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/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
/********************************************************************************/
// Command Event Handlers
/********************************************************************************/
static void
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handle_process_nav_cmd()
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{
// reset navigation integrators
// -------------------------
reset_I();
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gcs_send_text_fmt(PSTR("Executing command ID #%i"),next_nav_command.id);
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switch(next_nav_command.id){
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case MAV_CMD_NAV_TAKEOFF:
do_takeoff();
break;
case MAV_CMD_NAV_WAYPOINT: // Navigate to Waypoint
do_nav_wp();
break;
case MAV_CMD_NAV_LAND: // LAND to Waypoint
do_land();
break;
case MAV_CMD_NAV_LOITER_UNLIM: // Loiter indefinitely
do_loiter_unlimited();
break;
case MAV_CMD_NAV_LOITER_TURNS: // Loiter N Times
do_loiter_turns();
break;
case MAV_CMD_NAV_LOITER_TIME:
do_loiter_time();
break;
case MAV_CMD_NAV_RETURN_TO_LAUNCH:
do_RTL();
break;
default:
break;
}
}
static void
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handle_process_condition_command()
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{
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gcs_send_text_fmt(PSTR("Executing command ID #%i"),next_nonnav_command.id);
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switch(next_nonnav_command.id){
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case MAV_CMD_CONDITION_DELAY:
do_wait_delay();
break;
case MAV_CMD_CONDITION_DISTANCE:
do_within_distance();
break;
case MAV_CMD_CONDITION_CHANGE_ALT:
do_change_alt();
break;
default:
break;
}
}
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static void handle_process_do_command()
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{
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gcs_send_text_fmt(PSTR("Executing command ID #%i"),next_nonnav_command.id);
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switch(next_nonnav_command.id){
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case MAV_CMD_DO_JUMP:
do_jump();
break;
case MAV_CMD_DO_CHANGE_SPEED:
do_change_speed();
break;
case MAV_CMD_DO_SET_HOME:
do_set_home();
break;
case MAV_CMD_DO_SET_SERVO:
do_set_servo();
break;
case MAV_CMD_DO_SET_RELAY:
do_set_relay();
break;
case MAV_CMD_DO_REPEAT_SERVO:
do_repeat_servo();
break;
case MAV_CMD_DO_REPEAT_RELAY:
do_repeat_relay();
break;
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#if CAMERA == ENABLED
case MAV_CMD_DO_CONTROL_VIDEO: // Control on-board camera capturing. |Camera ID (-1 for all)| Transmission: 0: disabled, 1: enabled compressed, 2: enabled raw| Transmission mode: 0: video stream, >0: single images every n seconds (decimal)| Recording: 0: disabled, 1: enabled compressed, 2: enabled raw| Empty| Empty| Empty|
break;
case MAV_CMD_DO_DIGICAM_CONFIGURE: // Mission command to configure an on-board camera controller system. |Modes: P, TV, AV, M, Etc| Shutter speed: Divisor number for one second| Aperture: F stop number| ISO number e.g. 80, 100, 200, Etc| Exposure type enumerator| Command Identity| Main engine cut-off time before camera trigger in seconds/10 (0 means no cut-off)|
break;
case MAV_CMD_DO_DIGICAM_CONTROL: // Mission command to control an on-board camera controller system. |Session control e.g. show/hide lens| Zoom's absolute position| Zooming step value to offset zoom from the current position| Focus Locking, Unlocking or Re-locking| Shooting Command| Command Identity| Empty|
break;
#endif
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#if MOUNT == ENABLED
// Sets the region of interest (ROI) for a sensor set or the
// vehicle itself. This can then be used by the vehicles control
// system to control the vehicle attitude and the attitude of various
// devices such as cameras.
