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241 lines
7.0 KiB
241 lines
7.0 KiB
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- |
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//**************************************************************** |
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// Function that will calculate the desired direction to fly and altitude error |
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//**************************************************************** |
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void navigate() |
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{ |
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// do not navigate with corrupt data |
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// --------------------------------- |
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if (gps.fix == 0) |
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{ |
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gps.new_data = false; |
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return; |
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} |
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if(next_WP.lat == 0){ |
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return; |
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} |
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// We only perform most nav computations if we have new gps data to work with |
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// -------------------------------------------------------------------------- |
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if(gps.new_data){ |
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gps.new_data = false; |
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// target_bearing is where we should be heading |
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// -------------------------------------------- |
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target_bearing = get_bearing(¤t_loc, &next_WP); |
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// nav_bearing will includes xtrac correction |
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// ------------------------------------------ |
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nav_bearing = target_bearing; |
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// waypoint distance from plane |
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// ---------------------------- |
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wp_distance = getDistance(¤t_loc, &next_WP); |
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if (wp_distance < 0){ |
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gcs.send_text(SEVERITY_HIGH,"<navigate> WP error - distance < 0"); |
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//Serial.println(wp_distance,DEC); |
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//print_current_waypoints(); |
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return; |
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} |
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// check if we have missed the WP |
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loiter_delta = (target_bearing - old_target_bearing)/100; |
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// reset the old value |
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old_target_bearing = target_bearing; |
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// wrap values |
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if (loiter_delta > 180) loiter_delta -= 360; |
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if (loiter_delta < -180) loiter_delta += 360; |
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loiter_sum += abs(loiter_delta); |
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calc_bearing_error(); |
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// control mode specific updates to nav_bearing |
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update_navigation(); |
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} |
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} |
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void update_navigation() |
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{ |
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// wp_distance is in ACTUAL meters, not the *100 meters we get from the GPS |
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// ------------------------------------------------------------------------ |
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// distance and bearing calcs only |
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if(control_mode == AUTO){ |
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verify_must(); |
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verify_may(); |
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}else{ |
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switch(control_mode){ |
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case LOITER: |
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update_loiter(); |
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calc_bearing_error(); |
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break; |
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case RTL: |
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if(wp_distance <= (get(PARAM_LOITER_RADIUS)) + LOITER_RANGE) { |
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set_mode(LOITER); |
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}else{ |
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update_crosstrack(); |
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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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/* |
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Disabled for now |
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void calc_distance_error() |
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{ |
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//distance_estimate += (float)gps.ground_speed * .0002 * cos(radians(bearing_error * .01)); |
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//distance_estimate -= DST_EST_GAIN * (float)(distance_estimate - GPS_wp_distance); |
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//wp_distance = max(distance_estimate,10); |
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} |
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*/ |
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void calc_airspeed_errors() |
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{ |
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if(control_mode>=AUTO && airspeed_nudge > 0) { |
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airspeed_error = get(PARAM_TRIM_AIRSPEED) + airspeed_nudge - airspeed; |
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airspeed_energy_error = (long)(((long)(get(PARAM_TRIM_AIRSPEED) + airspeed_nudge) * (long)(get(PARAM_TRIM_AIRSPEED) + airspeed_nudge)) - ((long)airspeed * (long)airspeed))/20000; //Changed 0.00005f * to / 20000 to avoid floating point calculation |
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} else { |
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airspeed_error = get(PARAM_TRIM_AIRSPEED) - airspeed; |
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airspeed_energy_error = (long)(((long)get(PARAM_TRIM_AIRSPEED) * (long)get(PARAM_TRIM_AIRSPEED)) - ((long)airspeed * (long)airspeed))/20000; //Changed 0.00005f * to / 20000 to avoid floating point calculation |
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} |
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} |
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void calc_bearing_error() |
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{ |
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if(takeoff_complete == true || MAGNETOMETER == ENABLED) { |
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bearing_error = nav_bearing - dcm.yaw_sensor; |
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} else { |
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bearing_error = nav_bearing - gps.ground_course; |
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} |
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bearing_error = wrap_180(bearing_error); |
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} |
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void calc_altitude_error() |
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{ |
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// limit climb rates |
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target_altitude = next_WP.alt - (long)(((float)((wp_distance -30) * offset_altitude) / (float)(wp_totalDistance - 30))); |
