mirror of https://github.com/ArduPilot/ardupilot
344 lines
9.1 KiB
C++
344 lines
9.1 KiB
C++
#include <AP_HAL/AP_HAL.h>
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#include <AP_Notify/AP_Notify.h>
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#include <GCS_MAVLink/GCS.h>
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#include "AP_Compass.h"
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extern AP_HAL::HAL& hal;
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void
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Compass::compass_cal_update()
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{
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bool running = false;
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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bool failure;
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_calibrator[i].update(failure);
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if (failure) {
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AP_Notify::events.compass_cal_failed = 1;
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}
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if (_calibrator[i].check_for_timeout()) {
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AP_Notify::events.compass_cal_failed = 1;
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cancel_calibration_all();
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}
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if (_calibrator[i].running()) {
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running = true;
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} else if (_cal_autosave && !_cal_saved[i] && _calibrator[i].get_status() == COMPASS_CAL_SUCCESS) {
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_accept_calibration(i);
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}
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}
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AP_Notify::flags.compass_cal_running = running;
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if (is_calibrating()) {
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_cal_has_run = true;
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return;
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} else if (_cal_has_run && _auto_reboot()) {
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hal.scheduler->delay(1000);
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hal.scheduler->reboot(false);
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}
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}
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bool
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Compass::_start_calibration(uint8_t i, bool retry, float delay)
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{
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if (!healthy(i)) {
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return false;
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}
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if (!use_for_yaw(i)) {
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return false;
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}
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if (!is_calibrating()) {
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AP_Notify::events.initiated_compass_cal = 1;
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}
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if (i == get_primary() && _state[i].external != 0) {
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_calibrator[i].set_tolerance(_calibration_threshold);
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} else {
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// internal compasses or secondary compasses get twice the
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// threshold. This is because internal compasses tend to be a
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// lot noisier
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_calibrator[i].set_tolerance(_calibration_threshold*2);
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}
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_cal_saved[i] = false;
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_calibrator[i].start(retry, delay);
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// disable compass learning both for calibration and after completion
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_learn.set_and_save(0);
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return true;
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}
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bool
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Compass::_start_calibration_mask(uint8_t mask, bool retry, bool autosave, float delay, bool autoreboot)
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{
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_cal_autosave = autosave;
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_compass_cal_autoreboot = autoreboot;
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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if ((1<<i) & mask) {
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if (!_start_calibration(i,retry,delay)) {
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_cancel_calibration_mask(mask);
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return false;
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}
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}
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}
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return true;
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}
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void
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Compass::start_calibration_all(bool retry, bool autosave, float delay, bool autoreboot)
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{
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_cal_autosave = autosave;
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_compass_cal_autoreboot = autoreboot;
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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// ignore any compasses that fail to start calibrating
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// start all should only calibrate compasses that are being used
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_start_calibration(i,retry,delay);
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}
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}
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void
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Compass::_cancel_calibration(uint8_t i)
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{
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AP_Notify::events.initiated_compass_cal = 0;
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if (_calibrator[i].running() || _calibrator[i].get_status() == COMPASS_CAL_WAITING_TO_START) {
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AP_Notify::events.compass_cal_canceled = 1;
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}
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_cal_saved[i] = false;
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_calibrator[i].clear();
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}
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void
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Compass::_cancel_calibration_mask(uint8_t mask)
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{
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for(uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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if((1<<i) & mask) {
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_cancel_calibration(i);
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}
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}
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}
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void
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Compass::cancel_calibration_all()
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{
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_cancel_calibration_mask(0xFF);
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}
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bool
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Compass::_accept_calibration(uint8_t i)
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{
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CompassCalibrator& cal = _calibrator[i];
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uint8_t cal_status = cal.get_status();
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if (_cal_saved[i] || cal_status == COMPASS_CAL_NOT_STARTED) {
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return true;
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} else if (cal_status == COMPASS_CAL_SUCCESS) {
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_cal_complete_requires_reboot = true;
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_cal_saved[i] = true;
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Vector3f ofs, diag, offdiag;
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cal.get_calibration(ofs, diag, offdiag);
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set_and_save_offsets(i, ofs);
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set_and_save_diagonals(i,diag);
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set_and_save_offdiagonals(i,offdiag);
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if (!is_calibrating()) {
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AP_Notify::events.compass_cal_saved = 1;
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}
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return true;
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} else {
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return false;
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}
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}
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bool
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Compass::_accept_calibration_mask(uint8_t mask)
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{
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bool success = true;
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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if ((1<<i) & mask) {
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if (!_accept_calibration(i)) {
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success = false;
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}
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_calibrator[i].clear();
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}
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}
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return success;
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}
