mirror of https://github.com/ArduPilot/ardupilot
501 lines
15 KiB
C++
501 lines
15 KiB
C++
/*
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* geo-fencing support
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* Andrew Tridgell, December 2011
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*/
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#include "Plane.h"
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#if GEOFENCE_ENABLED == ENABLED
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#define MIN_GEOFENCE_POINTS 5 // index [0] for return point, must be inside polygon
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// index [1 to n-1] to define a polygon, minimum 3 for a triangle
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// index [n] (must be same as index 1 to close the polygon)
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/*
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* The state of geo-fencing. This structure is dynamically allocated
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* the first time it is used. This means we only pay for the pointer
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* and not the structure on systems where geo-fencing is not being
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* used.
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*
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* We store a copy of the boundary in memory as we need to access it
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* very quickly at runtime
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*/
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static struct GeofenceState {
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uint8_t num_points;
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bool boundary_uptodate;
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bool fence_triggered;
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bool is_pwm_enabled; //true if above FENCE_ENABLE_PWM threshold
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bool previous_is_pwm_enabled; //true if above FENCE_ENALBE_PWM threshold
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// last time we checked
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bool is_enabled;
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GeofenceEnableReason enable_reason;
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bool floor_enabled; //typically used for landing
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uint16_t breach_count;
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uint8_t breach_type;
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uint32_t breach_time;
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uint8_t old_switch_position;
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int32_t guided_lat;
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int32_t guided_lng;
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/* point 0 is the return point */
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Vector2l *boundary;
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} *geofence_state;
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static const StorageAccess fence_storage(StorageManager::StorageFence);
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/*
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maximum number of fencepoints
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*/
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uint8_t Plane::max_fencepoints(void)
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{
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return MIN(255U, fence_storage.size() / sizeof(Vector2l));
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}
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/*
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* fence boundaries fetch/store
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*/
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Vector2l Plane::get_fence_point_with_index(unsigned i)
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{
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Vector2l ret;
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if (i > (unsigned)g.fence_total || i >= max_fencepoints()) {
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return Vector2l(0,0);
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}
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// read fence point
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ret.x = fence_storage.read_uint32(i * sizeof(Vector2l));
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ret.y = fence_storage.read_uint32(i * sizeof(Vector2l) + sizeof(int32_t));
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return ret;
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}
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// save a fence point
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void Plane::set_fence_point_with_index(const Vector2l &point, unsigned i)
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{
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if (i >= (unsigned)g.fence_total.get() || i >= max_fencepoints()) {
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// not allowed
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return;
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}
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fence_storage.write_uint32(i * sizeof(Vector2l), point.x);
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fence_storage.write_uint32(i * sizeof(Vector2l) + sizeof(int32_t), point.y);
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if (geofence_state != nullptr) {
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geofence_state->boundary_uptodate = false;
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}
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}
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/*
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* allocate and fill the geofence state structure
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*/
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void Plane::geofence_load(void)
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{
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uint8_t i;
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if (geofence_state == nullptr) {
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uint16_t boundary_size = sizeof(Vector2l) * max_fencepoints();
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if (hal.util->available_memory() < 100 + boundary_size + sizeof(struct GeofenceState)) {
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// too risky to enable as we could run out of stack
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geofence_disable_and_send_error_msg("low on memory");
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return;
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}
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geofence_state = (struct GeofenceState *)calloc(1, sizeof(struct GeofenceState));
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if (geofence_state == nullptr) {
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// not much we can do here except disable it
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geofence_disable_and_send_error_msg("failed to init state memory");
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return;
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}
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geofence_state->boundary = (Vector2l *)calloc(1, boundary_size);
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if (geofence_state->boundary == nullptr) {
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free(geofence_state);
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geofence_state = nullptr;
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geofence_disable_and_send_error_msg("failed to init boundary memory");
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return;
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}
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geofence_state->old_switch_position = 254;
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}
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if (g.fence_total <= 0) {
