2016-08-17 01:28:16 -03:00
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#include "AP_Arming.h"
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#include "Rover.h"
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2017-06-30 15:48:35 -03:00
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// perform pre_arm_rc_checks checks
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bool AP_Arming_Rover::pre_arm_rc_checks(const bool display_failure)
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{
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// set rc-checks to success if RC checks are disabled
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if ((checks_to_perform != ARMING_CHECK_ALL) && !(checks_to_perform & ARMING_CHECK_RC)) {
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return true;
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}
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const RC_Channel *channels[] = {
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rover.channel_steer,
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rover.channel_throttle,
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};
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const char *channel_names[] = {"Steer", "Throttle"};
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for (uint8_t i= 0 ; i < ARRAY_SIZE(channels); i++) {
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const RC_Channel *channel = channels[i];
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const char *channel_name = channel_names[i];
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// check if radio has been calibrated
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if (channel->get_radio_min() > 1300) {
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2017-08-09 08:11:13 -03:00
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check_failed(ARMING_CHECK_RC, display_failure, "%s radio min too high", channel_name);
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2017-06-30 15:48:35 -03:00
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return false;
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}
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if (channel->get_radio_max() < 1700) {
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2017-08-09 08:11:13 -03:00
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check_failed(ARMING_CHECK_RC, display_failure, "%s radio max too low", channel_name);
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2017-06-30 15:48:35 -03:00
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return false;
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}
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if (channel->get_radio_trim() < channel->get_radio_min()) {
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2017-08-09 08:11:13 -03:00
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check_failed(ARMING_CHECK_RC, display_failure, "%s radio trim below min", channel_name);
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2017-06-30 15:48:35 -03:00
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return false;
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}
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if (channel->get_radio_trim() > channel->get_radio_max()) {
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2017-08-09 08:11:13 -03:00
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check_failed(ARMING_CHECK_RC, display_failure, "%s radio trim above max", channel_name);
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2017-06-30 15:48:35 -03:00
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return false;
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}
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}
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return true;
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}
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2017-11-29 02:30:37 -04:00
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// performs pre_arm gps related checks and returns true if passed
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bool AP_Arming_Rover::gps_checks(bool display_failure)
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{
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2018-01-22 07:03:14 -04:00
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if (!rover.control_mode->requires_position() && !rover.control_mode->requires_velocity()) {
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2017-11-29 02:30:37 -04:00
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// we don't care!
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return true;
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}
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// call parent gps checks
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return AP_Arming::gps_checks(display_failure);
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}
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2017-12-09 02:54:47 -04:00
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bool AP_Arming_Rover::pre_arm_checks(bool report)
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{
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2017-08-16 07:02:56 -03:00
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return (AP_Arming::pre_arm_checks(report)
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& rover.g2.motors.pre_arm_check(report)
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2017-08-16 07:57:42 -03:00
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& fence_checks(report)
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& proximity_check(report));
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2017-08-16 07:02:56 -03:00
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}
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bool AP_Arming_Rover::fence_checks(bool report)
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{
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// check fence is initialised
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const char *fail_msg = nullptr;
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2018-06-25 02:26:31 -03:00
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if (!rover.g2.fence.pre_arm_check(fail_msg)) {
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2017-08-16 07:02:56 -03:00
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if (report && fail_msg != nullptr) {
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gcs().send_text(MAV_SEVERITY_CRITICAL, "PreArm: Fence : %s", fail_msg);
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}
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return false;
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}
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return true;
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2017-12-09 02:54:47 -04:00
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}
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2017-08-16 07:57:42 -03:00
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// check nothing is too close to vehicle
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bool AP_Arming_Rover::proximity_check(bool report)
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{
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// return true immediately if no sensor present
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if (rover.g2.proximity.get_status() == AP_Proximity::Proximity_NotConnected) {
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return true;
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}
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// return false if proximity sensor unhealthy
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if (rover.g2.proximity.get_status() < AP_Proximity::Proximity_Good) {
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if (report) {
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gcs().send_text(MAV_SEVERITY_CRITICAL,"PreArm: check proximity sensor");
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}
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return false;
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}
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// get closest object if we might use it for avoidance
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float angle_deg, distance;
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2017-12-12 02:12:16 -04:00
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if (rover.g2.avoid.proximity_avoidance_enabled() && rover.g2.proximity.get_closest_object(angle_deg, distance)) {
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2017-08-16 07:57:42 -03:00
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// display error if something is within 60cm
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if (distance <= 0.6f) {
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if (report) {
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gcs().send_text(MAV_SEVERITY_CRITICAL, "PreArm: Proximity %d deg, %4.2fm", static_cast<int32_t>(angle_deg), static_cast<double>(distance));
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}
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return false;
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}
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}
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return true;
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}
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