ardupilot/ArduCopter/commands.pde

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// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
static void init_commands()
{
g.command_index = NO_COMMAND;
command_nav_index = NO_COMMAND;
command_cond_index = NO_COMMAND;
prev_nav_index = NO_COMMAND;
command_cond_queue.id = NO_COMMAND;
command_nav_queue.id = NO_COMMAND;
ap.fast_corner = false;
reset_desired_speed();
}
// Getters
// -------
static struct Location get_cmd_with_index(int i)
{
struct Location temp;
// Find out proper location in memory by using the start_byte position + the index
// --------------------------------------------------------------------------------
if (i >= g.command_total) {
// we do not have a valid command to load
// return a WP with a "Blank" id
temp.id = CMD_BLANK;
// no reason to carry on
return temp;
}else{
// we can load a command, we don't process it yet
// read WP position
uint16_t mem = (WP_START_BYTE) + (i * WP_SIZE);
temp.id = hal.storage->read_byte(mem);
mem++;
temp.options = hal.storage->read_byte(mem);
mem++;
temp.p1 = hal.storage->read_byte(mem);
mem++;
temp.alt = hal.storage->read_dword(mem); // alt is stored in CM! Alt is stored relative!
mem += 4;
temp.lat = hal.storage->read_dword(mem); // lat is stored in decimal * 10,000,000
mem += 4;
temp.lng = hal.storage->read_dword(mem); // lon is stored in decimal * 10,000,000
}
// Add on home altitude if we are a nav command (or other command with altitude) and stored alt is relative
//if((temp.id < MAV_CMD_NAV_LAST || temp.id == MAV_CMD_CONDITION_CHANGE_ALT) && temp.options & MASK_OPTIONS_RELATIVE_ALT){
//temp.alt += home.alt;
//}
if(temp.options & WP_OPTION_RELATIVE) {
// If were relative, just offset from home
temp.lat += home.lat;
temp.lng += home.lng;
}
return temp;
}
// Setters
// -------
static void set_cmd_with_index(struct Location temp, int i)
{
i = constrain(i, 0, g.command_total.get());
//cliSerial->printf("set_command: %d with id: %d\n", i, temp.id);
// store home as 0 altitude!!!
// Home is always a MAV_CMD_NAV_WAYPOINT (16)
if (i == 0) {
temp.alt = 0;
temp.id = MAV_CMD_NAV_WAYPOINT;
}
uint16_t mem = WP_START_BYTE + (i * WP_SIZE);
hal.storage->write_byte(mem, temp.id);
mem++;
hal.storage->write_byte(mem, temp.options);
mem++;
hal.storage->write_byte(mem, temp.p1);
mem++;
hal.storage->write_dword(mem, temp.alt); // Alt is stored in CM!
mem += 4;
hal.storage->write_dword(mem, temp.lat); // Lat is stored in decimal degrees * 10^7
mem += 4;
hal.storage->write_dword(mem, temp.lng); // Long is stored in decimal degrees * 10^7
// Make sure our WP_total
if(g.command_total < (i+1))
g.command_total.set_and_save(i+1);
}
static int32_t get_RTL_alt()
{
if(g.rtl_altitude <= 0) {
return min(current_loc.alt, RTL_ALT_MAX);
}else if (g.rtl_altitude < current_loc.alt) {
return min(current_loc.alt, RTL_ALT_MAX);
}else{
return g.rtl_altitude;
}
}
//********************************************************************************
// This function sets the waypoint and modes for Return to Launch
// It's not currently used
//********************************************************************************
/*
* This function sets the next waypoint command
* It precalculates all the necessary stuff.
*/
static void set_next_WP(struct Location *wp)
{
//SendDebug("MSG <set_next_wp> wp_index: ");
//SendDebugln(g.command_index, DEC);
// copy the current WP into the OldWP slot
// ---------------------------------------
if (next_WP.lat == 0 || command_nav_index <= 1) {
prev_WP = current_loc;
}else{
if (get_distance_cm(&current_loc, &next_WP) < 500)
prev_WP = next_WP;
else
prev_WP = current_loc;
}
//cliSerial->printf("set_next_WP #%d, ", command_nav_index);
//print_wp(&prev_WP, command_nav_index -1);
// Load the next_WP slot
// ---------------------
next_WP = *wp;
// used to control and limit the rate of climb
// -------------------------------------------
// We don't set next WP below 1m
next_WP.alt = max(next_WP.alt, 100);
// Save new altitude so we can track it for climb_rate
set_new_altitude(next_WP.alt);
// this is used to offset the shrinking longitude as we go towards the poles
float rads = (fabs((float)next_WP.lat)/t7) * 0.0174532925;
scaleLongDown = cos(rads);
scaleLongUp = 1.0f/cos(rads);
// this is handy for the groundstation
// -----------------------------------
wp_distance = get_distance_cm(&current_loc, &next_WP);
wp_bearing = get_bearing_cd(&prev_WP, &next_WP);
// calc the location error:
calc_location_error(&next_WP);
// to check if we have missed the WP
// ---------------------------------
original_wp_bearing = wp_bearing;
}
// run this at setup on the ground
// -------------------------------
static void init_home()
{
set_home_is_set(true);
home.id = MAV_CMD_NAV_WAYPOINT;
home.lng = g_gps->longitude; // Lon * 10**7
home.lat = g_gps->latitude; // Lat * 10**7
home.alt = 0; // Home is always 0
// Save Home to EEPROM
// -------------------
// no need to save this to EPROM
set_cmd_with_index(home, 0);
#if INERTIAL_NAV_XY == ENABLED
// set inertial nav's home position
inertial_nav.set_current_position(g_gps->longitude, g_gps->latitude);
inertial_nav.set_altitude(home.alt);
inertial_nav.set_velocity_z(0);
#endif
if (g.log_bitmask & MASK_LOG_CMD)
Log_Write_Cmd(0, &home);
// Save prev loc this makes the calcs look better before commands are loaded
prev_WP = home;
// Load home for a default guided_WP
// -------------
guided_WP = home;
guided_WP.alt += g.rtl_altitude;
}