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g.fence_total.set(0);
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return;
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}
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for (i=0; i<g.fence_total; i++) {
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geofence_state->boundary[i] = get_fence_point_with_index(i);
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}
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geofence_state->num_points = i;
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if (!Polygon_complete(&geofence_state->boundary[1], geofence_state->num_points-1)) {
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geofence_disable_and_send_error_msg("pt[1] and pt[total-1] must match");
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return;
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}
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if (Polygon_outside(geofence_state->boundary[0], &geofence_state->boundary[1], geofence_state->num_points-1)) {
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geofence_disable_and_send_error_msg("pt[0] must be inside fence");
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return;
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}
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geofence_state->boundary_uptodate = true;
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geofence_state->fence_triggered = false;
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gcs().send_text(MAV_SEVERITY_INFO,"Geofence loaded");
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gcs().send_message(MSG_FENCE_STATUS);
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}
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/*
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* Disable geofence and send an error message string
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*/
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void Plane::geofence_disable_and_send_error_msg(const char *errorMsg)
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{
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g.fence_action.set(FENCE_ACTION_NONE);
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gcs().send_text(MAV_SEVERITY_WARNING,"Geofence error, %s", errorMsg);
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}
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/*
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* return true if a geo-fence has been uploaded and
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* FENCE_ACTION is 1 (not necessarily enabled)
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*/
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bool Plane::geofence_present(void)
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{
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//require at least a return point and a triangle
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//to define a geofence area:
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if (g.fence_action == FENCE_ACTION_NONE || g.fence_total < MIN_GEOFENCE_POINTS) {
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return false;
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}
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return true;
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}
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/*
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check FENCE_CHANNEL and update the is_pwm_enabled state
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*/
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void Plane::geofence_update_pwm_enabled_state()
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{
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bool is_pwm_enabled;
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if (g.fence_channel == 0) {
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is_pwm_enabled = false;
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} else {
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is_pwm_enabled = (RC_Channels::get_radio_in(g.fence_channel-1) > FENCE_ENABLE_PWM);
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}
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if (is_pwm_enabled && geofence_state == nullptr) {
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// we need to load the fence
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geofence_load();
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return;
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}
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if (geofence_state == nullptr) {
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// not loaded
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return;
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}
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geofence_state->previous_is_pwm_enabled = geofence_state->is_pwm_enabled;
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geofence_state->is_pwm_enabled = is_pwm_enabled;
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if (geofence_state->is_pwm_enabled != geofence_state->previous_is_pwm_enabled) {
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geofence_set_enabled(geofence_state->is_pwm_enabled, PWM_TOGGLED);
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}
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}
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//return true on success, false on failure
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bool Plane::geofence_set_enabled(bool enable, GeofenceEnableReason r)
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{
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if (geofence_state == nullptr && enable) {
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geofence_load();
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}
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if (geofence_state == nullptr) {
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return false;
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}
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geofence_state->is_enabled = enable;
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if (enable == true) {
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//turn the floor back on if it had been off
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geofence_set_floor_enabled(true);
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}
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geofence_state->enable_reason = r;
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return true;
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}
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/*
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* return true if geo-fencing is enabled
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*/
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bool Plane::geofence_enabled(void)
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{
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geofence_update_pwm_enabled_state();
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if (geofence_state == nullptr) {
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return false;
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}
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if (g.fence_action == FENCE_ACTION_NONE ||
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!geofence_present() ||
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(g.fence_action != FENCE_ACTION_REPORT && !geofence_state->is_enabled)) {
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// geo-fencing is disabled
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// re-arm for when the channel trigger is switched on
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geofence_state->fence_triggered = false;
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return false;
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}
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return true;
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}
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/*
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* Set floor state IF the fence is present.
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* Return false on failure to set floor state.