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void
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Compass::send_mag_cal_progress(mavlink_channel_t chan)
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{
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uint8_t cal_mask = _get_cal_mask();
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for (uint8_t compass_id=0; compass_id<COMPASS_MAX_INSTANCES; compass_id++) {
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// ensure we don't try to send with no space available
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if (!HAVE_PAYLOAD_SPACE(chan, MAG_CAL_PROGRESS)) {
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return;
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}
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auto& calibrator = _calibrator[compass_id];
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uint8_t cal_status = calibrator.get_status();
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if (cal_status == COMPASS_CAL_WAITING_TO_START ||
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cal_status == COMPASS_CAL_RUNNING_STEP_ONE ||
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cal_status == COMPASS_CAL_RUNNING_STEP_TWO) {
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uint8_t completion_pct = calibrator.get_completion_percent();
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auto& completion_mask = calibrator.get_completion_mask();
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Vector3f direction(0.0f,0.0f,0.0f);
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uint8_t attempt = _calibrator[compass_id].get_attempt();
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mavlink_msg_mag_cal_progress_send(
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chan,
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compass_id, cal_mask,
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cal_status, attempt, completion_pct, completion_mask,
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direction.x, direction.y, direction.z
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);
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}
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}
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}
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void Compass::send_mag_cal_report(mavlink_channel_t chan)
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{
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uint8_t cal_mask = _get_cal_mask();
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for (uint8_t compass_id=0; compass_id<COMPASS_MAX_INSTANCES; compass_id++) {
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// ensure we don't try to send with no space available
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if (!HAVE_PAYLOAD_SPACE(chan, MAG_CAL_REPORT)) {
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return;
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}
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uint8_t cal_status = _calibrator[compass_id].get_status();
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if ((cal_status == COMPASS_CAL_SUCCESS ||
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cal_status == COMPASS_CAL_FAILED)) {
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float fitness = _calibrator[compass_id].get_fitness();
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Vector3f ofs, diag, offdiag;
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_calibrator[compass_id].get_calibration(ofs, diag, offdiag);
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uint8_t autosaved = _cal_saved[compass_id];
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mavlink_msg_mag_cal_report_send(
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chan,
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compass_id, cal_mask,
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cal_status, autosaved,
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fitness,
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ofs.x, ofs.y, ofs.z,
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diag.x, diag.y, diag.z,
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offdiag.x, offdiag.y, offdiag.z
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);
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}
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}
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}
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bool
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Compass::is_calibrating() const
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{
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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switch(_calibrator[i].get_status()) {
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case COMPASS_CAL_NOT_STARTED:
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case COMPASS_CAL_SUCCESS:
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case COMPASS_CAL_FAILED:
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break;
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default:
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return true;
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}
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}
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return false;
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}
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uint8_t
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Compass::_get_cal_mask() const
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{
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uint8_t cal_mask = 0;
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for (uint8_t i=0; i<COMPASS_MAX_INSTANCES; i++) {
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if (_calibrator[i].get_status() != COMPASS_CAL_NOT_STARTED) {
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cal_mask |= 1 << i;
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}
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}
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return cal_mask;
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}
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/*
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handle an incoming MAG_CAL command
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*/
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uint8_t Compass::handle_mag_cal_command(const mavlink_command_long_t &packet)
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{
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uint8_t result = MAV_RESULT_FAILED;
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switch (packet.command) {
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case MAV_CMD_DO_START_MAG_CAL: {
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result = MAV_RESULT_ACCEPTED;
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if (hal.util->get_soft_armed()) {
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hal.console->println("Disarm for compass calibration");
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result = MAV_RESULT_FAILED;
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break;
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}
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if (packet.param1 < 0 || packet.param1 > 255) {
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result = MAV_RESULT_FAILED;
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break;
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}
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uint8_t mag_mask = packet.param1;
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bool retry = !is_zero(packet.param2);
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bool autosave = !is_zero(packet.param3);
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float delay = packet.param4;
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bool autoreboot = !is_zero(packet.param5);
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if (mag_mask == 0) { // 0 means all
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start_calibration_all(retry, autosave, delay, autoreboot);
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} else {
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if (!_start_calibration_mask(mag_mask, retry, autosave, delay, autoreboot)) {
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result = MAV_RESULT_FAILED;
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}
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}
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break;
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}
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case MAV_CMD_DO_ACCEPT_MAG_CAL: {
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result = MAV_RESULT_ACCEPTED;
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if(packet.param1 < 0 || packet.param1 > 255) {
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result = MAV_RESULT_FAILED;
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break;
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}
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uint8_t mag_mask = packet.param1;
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if (mag_mask == 0) { // 0 means all
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mag_mask = 0xFF;
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}
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if(!_accept_calibration_mask(mag_mask)) {
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result = MAV_RESULT_FAILED;
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}
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break;
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}
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case MAV_CMD_DO_CANCEL_MAG_CAL: {
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result = MAV_RESULT_ACCEPTED;
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if(packet.param1 < 0 || packet.param1 > 255) {
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result = MAV_RESULT_FAILED;
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break;
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}
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uint8_t mag_mask = packet.param1;
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if (mag_mask == 0) { // 0 means all
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cancel_calibration_all();
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break;
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}
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_cancel_calibration_mask(mag_mask);
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break;
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}
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}
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return result;
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}
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