// |Region of interest mode. (see MAV_ROI enum)| Waypoint index/ target ID. (see MAV_ROI enum)| ROI index (allows a vehicle to manage multiple cameras etc.)| Empty| x the location of the fixed ROI (see MAV_FRAME)| y| z|
case MAV_CMD_DO_SET_ROI:
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#if 0
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// send the command to the camera mount
camera_mount.set_roi_cmd(&command_nav_queue);
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#else
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gcs_send_text_P(SEVERITY_LOW, PSTR("DO_SET_ROI not supported"));
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#endif
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break;
case MAV_CMD_DO_MOUNT_CONFIGURE: // Mission command to configure a camera mount |Mount operation mode (see MAV_CONFIGURE_MOUNT_MODE enum)| stabilize roll? (1 = yes, 0 = no)| stabilize pitch? (1 = yes, 0 = no)| stabilize yaw? (1 = yes, 0 = no)| Empty| Empty| Empty|
camera_mount.configure_cmd();
break;
case MAV_CMD_DO_MOUNT_CONTROL: // Mission command to control a camera mount |pitch(deg*100) or lat, depending on mount mode.| roll(deg*100) or lon depending on mount mode| yaw(deg*100) or alt (in cm) depending on mount mode| Empty| Empty| Empty| Empty|
camera_mount.control_cmd();
break;
#endif
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}
}
static void handle_no_commands()
{
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gcs_send_text_fmt(PSTR("Returning to Home"));
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next_nav_command = home;
next_nav_command.alt = read_alt_to_hold();
next_nav_command.id = MAV_CMD_NAV_LOITER_UNLIM;
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nav_command_ID = MAV_CMD_NAV_LOITER_UNLIM;
non_nav_command_ID = WAIT_COMMAND;
handle_process_nav_cmd();
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}
/********************************************************************************/
// Verify command Handlers
/********************************************************************************/
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static bool verify_nav_command() // Returns true if command complete
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{
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switch(nav_command_ID) {
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case MAV_CMD_NAV_TAKEOFF:
return verify_takeoff();
break;
case MAV_CMD_NAV_LAND:
return verify_land();
break;
case MAV_CMD_NAV_WAYPOINT:
return verify_nav_wp();
break;
case MAV_CMD_NAV_LOITER_UNLIM:
return verify_loiter_unlim();
break;
case MAV_CMD_NAV_LOITER_TURNS:
return verify_loiter_turns();
break;
case MAV_CMD_NAV_LOITER_TIME:
return verify_loiter_time();
break;
case MAV_CMD_NAV_RETURN_TO_LAUNCH:
return verify_RTL();
break;
default:
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gcs_send_text_P(SEVERITY_HIGH,PSTR("verify_nav: Invalid or no current Nav cmd"));
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return false;
break;
}
}
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static bool verify_condition_command() // Returns true if command complete
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{
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switch(non_nav_command_ID) {
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case NO_COMMAND:
break;
case MAV_CMD_CONDITION_DELAY:
return verify_wait_delay();
break;
case MAV_CMD_CONDITION_DISTANCE:
return verify_within_distance();
break;
case MAV_CMD_CONDITION_CHANGE_ALT:
return verify_change_alt();
break;
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case WAIT_COMMAND:
return 0;
break;
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default:
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gcs_send_text_P(SEVERITY_HIGH,PSTR("verify_conditon: Invalid or no current Condition cmd"));
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break;
}
return false;
}
/********************************************************************************/
// Nav (Must) commands
/********************************************************************************/
static void do_RTL(void)
{
control_mode = RTL;
crash_timer = 0;
next_WP = home;
// Altitude to hold over home
// Set by configuration tool
// -------------------------
next_WP.alt = read_alt_to_hold();
if (g.log_bitmask & MASK_LOG_MODE)
Log_Write_Mode(control_mode);
}
static void do_takeoff()
{
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set_next_WP(&next_nav_command);
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// pitch in deg, airspeed m/s, throttle %, track WP 1 or 0
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takeoff_pitch_cd = (int)next_nav_command.p1 * 100;
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//Serial.printf_P(PSTR("TO pitch:")); Serial.println(takeoff_pitch);
//Serial.printf_P(PSTR("home.alt:")); Serial.println(home.alt);
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takeoff_altitude = next_nav_command.alt;
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//Serial.printf_P(PSTR("takeoff_altitude:")); Serial.println(takeoff_altitude);
next_WP.lat = home.lat + 1000; // so we don't have bad calcs
next_WP.lng = home.lng + 1000; // so we don't have bad calcs
takeoff_complete = false; // set flag to use gps ground course during TO. IMU will be doing yaw drift correction
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// Flag also used to override "on the ground" throttle disable
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}
static void do_nav_wp()
{
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set_next_WP(&next_nav_command);
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}
static void do_land()
{
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set_next_WP(&next_nav_command);
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}
static void do_loiter_unlimited()
{
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set_next_WP(&next_nav_command);
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}
static void do_loiter_turns()
{
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set_next_WP(&next_nav_command);
loiter_total = next_nav_command.p1 * 360;
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}
static void do_loiter_time()
{
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set_next_WP(&next_nav_command);
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loiter_time_ms = millis();
loiter_time_max_ms = next_nav_command.p1 * (uint32_t)100; // units are (seconds * 10)
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}
/********************************************************************************/
// Verify Nav (Must) commands
/********************************************************************************/
static bool verify_takeoff()
{
if (g_gps->ground_speed > 300){
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if (hold_course == -1) {
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// save our current course to take off
if(g.compass_enabled) {
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hold_course = ahrs.yaw_sensor;
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} else {
hold_course = g_gps->ground_course;
}
}
}
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if (hold_course != -1) {
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// recalc bearing error with hold_course;
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nav_bearing_cd = hold_course;
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// recalc bearing error
calc_bearing_error();
}
if (current_loc.alt > takeoff_altitude) {
hold_course = -1;
takeoff_complete = true;
return true;
} else {
return false;
}
}
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// we are executing a landing
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static bool verify_land()
{
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// we don't 'verify' landing in the sense that it never completes,
// so we don't verify command completion. Instead we use this to
// adjust final landing parameters
// Set land_complete if we are within 2 seconds distance or within
// 3 meters altitude of the landing point
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if (((wp_distance > 0) && (wp_distance <= (2*g_gps->ground_speed/100)))
|| (current_loc.alt <= next_WP.alt + 300)){
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land_complete = 1;
if(hold_course == -1) {
// we have just reached the threshold of 2 seconds or 3
// meters to landing. We now don't want to do any radical
// turns, as rolling could put the wings into the runway.