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*/
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bool Plane::geofence_set_floor_enabled(bool floor_enable) {
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if (geofence_state == nullptr) {
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return false;
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}
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geofence_state->floor_enabled = floor_enable;
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return true;
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}
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/*
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* return true if we have breached the geo-fence minimum altiude
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*/
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bool Plane::geofence_check_minalt(void)
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{
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if (g.fence_maxalt <= g.fence_minalt) {
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return false;
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}
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if (g.fence_minalt == 0) {
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return false;
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}
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return (adjusted_altitude_cm() < (g.fence_minalt*100.0f) + home.alt);
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}
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/*
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* return true if we have breached the geo-fence maximum altiude
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*/
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bool Plane::geofence_check_maxalt(void)
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{
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if (g.fence_maxalt <= g.fence_minalt) {
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return false;
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}
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if (g.fence_maxalt == 0) {
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return false;
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}
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return (adjusted_altitude_cm() > (g.fence_maxalt*100.0f) + home.alt);
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}
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/*
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* check if we have breached the geo-fence
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*/
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void Plane::geofence_check(bool altitude_check_only)
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{
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if (!geofence_enabled()) {
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// switch back to the chosen control mode if still in
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// GUIDED to the return point
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if (geofence_state != nullptr &&
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(g.fence_action == FENCE_ACTION_GUIDED || g.fence_action == FENCE_ACTION_GUIDED_THR_PASS || g.fence_action == FENCE_ACTION_RTL) &&
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(control_mode == &mode_guided || control_mode == &mode_avoidADSB) &&
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geofence_present() &&
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geofence_state->boundary_uptodate &&
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geofence_state->old_switch_position == oldSwitchPosition &&
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guided_WP_loc.lat == geofence_state->guided_lat &&
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guided_WP_loc.lng == geofence_state->guided_lng) {
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geofence_state->old_switch_position = 254;
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set_mode(*previous_mode, MODE_REASON_GCS_COMMAND);
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}
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return;
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}
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/* allocate the geo-fence state if need be */
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if (geofence_state == nullptr || !geofence_state->boundary_uptodate) {
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geofence_load();
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if (!geofence_enabled()) {
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// may have been disabled by load
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return;
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}
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}
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bool outside = false;
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uint8_t breach_type = FENCE_BREACH_NONE;
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struct Location loc;
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// Never trigger a fence breach in the final stage of landing
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if (landing.is_expecting_impact()) {
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return;
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}
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if (geofence_state->floor_enabled && geofence_check_minalt()) {
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outside = true;
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breach_type = FENCE_BREACH_MINALT;
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} else if (geofence_check_maxalt()) {
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outside = true;
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breach_type = FENCE_BREACH_MAXALT;
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} else if (!altitude_check_only && ahrs.get_position(loc)) {
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Vector2l location;
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location.x = loc.lat;
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location.y = loc.lng;
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outside = Polygon_outside(location, &geofence_state->boundary[1], geofence_state->num_points-1);
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if (outside) {
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breach_type = FENCE_BREACH_BOUNDARY;
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}
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}
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if (!outside) {
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if (geofence_state->fence_triggered && !altitude_check_only) {
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// we have moved back inside the fence
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geofence_state->fence_triggered = false;
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gcs().send_text(MAV_SEVERITY_INFO,"Geofence OK");
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#if FENCE_TRIGGERED_PIN > 0
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hal.gpio->pinMode(FENCE_TRIGGERED_PIN, HAL_GPIO_OUTPUT);
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hal.gpio->write(FENCE_TRIGGERED_PIN, 0);
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#endif
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gcs().send_message(MSG_FENCE_STATUS);
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}
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// we're inside, all is good with the world
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return;
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}
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// we are outside the fence
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if (geofence_state->fence_triggered &&
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(control_mode == &mode_guided || control_mode == &mode_avoidADSB || control_mode == &mode_rtl || g.fence_action == FENCE_ACTION_REPORT)) {
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// we have already triggered, don't trigger again until the
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// user disables/re-enables using the fence channel switch
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return;
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}
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// we are outside, and have not previously triggered.
