ardupilot/libraries/APO/AP_Guide.cpp

238 lines
8.6 KiB
C++

/*
* AP_Guide.cpp
*
* Created on: Apr 30, 2011
* Author: jgoppert
*/
#include "AP_Guide.h"
#include "../FastSerial/FastSerial.h"
#include "AP_Navigator.h"
#include "constants.h"
#include "AP_HardwareAbstractionLayer.h"
#include "AP_CommLink.h"
namespace apo {
AP_Guide::AP_Guide(AP_Navigator * navigator, AP_HardwareAbstractionLayer * hal) :
_navigator(navigator), _hal(hal), _command(AP_MavlinkCommand::home),
_previousCommand(AP_MavlinkCommand::home),
_headingCommand(0), _airSpeedCommand(0),
_groundSpeedCommand(0), _altitudeCommand(0), _pNCmd(0),
_pECmd(0), _pDCmd(0), _mode(MAV_NAV_LOST),
_numberOfCommands(1), _cmdIndex(0), _nextCommandCalls(0),
_nextCommandTimer(0) {
}
void AP_Guide::setCurrentIndex(uint8_t val) {
_cmdIndex.set_and_save(val);
_command = AP_MavlinkCommand(getCurrentIndex());
_previousCommand = AP_MavlinkCommand(getPreviousIndex());
_hal->gcs->sendMessage(MAVLINK_MSG_ID_WAYPOINT_CURRENT);
}
MavlinkGuide::MavlinkGuide(AP_Navigator * navigator,
AP_HardwareAbstractionLayer * hal, float velCmd, float xt, float xtLim) :
AP_Guide(navigator, hal), _rangeFinderFront(), _rangeFinderBack(),
_rangeFinderLeft(), _rangeFinderRight(),
_group(k_guide, PSTR("guide_")),
_velocityCommand(&_group, 1, velCmd, PSTR("velCmd")),
_crossTrackGain(&_group, 2, xt, PSTR("xt")),
_crossTrackLim(&_group, 3, xtLim, PSTR("xtLim")) {
for (uint8_t i = 0; i < _hal->rangeFinders.getSize(); i++) {
RangeFinder * rF = _hal->rangeFinders[i];
if (rF == NULL)
continue;
if (rF->orientation_x == 1 && rF->orientation_y == 0
&& rF->orientation_z == 0)
_rangeFinderFront = rF;
else if (rF->orientation_x == -1 && rF->orientation_y == 0
&& rF->orientation_z == 0)
_rangeFinderBack = rF;
else if (rF->orientation_x == 0 && rF->orientation_y == 1
&& rF->orientation_z == 0)
_rangeFinderRight = rF;
else if (rF->orientation_x == 0 && rF->orientation_y == -1
&& rF->orientation_z == 0)
_rangeFinderLeft = rF;
}
}
void MavlinkGuide::update() {
// process mavlink commands
handleCommand();
// obstacle avoidance overrides
// stop if your going to drive into something in front of you
for (uint8_t i = 0; i < _hal->rangeFinders.getSize(); i++)
_hal->rangeFinders[i]->read();
float frontDistance = _rangeFinderFront->distance / 200.0; //convert for other adc
if (_rangeFinderFront && frontDistance < 2) {
_mode = MAV_NAV_VECTOR;
//airSpeedCommand = 0;
//groundSpeedCommand = 0;
// _headingCommand -= 45 * deg2Rad;
// _hal->debug->print("Obstacle Distance (m): ");
// _hal->debug->println(frontDistance);
// _hal->debug->print("Obstacle avoidance Heading Command: ");
// _hal->debug->println(headingCommand);
// _hal->debug->printf_P(
// PSTR("Front Distance, %f\n"),
// frontDistance);
}
if (_rangeFinderBack && _rangeFinderBack->distance < 5) {
_airSpeedCommand = 0;
_groundSpeedCommand = 0;
}
if (_rangeFinderLeft && _rangeFinderLeft->distance < 5) {
_airSpeedCommand = 0;
_groundSpeedCommand = 0;
}
if (_rangeFinderRight && _rangeFinderRight->distance < 5) {
_airSpeedCommand = 0;
_groundSpeedCommand = 0;
}
}
void MavlinkGuide::nextCommand() {
// within 1 seconds, check if more than 5 calls to next command occur
// if they do, go to home waypoint
if (millis() - _nextCommandTimer < 1000) {
if (_nextCommandCalls > 5) {
Serial.println("commands loading too fast, returning home");
setCurrentIndex(0);
setNumberOfCommands(1);
_nextCommandCalls = 0;
_nextCommandTimer = millis();
return;
}
_nextCommandCalls++;
} else {
_nextCommandTimer = millis();
_nextCommandCalls = 0;
}
_cmdIndex = getNextIndex();
//Serial.print("cmd : "); Serial.println(int(_cmdIndex));
