mirror of https://github.com/ArduPilot/ardupilot
250 lines
7.8 KiB
C++
250 lines
7.8 KiB
C++
#include <AP_BoardConfig/AP_BoardConfig.h>
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#include "OpticalFlow.h"
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#include "AP_OpticalFlow_Onboard.h"
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#include "AP_OpticalFlow_SITL.h"
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#include "AP_OpticalFlow_Pixart.h"
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#include "AP_OpticalFlow_PX4Flow.h"
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#include "AP_OpticalFlow_CXOF.h"
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#include "AP_OpticalFlow_MAV.h"
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#include "AP_OpticalFlow_HereFlow.h"
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#include "AP_OpticalFlow_MSP.h"
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#include "AP_OpticalFlow_UPFLOW.h"
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#include <AP_Logger/AP_Logger.h>
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extern const AP_HAL::HAL& hal;
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#ifndef OPTICAL_FLOW_TYPE_DEFAULT
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#if CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_CHIBIOS_SKYVIPER_F412 || defined(HAL_HAVE_PIXARTFLOW_SPI)
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#define OPTICAL_FLOW_TYPE_DEFAULT OpticalFlowType::PIXART
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#elif CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_BEBOP
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#define OPTICAL_FLOW_TYPE_DEFAULT OpticalFlowType::BEBOP
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#else
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#define OPTICAL_FLOW_TYPE_DEFAULT OpticalFlowType::NONE
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#endif
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#endif
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const AP_Param::GroupInfo OpticalFlow::var_info[] = {
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// @Param: _TYPE
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// @DisplayName: Optical flow sensor type
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// @Description: Optical flow sensor type
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// @Values: 0:None, 1:PX4Flow, 2:Pixart, 3:Bebop, 4:CXOF, 5:MAVLink, 6:UAVCAN, 7:MSP, 8:UPFLOW
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// @User: Standard
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// @RebootRequired: True
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AP_GROUPINFO_FLAGS("_TYPE", 0, OpticalFlow, _type, (int8_t)OPTICAL_FLOW_TYPE_DEFAULT, AP_PARAM_FLAG_ENABLE),
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// @Param: _FXSCALER
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// @DisplayName: X axis optical flow scale factor correction
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// @Description: This sets the parts per thousand scale factor correction applied to the flow sensor X axis optical rate. It can be used to correct for variations in effective focal length. Each positive increment of 1 increases the scale factor applied to the X axis optical flow reading by 0.1%. Negative values reduce the scale factor.
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// @Range: -200 +200
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// @Increment: 1
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// @User: Standard
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AP_GROUPINFO("_FXSCALER", 1, OpticalFlow, _flowScalerX, 0),
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// @Param: _FYSCALER
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// @DisplayName: Y axis optical flow scale factor correction
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// @Description: This sets the parts per thousand scale factor correction applied to the flow sensor Y axis optical rate. It can be used to correct for variations in effective focal length. Each positive increment of 1 increases the scale factor applied to the Y axis optical flow reading by 0.1%. Negative values reduce the scale factor.
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// @Range: -200 +200
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// @Increment: 1
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// @User: Standard
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AP_GROUPINFO("_FYSCALER", 2, OpticalFlow, _flowScalerY, 0),
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// @Param: _ORIENT_YAW
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// @DisplayName: Flow sensor yaw alignment
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// @Description: Specifies the number of centi-degrees that the flow sensor is yawed relative to the vehicle. A sensor with its X-axis pointing to the right of the vehicle X axis has a positive yaw angle.
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// @Units: cdeg
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// @Range: -17999 +18000
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// @Increment: 10
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// @User: Standard
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AP_GROUPINFO("_ORIENT_YAW", 3, OpticalFlow, _yawAngle_cd, 0),
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// @Param: _POS_X
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// @DisplayName: X position offset
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// @Description: X position of the optical flow sensor focal point in body frame. Positive X is forward of the origin.
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// @Units: m
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// @Range: -5 5
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// @Increment: 0.01
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// @User: Advanced
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// @Param: _POS_Y
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// @DisplayName: Y position offset
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// @Description: Y position of the optical flow sensor focal point in body frame. Positive Y is to the right of the origin.
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// @Units: m
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// @Range: -5 5
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// @Increment: 0.01
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// @User: Advanced
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// @Param: _POS_Z
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// @DisplayName: Z position offset
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// @Description: Z position of the optical flow sensor focal point in body frame. Positive Z is down from the origin.
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// @Units: m
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// @Range: -5 5
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("_POS", 4, OpticalFlow, _pos_offset, 0.0f),
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// @Param: _ADDR
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// @DisplayName: Address on the bus
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// @Description: This is used to select between multiple possible I2C addresses for some sensor types. For PX4Flow you can choose 0 to 7 for the 8 possible addresses on the I2C bus.
