mirror of https://github.com/ArduPilot/ardupilot
231 lines
5.9 KiB
Plaintext
231 lines
5.9 KiB
Plaintext
// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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static void init_commands()
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{
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// zero is home, but we always load the next command (1), in the code.
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g.command_index = 0;
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// This are registers for the current may and must commands
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// setting to zero will allow them to be written to by new commands
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command_must_index = NO_COMMAND;
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command_may_index = NO_COMMAND;
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// clear the command queue
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clear_command_queue();
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}
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// forces the loading of a new command
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// queue is emptied after a new command is processed
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static void clear_command_queue(){
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next_command.id = NO_COMMAND;
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}
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// Getters
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// -------
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static struct Location get_cmd_with_index(int i)
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{
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struct Location temp;
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// Find out proper location in memory by using the start_byte position + the index
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// --------------------------------------------------------------------------------
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if (i > g.command_total) {
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// we do not have a valid command to load
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// return a WP with a "Blank" id
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temp.id = CMD_BLANK;
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// no reason to carry on
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return temp;
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}else{
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// we can load a command, we don't process it yet
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// read WP position
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int32_t mem = (WP_START_BYTE) + (i * WP_SIZE);
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temp.id = eeprom_read_byte((uint8_t*)mem);
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mem++;
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temp.options = eeprom_read_byte((uint8_t*)mem);
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mem++;
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temp.p1 = eeprom_read_byte((uint8_t*)mem);
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mem++;
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temp.alt = eeprom_read_dword((uint32_t*)mem); // alt is stored in CM! Alt is stored relative!
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mem += 4;
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temp.lat = eeprom_read_dword((uint32_t*)mem); // lat is stored in decimal * 10,000,000
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mem += 4;
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temp.lng = eeprom_read_dword((uint32_t*)mem); // lon is stored in decimal * 10,000,000
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}
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// Add on home altitude if we are a nav command (or other command with altitude) and stored alt is relative
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//if((temp.id < MAV_CMD_NAV_LAST || temp.id == MAV_CMD_CONDITION_CHANGE_ALT) && temp.options & WP_OPTION_ALT_RELATIVE){
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//temp.alt += home.alt;
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//}
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if(temp.options & WP_OPTION_RELATIVE){
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// If were relative, just offset from home
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temp.lat += home.lat;
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temp.lng += home.lng;
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}
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return temp;
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}
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// Setters
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// -------
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static void set_command_with_index(struct Location temp, int i)
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{
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i = constrain(i, 0, g.command_total.get());
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uint32_t mem = WP_START_BYTE + (i * WP_SIZE);
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eeprom_write_byte((uint8_t *) mem, temp.id);
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mem++;
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eeprom_write_byte((uint8_t *) mem, temp.options);
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mem++;
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eeprom_write_byte((uint8_t *) mem, temp.p1);
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mem++;
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eeprom_write_dword((uint32_t *) mem, temp.alt); // Alt is stored in CM!
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mem += 4;
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eeprom_write_dword((uint32_t *) mem, temp.lat); // Lat is stored in decimal degrees * 10^7
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mem += 4;
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eeprom_write_dword((uint32_t *) mem, temp.lng); // Long is stored in decimal degrees * 10^7
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}
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static void increment_WP_index()
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{
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if (g.command_index < g.command_total) {
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g.command_index++;
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}
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SendDebugln(g.command_index,DEC);
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}
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/*
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static void decrement_WP_index()
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{
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if (g.command_index > 0) {
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g.command_index.set_and_save(g.command_index - 1);
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}
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}*/
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static int32_t read_alt_to_hold()
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{
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if(g.RTL_altitude < 0)
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return current_loc.alt;
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else
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return g.RTL_altitude;// + home.alt;
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}
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//********************************************************************************
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// This function sets the waypoint and modes for Return to Launch
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// It's not currently used
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//********************************************************************************
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/*static Location get_LOITER_home_wp()
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{
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//so we know where we are navigating from
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next_WP = current_loc;
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// read home position
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struct Location temp = get_cmd_with_index(0); // 0 = home
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temp.id = MAV_CMD_NAV_LOITER_UNLIM;
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temp.alt = read_alt_to_hold();
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return temp;
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}
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*/
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/*
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This function sets the next waypoint command
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It precalculates all the necessary stuff.
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*/
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static void set_next_WP(struct Location *wp)
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{
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//SendDebug("MSG <set_next_wp> wp_index: ");
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//SendDebugln(g.command_index, DEC);
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// copy the current WP into the OldWP slot
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// ---------------------------------------
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prev_WP = next_WP;
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// Load the next_WP slot
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// ---------------------
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next_WP = *wp;
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// used to control and limit the rate of climb - not used right now!
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// -----------------------------------------------------------------
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target_altitude = current_loc.alt;
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// this is used to offset the shrinking longitude as we go towards the poles
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float rads = (abs(next_WP.lat)/t7) * 0.0174532925;
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scaleLongDown = cos(rads);
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scaleLongUp = 1.0f/cos(rads);
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// this is handy for the groundstation
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// -----------------------------------
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wp_totalDistance = get_distance(¤t_loc, &next_WP);
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wp_distance = wp_totalDistance;
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target_bearing = get_bearing(¤t_loc, &next_WP);
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// to check if we have missed the WP
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// ---------------------------------
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original_target_bearing = target_bearing;
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// reset speed governer
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// --------------------
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waypoint_speed_gov = 0;
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}
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// run this at setup on the ground
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// -------------------------------
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static void init_home()
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{
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home_is_set = true;
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// block until we get a good fix
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// -----------------------------
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while (!g_gps->new_data || !g_gps->fix) {
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g_gps->update();
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// we need GCS update while waiting for GPS, to ensure
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// we react to HIL mavlink
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gcs_update();
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}
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home.id = MAV_CMD_NAV_WAYPOINT;
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home.lng = g_gps->longitude; // Lon * 10**7
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home.lat = g_gps->latitude; // Lat * 10**7
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//home.alt = max(g_gps->altitude, 0); // we sometimes get negatives from GPS, not valid
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home.alt = 0; // Home is always 0
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// to point yaw towards home until we set it with Mavlink
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target_WP = home;
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// Save Home to EEPROM
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// -------------------
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// no need to save this to EPROM
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set_command_with_index(home, 0);
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print_wp(&home, 0);
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// Save prev loc this makes the calcs look better before commands are loaded
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prev_WP = home;
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// this is dangerous since we can get GPS lock at any time.
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//next_WP = home;
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// Load home for a default guided_WP
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// -------------
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guided_WP = home;
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guided_WP.alt += g.RTL_altitude;
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}
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