mirror of https://github.com/ArduPilot/ardupilot
AP_Periph: added gnss::Fix2 support
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@ -29,6 +29,7 @@
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#include <uavcan/protocol/param/ExecuteOpcode.h>
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#include <uavcan/equipment/ahrs/MagneticFieldStrength.h>
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#include <uavcan/equipment/gnss/Fix.h>
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#include <uavcan/equipment/gnss/Fix2.h>
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#include <uavcan/equipment/gnss/Auxiliary.h>
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#include <uavcan/equipment/air_data/StaticPressure.h>
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#include <uavcan/equipment/air_data/StaticTemperature.h>
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@ -1119,73 +1120,73 @@ void AP_Periph_FW::can_gps_update(void)
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}
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last_gps_update_ms = gps.last_message_time_ms();
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/*
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send Fix packet
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*/
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uavcan_equipment_gnss_Fix pkt {};
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const Location &loc = gps.location();
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const Vector3f &vel = gps.velocity();
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pkt.timestamp.usec = AP_HAL::micros64();
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pkt.gnss_timestamp.usec = gps.time_epoch_usec();
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pkt.gnss_time_standard = UAVCAN_EQUIPMENT_GNSS_FIX_GNSS_TIME_STANDARD_UTC;
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pkt.longitude_deg_1e8 = uint64_t(loc.lng) * 10ULL;
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pkt.latitude_deg_1e8 = uint64_t(loc.lat) * 10ULL;
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pkt.height_ellipsoid_mm = loc.alt * 10;
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pkt.height_msl_mm = loc.alt * 10;
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for (uint8_t i=0; i<3; i++) {
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// the canard dsdl compiler doesn't understand float16
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pkt.ned_velocity[i] = vel[i];
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fix_float16(pkt.ned_velocity[i]);
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}
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pkt.sats_used = gps.num_sats();
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switch (gps.status()) {
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case AP_GPS::GPS_Status::NO_GPS:
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case AP_GPS::GPS_Status::NO_FIX:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_NO_FIX;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_2D:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_2D_FIX;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_DGPS:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FLOAT:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FIXED:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_3D_FIX;
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break;
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}
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float pos_cov[9] {};
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pkt.position_covariance.data = &pos_cov[0];
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pkt.position_covariance.len = 9;
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float vacc;
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if (gps.vertical_accuracy(vacc)) {
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pos_cov[8] = sq(vacc);
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fix_float16(pos_cov[8]);
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}
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float hacc;
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if (gps.horizontal_accuracy(hacc)) {
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pos_cov[0] = pos_cov[4] = sq(hacc);
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fix_float16(pos_cov[0]);
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fix_float16(pos_cov[4]);
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}
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float vel_cov[9] {};
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pkt.velocity_covariance.data = &pos_cov[0];
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pkt.velocity_covariance.len = 9;
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float sacc;
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if (gps.speed_accuracy(sacc)) {
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float vc3 = sq(sacc/3.0);
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vel_cov[0] = vel_cov[4] = vel_cov[8] = vc3;
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fix_float16(vel_cov[0]);
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fix_float16(vel_cov[4]);
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fix_float16(vel_cov[8]);
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}
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{
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/*
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send Fix packet
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*/
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uavcan_equipment_gnss_Fix pkt {};
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const Location &loc = gps.location();
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const Vector3f &vel = gps.velocity();
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pkt.timestamp.usec = AP_HAL::micros64();
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pkt.gnss_timestamp.usec = gps.time_epoch_usec();
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pkt.gnss_time_standard = UAVCAN_EQUIPMENT_GNSS_FIX_GNSS_TIME_STANDARD_UTC;
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pkt.longitude_deg_1e8 = uint64_t(loc.lng) * 10ULL;
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pkt.latitude_deg_1e8 = uint64_t(loc.lat) * 10ULL;
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pkt.height_ellipsoid_mm = loc.alt * 10;
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pkt.height_msl_mm = loc.alt * 10;
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for (uint8_t i=0; i<3; i++) {
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// the canard dsdl compiler doesn't understand float16
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pkt.ned_velocity[i] = vel[i];
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fix_float16(pkt.ned_velocity[i]);
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}
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pkt.sats_used = gps.num_sats();
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switch (gps.status()) {
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case AP_GPS::GPS_Status::NO_GPS:
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case AP_GPS::GPS_Status::NO_FIX:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_NO_FIX;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_2D:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_2D_FIX;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_DGPS:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FLOAT:
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FIXED:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX_STATUS_3D_FIX;