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if(prev_WP.alt > next_WP.alt){ |
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target_altitude = constrain(target_altitude, next_WP.alt, prev_WP.alt); |
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}else{ |
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target_altitude = constrain(target_altitude, prev_WP.alt, next_WP.alt); |
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} |
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/* |
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// Disabled for now |
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#if AIRSPEED_SENSOR == 1 |
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// special thanks to Ryan Beall for this one |
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float pitch_angle = pitch_sensor - AOA; // pitch_angle = pitch sensor - angle of attack of your plane at level *100 (50 = .5°) |
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pitch_angle = constrain(pitch_angle, -2000, 2000); |
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float scale = sin(radians(pitch_angle * .01)); |
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altitude_estimate += (float)airspeed * .0002 * scale; |
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altitude_estimate -= ALT_EST_GAIN * (float)(altitude_estimate - current_loc.alt); |
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// compute altitude error for throttle control |
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altitude_error = target_altitude - altitude_estimate; |
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#else |
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altitude_error = target_altitude - current_loc.alt; |
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#endif |
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*/ |
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altitude_error = target_altitude - current_loc.alt; |
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} |
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long wrap_360(long error) |
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{ |
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if (error > 36000) error -= 36000; |
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if (error < 0) error += 36000; |
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return error; |
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} |
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long wrap_180(long error) |
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{ |
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if (error > 18000) error -= 36000; |
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if (error < -18000) error += 36000; |
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return error; |
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} |
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void update_loiter() |
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{ |
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float power; |
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if (wp_distance <= get(PARAM_LOITER_RADIUS)){ |
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power = float(wp_distance) / float(get(PARAM_LOITER_RADIUS)); |
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nav_bearing += (int)(9000.0 * (2.0 + power)); |
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} else if (wp_distance < (get(PARAM_LOITER_RADIUS) + LOITER_RANGE)){ |
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power = -((float)(wp_distance - get(PARAM_LOITER_RADIUS) - LOITER_RANGE) / LOITER_RANGE); |
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power = constrain(power, 0, 1); |
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nav_bearing -= power * 9000; |
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} else { |
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update_crosstrack(); |
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} |
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nav_bearing = wrap_360(nav_bearing); |
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/* loiter_delta = (target_bearing - old_target_bearing)/100; |
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// reset the old value |
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old_target_bearing = target_bearing; |
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// wrap values |
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if (loiter_delta > 170) loiter_delta -= 360; |
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if (loiter_delta < -170) loiter_delta += 360; |
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loiter_sum += loiter_delta; |
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*/ |
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} |
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void update_crosstrack(void) |
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{ |
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// Crosstrack Error |
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// ---------------- |
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if (abs(target_bearing - crosstrack_bearing) < 4500) { // If we are too far off or too close we don't do track following |
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crosstrack_error = sin(radians((target_bearing - crosstrack_bearing)/100)) * wp_distance; // Meters we are off track line |
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nav_bearing += constrain(crosstrack_error * get(PARAM_XTRACK_GAIN), -get(PARAM_XTRACK_ANGLE), get(PARAM_XTRACK_ANGLE)); |
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nav_bearing = wrap_360(nav_bearing); |
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} |
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} |
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void reset_crosstrack() |
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{ |
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crosstrack_bearing = get_bearing(¤t_loc, &next_WP); // Used for track following |
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} |
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long get_altitude_above_home(void) |
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{ |
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// This is the altitude above the home location |
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// The GPS gives us altitude at Sea Level |
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// if you slope soar, you should see a negative number sometimes |
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// ------------------------------------------------------------- |
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return current_loc.alt - home.alt; |
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} |
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long getDistance(struct Location *loc1, struct Location *loc2) |
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{ |
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if(loc1->lat == 0 || loc1->lng == 0) |
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return -1; |
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if(loc2->lat == 0 || loc2->lng == 0) |
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return -1; |
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float dlat = (float)(loc2->lat - loc1->lat); |
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float dlong = ((float)(loc2->lng - loc1->lng)) * scaleLongDown; |
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return sqrt(sq(dlat) + sq(dlong)) * .01113195; |
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} |
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long get_alt_distance(struct Location *loc1, struct Location *loc2) |
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{ |
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return abs(loc1->alt - loc2->alt); |
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} |
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long get_bearing(struct Location *loc1, struct Location *loc2) |
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{ |
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long off_x = loc2->lng - loc1->lng; |
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long off_y = (loc2->lat - loc1->lat) * scaleLongUp; |
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long bearing = 9000 + atan2(-off_y, off_x) * 5729.57795; |
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if (bearing < 0) bearing += 36000; |
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return bearing; |
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}
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