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geofence_state->fence_triggered = true;
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geofence_state->breach_count++;
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geofence_state->breach_time = millis();
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geofence_state->breach_type = breach_type;
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#if FENCE_TRIGGERED_PIN > 0
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hal.gpio->pinMode(FENCE_TRIGGERED_PIN, HAL_GPIO_OUTPUT);
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hal.gpio->write(FENCE_TRIGGERED_PIN, 1);
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#endif
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gcs().send_text(MAV_SEVERITY_NOTICE,"Geofence triggered");
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gcs().send_message(MSG_FENCE_STATUS);
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// see what action the user wants
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switch (g.fence_action) {
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case FENCE_ACTION_REPORT:
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break;
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case FENCE_ACTION_GUIDED:
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case FENCE_ACTION_GUIDED_THR_PASS:
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case FENCE_ACTION_RTL:
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// make sure we don't auto trim the surfaces on this mode change
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int8_t saved_auto_trim = g.auto_trim;
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g.auto_trim.set(0);
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if (g.fence_action == FENCE_ACTION_RTL) {
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set_mode(mode_rtl, MODE_REASON_FENCE_BREACH);
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} else {
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set_mode(mode_guided, MODE_REASON_FENCE_BREACH);
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}
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g.auto_trim.set(saved_auto_trim);
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if (g.fence_ret_rally != 0 || g.fence_action == FENCE_ACTION_RTL) { //return to a rally point
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guided_WP_loc = rally.calc_best_rally_or_home_location(current_loc, get_RTL_altitude());
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} else { //return to fence return point, not a rally point
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guided_WP_loc = {};
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if (g.fence_retalt > 0) {
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//fly to the return point using fence_retalt
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guided_WP_loc.alt = home.alt + 100.0f*g.fence_retalt;
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} else if (g.fence_minalt >= g.fence_maxalt) {
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// invalid min/max, use RTL_altitude
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guided_WP_loc.alt = home.alt + g.RTL_altitude_cm;
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} else {
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// fly to the return point, with an altitude half way between
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// min and max
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guided_WP_loc.alt = home.alt + 100.0f*(g.fence_minalt + g.fence_maxalt)/2;
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}
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guided_WP_loc.lat = geofence_state->boundary[0].x;
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guided_WP_loc.lng = geofence_state->boundary[0].y;
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}
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geofence_state->guided_lat = guided_WP_loc.lat;
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geofence_state->guided_lng = guided_WP_loc.lng;
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geofence_state->old_switch_position = oldSwitchPosition;
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if (g.fence_action != FENCE_ACTION_RTL) { //not needed for RTL mode
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setup_terrain_target_alt(guided_WP_loc);
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set_guided_WP();
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}
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if (g.fence_action == FENCE_ACTION_GUIDED_THR_PASS) {
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guided_throttle_passthru = true;
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}
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break;
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}
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}
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/*
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* return true if geofencing allows stick mixing. When we have
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* triggered failsafe and are in GUIDED mode then stick mixing is
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* disabled. Otherwise the aircraft may not be able to recover from
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* a breach of the geo-fence
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*/
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bool Plane::geofence_stickmixing(void) {
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if (geofence_enabled() &&
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geofence_state != nullptr &&
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geofence_state->fence_triggered &&
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(control_mode == &mode_guided || control_mode == &mode_avoidADSB)) {
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// don't mix in user input
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return false;
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}
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// normal mixing rules
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return true;
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}
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/*
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*
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*/
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void Plane::geofence_send_status(mavlink_channel_t chan)
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{
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if (geofence_enabled() && geofence_state != nullptr) {
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mavlink_msg_fence_status_send(chan,
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(int8_t)geofence_state->fence_triggered,
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geofence_state->breach_count,
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geofence_state->breach_type,
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geofence_state->breach_time);
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}
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}
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/*
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return true if geofence has been breached
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*/
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bool Plane::geofence_breached(void)
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{
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return geofence_state ? geofence_state->fence_triggered : false;
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}
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#else // GEOFENCE_ENABLED
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void Plane::geofence_check(bool altitude_check_only) {
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}
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bool Plane::geofence_stickmixing(void) {
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return true;
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}
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bool Plane::geofence_enabled(void) {
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return false;
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}
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bool Plane::geofence_present(void) {
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return false;
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}
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bool Plane::geofence_set_enabled(bool enable, GeofenceEnableReason r) {
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return false;
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}
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bool Plane::geofence_set_floor_enabled(bool floor_enable) {
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return false;
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}
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bool Plane::geofence_breached(void)
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{
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return false;
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}
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#endif // GEOFENCE_ENABLED
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