// To prevent further turns we set hold_course to the
// current heading. Previously we set this to
// crosstrack_bearing, but the xtrack bearing can easily
// be quite large at this point, and that could induce a
// sudden large roll correction which is very nasty at
// this point in the landing.
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hold_course = ahrs.yaw_sensor;
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}
}
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if (hold_course != -1){
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// recalc bearing error with hold_course;
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nav_bearing_cd = hold_course;
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// recalc bearing error
calc_bearing_error();
}
update_crosstrack();
return false;
}
static bool verify_nav_wp()
{
hold_course = -1;
update_crosstrack();
if ((wp_distance > 0) && (wp_distance <= g.waypoint_radius)) {
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gcs_send_text_fmt(PSTR("Reached Waypoint #%i dist %um"),
(unsigned)nav_command_index,
(unsigned)get_distance(¤t_loc, &next_WP));
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return true;
}
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// have we circled around the waypoint?
if (loiter_sum > 300){
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gcs_send_text_P(SEVERITY_MEDIUM,PSTR("Missed WP"));
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return true;
}
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// have we flown past the waypoint?
if (location_passed_point(current_loc, prev_WP, next_WP)) {
gcs_send_text_fmt(PSTR("Passed Waypoint #%i dist %um"),
(unsigned)nav_command_index,
(unsigned)get_distance(¤t_loc, &next_WP));
return true;
}
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return false;
}
static bool verify_loiter_unlim()
{
update_loiter();
calc_bearing_error();
return false;
}
static bool verify_loiter_time()
{
update_loiter();
calc_bearing_error();
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if ((millis() - loiter_time_ms) > loiter_time_max_ms) {
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gcs_send_text_P(SEVERITY_LOW,PSTR("verify_nav: LOITER time complete"));
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return true;
}
return false;
}
static bool verify_loiter_turns()
{
update_loiter();
calc_bearing_error();
if(loiter_sum > loiter_total) {
loiter_total = 0;
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gcs_send_text_P(SEVERITY_LOW,PSTR("verify_nav: LOITER orbits complete"));
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// clear the command queue;
return true;
}
return false;
}
static bool verify_RTL()
{
if (wp_distance <= g.waypoint_radius) {
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gcs_send_text_P(SEVERITY_LOW,PSTR("Reached home"));
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return true;
}else{
return false;
}
}
/********************************************************************************/
// Condition (May) commands
/********************************************************************************/
static void do_wait_delay()
{
condition_start = millis();
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condition_value = next_nonnav_command.lat * 1000; // convert to milliseconds
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}
static void do_change_alt()
{
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condition_rate = abs((int)next_nonnav_command.lat);
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condition_value = next_nonnav_command.alt;
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if(condition_value < current_loc.alt) condition_rate = -condition_rate;
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target_altitude_cm = current_loc.alt + (condition_rate / 10); // Divide by ten for 10Hz update
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next_WP.alt = condition_value; // For future nav calculations
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offset_altitude_cm = 0; // For future nav calculations
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}
static void do_within_distance()
{
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condition_value = next_nonnav_command.lat;
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}
/********************************************************************************/
// Verify Condition (May) commands
/********************************************************************************/
static bool verify_wait_delay()
{
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if ((unsigned)(millis() - condition_start) > (unsigned)condition_value){
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condition_value = 0;
return true;
}
return false;
}
static bool verify_change_alt()
{
if( (condition_rate>=0 && current_loc.alt >= condition_value) || (condition_rate<=0 && current_loc.alt <= condition_value)) {
condition_value = 0;
return true;
}
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target_altitude_cm += condition_rate / 10;
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return false;
}
static bool verify_within_distance()
{
if (wp_distance < condition_value){
condition_value = 0;
return true;
}
return false;
}
/********************************************************************************/
