the body frame
AP_Int8 _address ; // address on the bus (allows selecting between 8 possible I2C addresses for px4flow)
// method called by backend to update frontend state:
void update_state ( const OpticalFlow_state & state ) ;
// state filled in by backend
struct OpticalFlow_state _state ;
uint32_t _last_update_ms ; // millis() time of last update
void Log_Write_Optflow ( ) ;
uint32_t _log_bit = - 1 ; // bitmask bit which indicates if we should log. -1 means we always log
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// calibrator
AP_OpticalFlow_Calibrator * _calibrator ;
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} ;
namespace AP {
OpticalFlow * opticalflow ( ) ;
}
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# include "AP_OpticalFlow_Backend.h"
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# endif // AP_OPTICALFLOW_ENABLED