//Serial.print("cmd prev : "); Serial.println(int(getPreviousIndex()));
//Serial.print("cmd num : "); Serial.println(int(getNumberOfCommands()));
_command = AP_MavlinkCommand(getCurrentIndex());
_previousCommand = AP_MavlinkCommand(getPreviousIndex());
}
void MavlinkGuide::handleCommand() {
// TODO handle more commands
switch (_command.getCommand()) {
case MAV_CMD_NAV_WAYPOINT: {
// if we don't have enough waypoint for cross track calcs
// go home
if (_numberOfCommands == 1) {
_mode = MAV_NAV_RETURNING;
_altitudeCommand = AP_MavlinkCommand::home.getAlt();
_headingCommand = AP_MavlinkCommand::home.bearingTo(
_navigator->getLat_degInt(), _navigator->getLon_degInt())
+ 180 * deg2Rad;
if (_headingCommand > 360 * deg2Rad)
_headingCommand -= 360 * deg2Rad;
//_hal->debug->printf_P(PSTR("going home: bearing: %f distance: %f\n"),
//headingCommand,AP_MavlinkCommand::home.distanceTo(_navigator->getLat_degInt(),_navigator->getLon_degInt()));
// if we have 2 or more waypoints do x track navigation
} else {
_mode = MAV_NAV_WAYPOINT;
float alongTrack = _command.alongTrack(_previousCommand,
_navigator->getLat_degInt(),
_navigator->getLon_degInt());
float distanceToNext = _command.distanceTo(
_navigator->getLat_degInt(), _navigator->getLon_degInt());
float segmentLength = _previousCommand.distanceTo(_command);
if (distanceToNext < _command.getRadius() || alongTrack
> segmentLength)
{
Serial.println("waypoint reached");
nextCommand();
}
_altitudeCommand = _command.getAlt();
float dXt = _command.crossTrack(_previousCommand,
_navigator->getLat_degInt(),
_navigator->getLon_degInt());
float temp = dXt * _crossTrackGain * deg2Rad; // crosstrack gain, rad/m
if (temp > _crossTrackLim * deg2Rad)
temp = _crossTrackLim * deg2Rad;
if (temp < -_crossTrackLim * deg2Rad)
temp = -_crossTrackLim * deg2Rad;
float bearing = _previousCommand.bearingTo(_command);
_headingCommand = bearing - temp;
//_hal->debug->printf_P(
//PSTR("nav: bCurrent2Dest: %f\tdXt: %f\tcmdHeading: %f\tnextWpDistance: %f\talongTrack: %f\n"),
//bearing * rad2Deg, dXt, _headingCommand * rad2Deg, distanceToNext, alongTrack);
}
_groundSpeedCommand = _velocityCommand;
// calculate pN,pE,pD from home and gps coordinates
_pNCmd = _command.getPN(_navigator->getLat_degInt(),
_navigator->getLon_degInt());
_pECmd = _command.getPE(_navigator->getLat_degInt(),
_navigator->getLon_degInt());
_pDCmd = _command.getPD(_navigator->getAlt_intM());
// debug
//_hal->debug->printf_P(
//PSTR("guide loop, number: %d, current index: %d, previous index: %d\n"),
//getNumberOfCommands(),
//getCurrentIndex(),
//getPreviousIndex());
break;
}
// case MAV_CMD_CONDITION_CHANGE_ALT:
// case MAV_CMD_CONDITION_DELAY:
// case MAV_CMD_CONDITION_DISTANCE:
// case MAV_CMD_CONDITION_LAST:
// case MAV_CMD_CONDITION_YAW:
// case MAV_CMD_DO_CHANGE_SPEED:
// case MAV_CMD_DO_CONTROL_VIDEO:
// case MAV_CMD_DO_JUMP:
// case MAV_CMD_DO_LAST:
// case MAV_CMD_DO_LAST:
// case MAV_CMD_DO_REPEAT_RELAY:
// case MAV_CMD_DO_REPEAT_SERVO:
// case MAV_CMD_DO_SET_HOME:
// case MAV_CMD_DO_SET_MODE:
// case MAV_CMD_DO_SET_PARAMETER:
// case MAV_CMD_DO_SET_RELAY:
// case MAV_CMD_DO_SET_SERVO:
// case MAV_CMD_PREFLIGHT_CALIBRATION:
// case MAV_CMD_PREFLIGHT_STORAGE:
// case MAV_CMD_NAV_LAND:
// case MAV_CMD_NAV_LAST:
// case MAV_CMD_NAV_LOITER_TIME:
// case MAV_CMD_NAV_LOITER_TURNS:
// case MAV_CMD_NAV_LOITER_UNLIM:
// case MAV_CMD_NAV_ORIENTATION_TARGET:
// case MAV_CMD_NAV_PATHPLANNING:
// case MAV_CMD_NAV_RETURN_TO_LAUNCH:
// case MAV_CMD_NAV_TAKEOFF:
default:
// unhandled command, skip
Serial.println("unhandled command");
nextCommand();
break;
}
}
} // namespace apo
// vim:ts=4:sw=4:expandtab