// Do (Now) commands
/********************************************************************************/
static void do_loiter_at_location()
{
next_WP = current_loc;
}
static void do_jump()
{
struct Location temp;
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gcs_send_text_fmt(PSTR("In jump. Jumps left: %i"),next_nonnav_command.lat);
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if(next_nonnav_command.lat > 0) {
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nav_command_ID = NO_COMMAND;
next_nav_command.id = NO_COMMAND;
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non_nav_command_ID = NO_COMMAND;
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temp = get_cmd_with_index(g.command_index);
temp.lat = next_nonnav_command.lat - 1; // Decrement repeat counter
set_cmd_with_index(temp, g.command_index);
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gcs_send_text_fmt(PSTR("setting command index: %i"),next_nonnav_command.p1 - 1);
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g.command_index.set_and_save(next_nonnav_command.p1 - 1);
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nav_command_index = next_nonnav_command.p1 - 1;
next_WP = prev_WP; // Need to back "next_WP" up as it was set to the next waypoint following the jump
process_next_command();
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} else if (next_nonnav_command.lat == -1) { // A repeat count of -1 = repeat forever
nav_command_ID = NO_COMMAND;
non_nav_command_ID = NO_COMMAND;
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gcs_send_text_fmt(PSTR("setting command index: %i"),next_nonnav_command.p1 - 1);
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g.command_index.set_and_save(next_nonnav_command.p1 - 1);
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nav_command_index = next_nonnav_command.p1 - 1;
next_WP = prev_WP; // Need to back "next_WP" up as it was set to the next waypoint following the jump
process_next_command();
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}
}
static void do_change_speed()
{
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switch (next_nonnav_command.p1)
{
case 0: // Airspeed
if(next_nonnav_command.alt > 0)
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g.airspeed_cruise_cm.set(next_nonnav_command.alt * 100);
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break;
case 1: // Ground speed
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g.min_gndspeed_cm.set(next_nonnav_command.alt * 100);
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break;
}
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if(next_nonnav_command.lat > 0)
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g.throttle_cruise.set(next_nonnav_command.lat);
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}
static void do_set_home()
{
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if(next_nonnav_command.p1 == 1 && GPS_enabled) {
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init_home();
} else {
home.id = MAV_CMD_NAV_WAYPOINT;
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home.lng = next_nonnav_command.lng; // Lon * 10**7
home.lat = next_nonnav_command.lat; // Lat * 10**7
home.alt = max(next_nonnav_command.alt, 0);
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home_is_set = true;
}
}
static void do_set_servo()
{
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APM_RC.OutputCh(next_nonnav_command.p1 - 1, next_nonnav_command.alt);
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}
static void do_set_relay()
{
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if (next_nonnav_command.p1 == 1) {
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relay.on();
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} else if (next_nonnav_command.p1 == 0) {
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relay.off();
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}else{
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relay.toggle();
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}
}
static void do_repeat_servo()
{
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event_id = next_nonnav_command.p1 - 1;
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if(next_nonnav_command.p1 >= CH_5 + 1 && next_nonnav_command.p1 <= CH_8 + 1) {
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event_timer_ms = 0;
event_delay_ms = next_nonnav_command.lng * 500.0; // /2 (half cycle time) * 1000 (convert to milliseconds)
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event_repeat = next_nonnav_command.lat * 2;
event_value = next_nonnav_command.alt;
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switch(next_nonnav_command.p1) {
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case CH_5:
event_undo_value = g.rc_5.radio_trim;
break;
case CH_6:
event_undo_value = g.rc_6.radio_trim;
break;
case CH_7:
event_undo_value = g.rc_7.radio_trim;
break;
case CH_8:
event_undo_value = g.rc_8.radio_trim;
break;
}
update_events();
}
}
static void do_repeat_relay()
{
event_id = RELAY_TOGGLE;
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event_timer_ms = 0;
event_delay_ms = next_nonnav_command.lat * 500.0; // /2 (half cycle time) * 1000 (convert to milliseconds)
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event_repeat = next_nonnav_command.alt * 2;
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update_events();
}