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break;
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}
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float pos_cov[9] {};
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pkt.position_covariance.data = &pos_cov[0];
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pkt.position_covariance.len = 9;
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float vacc;
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if (gps.vertical_accuracy(vacc)) {
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pos_cov[8] = sq(vacc);
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fix_float16(pos_cov[8]);
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}
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float hacc;
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if (gps.horizontal_accuracy(hacc)) {
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pos_cov[0] = pos_cov[4] = sq(hacc);
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fix_float16(pos_cov[0]);
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fix_float16(pos_cov[4]);
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}
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float vel_cov[9] {};
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pkt.velocity_covariance.data = &pos_cov[0];
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pkt.velocity_covariance.len = 9;
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float sacc;
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if (gps.speed_accuracy(sacc)) {
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float vc3 = sq(sacc);
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vel_cov[0] = vel_cov[4] = vel_cov[8] = vc3;
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fix_float16(vel_cov[0]);
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fix_float16(vel_cov[4]);
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fix_float16(vel_cov[8]);
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}
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uint8_t buffer[UAVCAN_EQUIPMENT_GNSS_FIX_MAX_SIZE];
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uint16_t total_size = uavcan_equipment_gnss_Fix_encode(&pkt, buffer);
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@ -1198,6 +1199,95 @@ void AP_Periph_FW::can_gps_update(void)
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total_size);
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}
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{
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/*
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send Fix2 packet
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*/
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uavcan_equipment_gnss_Fix2 pkt {};
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const Location &loc = gps.location();
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const Vector3f &vel = gps.velocity();
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pkt.timestamp.usec = AP_HAL::micros64();
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pkt.gnss_timestamp.usec = gps.time_epoch_usec();
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pkt.gnss_time_standard = UAVCAN_EQUIPMENT_GNSS_FIX2_GNSS_TIME_STANDARD_UTC;
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pkt.longitude_deg_1e8 = uint64_t(loc.lng) * 10ULL;
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pkt.latitude_deg_1e8 = uint64_t(loc.lat) * 10ULL;
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pkt.height_ellipsoid_mm = loc.alt * 10;
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pkt.height_msl_mm = loc.alt * 10;
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for (uint8_t i=0; i<3; i++) {
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pkt.ned_velocity[i] = vel[i];
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}
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pkt.sats_used = gps.num_sats();
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switch (gps.status()) {
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case AP_GPS::GPS_Status::NO_GPS:
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case AP_GPS::GPS_Status::NO_FIX:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_NO_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_2D:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_2D_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_DGPS:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_DGPS;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_SBAS;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FLOAT:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_RTK;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_RTK_FLOAT;
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break;
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case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FIXED:
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pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX;
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pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_RTK;
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pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_RTK_FIXED;
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break;
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}
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float cov[6] {};
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pkt.covariance.data = &cov[0];
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pkt.covariance.len = 6;
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float hacc;
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if (gps.horizontal_accuracy(hacc)) {
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cov[0] = cov[1] = sq(hacc);
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}
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float vacc;
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if (gps.vertical_accuracy(vacc)) {
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cov[2] = sq(vacc);
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}
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float sacc;
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if (gps.speed_accuracy(sacc)) {
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float vc3 = sq(sacc);
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cov[3] = cov[4] = cov[5] = vc3;
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}
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for (uint8_t i=0; i<6; i++) {
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fix_float16(cov[i]);
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}
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uint8_t buffer[UAVCAN_EQUIPMENT_GNSS_FIX2_MAX_SIZE];
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uint16_t total_size = uavcan_equipment_gnss_Fix2_encode(&pkt, buffer);
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canardBroadcast(&canard,
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UAVCAN_EQUIPMENT_GNSS_FIX2_SIGNATURE,
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UAVCAN_EQUIPMENT_GNSS_FIX2_ID,
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&transfer_id,
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CANARD_TRANSFER_PRIORITY_LOW,
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&buffer[0],
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total_size);
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}
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/*
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send aux packet
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*/
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