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// @Range: 0 127
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// @User: Advanced
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AP_GROUPINFO("_ADDR", 5, OpticalFlow, _address, 0),
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AP_GROUPEND
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};
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// default constructor
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OpticalFlow::OpticalFlow()
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{
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_singleton = this;
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AP_Param::setup_object_defaults(this, var_info);
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}
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void OpticalFlow::init(uint32_t log_bit)
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{
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_log_bit = log_bit;
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// return immediately if not enabled or backend already created
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if ((_type == (int8_t)OpticalFlowType::NONE) || (backend != nullptr)) {
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return;
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}
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switch ((OpticalFlowType)_type.get()) {
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case OpticalFlowType::NONE:
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break;
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case OpticalFlowType::PX4FLOW:
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backend = AP_OpticalFlow_PX4Flow::detect(*this);
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break;
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case OpticalFlowType::PIXART:
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backend = AP_OpticalFlow_Pixart::detect("pixartflow", *this);
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if (backend == nullptr) {
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backend = AP_OpticalFlow_Pixart::detect("pixartPC15", *this);
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}
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break;
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case OpticalFlowType::BEBOP:
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#if CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_BEBOP
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backend = new AP_OpticalFlow_Onboard(*this);
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#endif
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break;
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case OpticalFlowType::CXOF:
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backend = AP_OpticalFlow_CXOF::detect(*this);
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break;
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case OpticalFlowType::MAVLINK:
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backend = AP_OpticalFlow_MAV::detect(*this);
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break;
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case OpticalFlowType::UAVCAN:
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#if HAL_ENABLE_LIBUAVCAN_DRIVERS
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backend = new AP_OpticalFlow_HereFlow(*this);
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#endif
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break;
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case OpticalFlowType::MSP:
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#if HAL_MSP_OPTICALFLOW_ENABLED
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backend = AP_OpticalFlow_MSP::detect(*this);
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#endif
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break;
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case OpticalFlowType::UPFLOW:
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backend = AP_OpticalFlow_UPFLOW::detect(*this);
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break;
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case OpticalFlowType::SITL:
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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backend = new AP_OpticalFlow_SITL(*this);
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#endif
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break;
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}
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if (backend != nullptr) {
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backend->init();
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}
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}
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void OpticalFlow::update(void)
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{
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// exit immediately if not enabled
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if (!enabled()) {
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return;
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}
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if (backend != nullptr) {
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backend->update();
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}
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// only healthy if the data is less than 0.5s old
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_flags.healthy = (AP_HAL::millis() - _last_update_ms < 500);
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}
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void OpticalFlow::handle_msg(const mavlink_message_t &msg)
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{
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// exit immediately if not enabled
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if (!enabled()) {
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return;
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}
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if (backend != nullptr) {
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backend->handle_msg(msg);
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}
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}
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#if HAL_MSP_OPTICALFLOW_ENABLED
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void OpticalFlow::handle_msp(const MSP::msp_opflow_data_message_t &pkt)
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{
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// exit immediately if not enabled
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if (!enabled()) {
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return;
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}
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if (backend != nullptr) {
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backend->handle_msp(pkt);
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}
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}
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#endif //HAL_MSP_OPTICALFLOW_ENABLED
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void OpticalFlow::update_state(const OpticalFlow_state &state)
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{
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_state = state;
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_last_update_ms = AP_HAL::millis();
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// write to log and send to EKF if new data has arrived
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AP::ahrs_navekf().writeOptFlowMeas(quality(),
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_state.flowRate,
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_state.bodyRate,
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_last_update_ms,
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get_pos_offset());
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Log_Write_Optflow();
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}
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void OpticalFlow::Log_Write_Optflow()
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{
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AP_Logger *logger = AP_Logger::get_singleton();
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if (logger == nullptr) {
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return;
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}
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if (_log_bit != (uint32_t)-1 &&
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!logger->should_log(_log_bit)) {
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return;
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}
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struct log_Optflow pkt = {
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LOG_PACKET_HEADER_INIT(LOG_OPTFLOW_MSG),
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time_us : AP_HAL::micros64(),
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surface_quality : _state.surface_quality,
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flow_x : _state.flowRate.x,
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flow_y : _state.flowRate.y,
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body_x : _state.bodyRate.x,
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body_y : _state.bodyRate.y
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};
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logger->WriteBlock(&pkt, sizeof(pkt));
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}
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// singleton instance
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OpticalFlow *OpticalFlow::_singleton;
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namespace AP {
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OpticalFlow *opticalflow()
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{
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return OpticalFlow::get_singleton();
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}
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}
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