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ardupilot/ArduCopter/surface_tracking.cpp

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C++
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#include "Copter.h"
// update_surface_offset - manages the vertical offset of the position controller to follow the measured ground or ceiling
// level measured using the range finder.
void Copter::SurfaceTracking::update_surface_offset()
{
float offset_cm = 0.0;
#if RANGEFINDER_ENABLED == ENABLED
// check tracking state and that range finders are healthy
if (((surface == Surface::GROUND) && copter.rangefinder_alt_ok() && (copter.rangefinder_state.glitch_count == 0)) ||
((surface == Surface::CEILING) && copter.rangefinder_up_ok() && (copter.rangefinder_up_state.glitch_count == 0))) {
// init based on tracking direction/state
RangeFinderState &rf_state = (surface == Surface::GROUND) ? copter.rangefinder_state : copter.rangefinder_up_state;
const float dir = (surface == Surface::GROUND) ? 1.0f : -1.0f;
offset_cm = copter.inertial_nav.get_altitude() - dir * rf_state.alt_cm;
// reset target altitude if this controller has just been engaged
// target has been changed between upwards vs downwards
// or glitch has cleared
const uint32_t now = millis();
if ((now - last_update_ms > SURFACE_TRACKING_TIMEOUT_MS) ||
reset_target ||
(last_glitch_cleared_ms != rf_state.glitch_cleared_ms)) {
copter.pos_control->set_pos_offset_z_cm(offset_cm);
reset_target = false;
last_glitch_cleared_ms = rf_state.glitch_cleared_ms;
}
last_update_ms = now;
valid_for_logging = true;
} else {
copter.pos_control->set_pos_offset_z_cm(offset_cm);
}
#else
copter.pos_control->set_pos_offset_z_cm(offset_cm);
#endif
copter.pos_control->set_pos_offset_target_z_cm(offset_cm);
}
// get target altitude (in cm) above ground
// returns true if there is a valid target
bool Copter::SurfaceTracking::get_target_alt_cm(float &target_alt_cm) const
{
// fail if we are not tracking downwards
if (surface != Surface::GROUND) {
return false;
}
// check target has been updated recently
if (AP_HAL::millis() - last_update_ms > SURFACE_TRACKING_TIMEOUT_MS) {
return false;
}
target_alt_cm = (copter.pos_control->get_pos_target_z_cm() - copter.pos_control->get_pos_offset_z_cm());
return true;
}
// set target altitude (in cm) above ground
void Copter::SurfaceTracking::set_target_alt_cm(float _target_alt_cm)
{
// fail if we are not tracking downwards
if (surface != Surface::GROUND) {
return;
}
copter.pos_control->set_pos_offset_z_cm(copter.inertial_nav.get_altitude() - _target_alt_cm);
last_update_ms = AP_HAL::millis();
}
bool Copter::SurfaceTracking::get_target_dist_for_logging(float &target_dist) const
{
if (!valid_for_logging || (surface == Surface::NONE)) {
return false;
}
const float dir = (surface == Surface::GROUND) ? 1.0f : -1.0f;
target_dist = dir * (copter.pos_control->get_pos_target_z_cm() - copter.pos_control->get_pos_offset_z_cm()) * 0.01f;
return true;
}
float Copter::SurfaceTracking::get_dist_for_logging() const
{
return ((surface == Surface::CEILING) ? copter.rangefinder_up_state.alt_cm : copter.rangefinder_state.alt_cm) * 0.01f;
}
// set direction
void Copter::SurfaceTracking::set_surface(Surface new_surface)
{
if (surface == new_surface) {
return;
}
// check we have a range finder in the correct direction
if ((new_surface == Surface::GROUND) && !copter.rangefinder.has_orientation(ROTATION_PITCH_270)) {
copter.gcs().send_text(MAV_SEVERITY_WARNING, "SurfaceTracking: no downward rangefinder");
AP_Notify::events.user_mode_change_failed = 1;
return;
}
if ((new_surface == Surface::CEILING) && !copter.rangefinder.has_orientation(ROTATION_PITCH_90)) {
copter.gcs().send_text(MAV_SEVERITY_WARNING, "SurfaceTracking: no upward rangefinder");
AP_Notify::events.user_mode_change_failed = 1;
return;
}
surface = new_surface;
reset_target = true;
}
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