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LibrePilot/flight/Modules/PathPlanner/pathplanner.c
2012-06-08 14:12:52 -05:00

424 lines
12 KiB
C

/**
******************************************************************************
* @addtogroup OpenPilotModules OpenPilot Modules
* @{
* @addtogroup PathPlanner Path Planner Module
* @brief Executes a series of waypoints
* @{
*
* @file pathplanner.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2012.
* @brief Executes a series of waypoints
*
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "openpilot.h"
#include "paths.h"
#include "flightstatus.h"
#include "pathdesired.h"
#include "pathplannersettings.h"
#include "positionactual.h"
#include "waypoint.h"
#include "waypointactive.h"
// Private constants
#define STACK_SIZE_BYTES 1024
#define TASK_PRIORITY (tskIDLE_PRIORITY+1)
#define MAX_QUEUE_SIZE 2
// Private types
// Private variables
static xTaskHandle taskHandle;
static xQueueHandle queue;
static PathPlannerSettingsData pathPlannerSettings;
static WaypointActiveData waypointActive;
static WaypointData waypoint;
// Private functions
static void advanceWaypoint();
static void checkTerminationCondition();
static void activateWaypoint();
static void pathPlannerTask(void *parameters);
static void settingsUpdated(UAVObjEvent * ev);
static void waypointsUpdated(UAVObjEvent * ev);
static void createPathBox();
static void createPathLogo();
static int32_t active_waypoint = -1;
/**
* Module initialization
*/
int32_t PathPlannerStart()
{
taskHandle = NULL;
// Start VM thread
xTaskCreate(pathPlannerTask, (signed char *)"PathPlanner", STACK_SIZE_BYTES/4, NULL, TASK_PRIORITY, &taskHandle);
TaskMonitorAdd(TASKINFO_RUNNING_PATHPLANNER, taskHandle);
return 0;
}
/**
* Module initialization
*/
int32_t PathPlannerInitialize()
{
taskHandle = NULL;
PathPlannerSettingsInitialize();
WaypointInitialize();
WaypointActiveInitialize();
// Create object queue
queue = xQueueCreate(MAX_QUEUE_SIZE, sizeof(UAVObjEvent));
return 0;
}
MODULE_INITCALL(PathPlannerInitialize, PathPlannerStart)
/**
* Module task
*/
int32_t bad_inits;
int32_t bad_reads;
static void pathPlannerTask(void *parameters)
{
PathPlannerSettingsConnectCallback(settingsUpdated);
settingsUpdated(PathPlannerSettingsHandle());
WaypointConnectCallback(waypointsUpdated);
WaypointActiveConnectCallback(waypointsUpdated);
FlightStatusData flightStatus;
// Main thread loop
bool pathplanner_active = false;
while (1)
{
vTaskDelay(20);
FlightStatusGet(&flightStatus);
if (flightStatus.FlightMode != FLIGHTSTATUS_FLIGHTMODE_PATHPLANNER) {
pathplanner_active = false;
continue;
}
checkTerminationCondition();
if(pathplanner_active == false) {
// This triggers callback to update variable
WaypointActiveGet(&waypointActive);
waypointActive.Index = 0;
WaypointActiveSet(&waypointActive);
pathplanner_active = true;
continue;
}
}
}
/**
* On changed waypoints or active waypoint update position desired
* if we are in charge
*/
static void waypointsUpdated(UAVObjEvent * ev)
{
FlightStatusData flightStatus;
FlightStatusGet(&flightStatus);
if (flightStatus.FlightMode != FLIGHTSTATUS_FLIGHTMODE_PATHPLANNER)
return;
WaypointActiveGet(&waypointActive);
if(active_waypoint != waypointActive.Index)
activateWaypoint(waypointActive.Index);
}
/**
* This method checks the current position against the active waypoint
* to determine if it has been reached
*/
static void checkTerminationCondition()
{
const float MIN_RADIUS = 4.0f; // Radius to consider at waypoint (m)
PositionActualData positionActual;
PathDesiredData pathDesired;
switch(waypoint.Action) {
case WAYPOINT_ACTION_ENDPOINTTONEXT:
PositionActualGet(&positionActual);
float r2 = powf(positionActual.North - waypoint.Position[WAYPOINT_POSITION_NORTH], 2) +
powf(positionActual.East - waypoint.Position[WAYPOINT_POSITION_EAST], 2) +
powf(positionActual.Down - waypoint.Position[WAYPOINT_POSITION_DOWN], 2);
// We hit this waypoint
if (r2 < (MIN_RADIUS * MIN_RADIUS))
advanceWaypoint();
break;
case WAYPOINT_ACTION_PATHTONEXT:
PathDesiredGet(&pathDesired);
PositionActualGet(&positionActual);
float cur[3] = {positionActual.North, positionActual.East, positionActual.Down};
struct path_status progress;
path_progress(pathDesired.Start, pathDesired.End, cur, &progress);
if (progress.fractional_progress >= 1)
advanceWaypoint();
break;
case WAYPOINT_ACTION_STOP:
// Never advance even when you hit a stop waypoint
break;
}
}
/**
* Increment the waypoint index which triggers the active waypoint method
*/
static void advanceWaypoint()
{
WaypointActiveGet(&waypointActive);
waypointActive.Index++;
WaypointActiveSet(&waypointActive);
}
/**
* This method is called when a new waypoint is activated
*/
static void activateWaypoint(int idx)
{
active_waypoint = idx;
uint8_t waypoint_mode = WAYPOINT_ACTION_PATHTONEXT;
if (idx > 0) {
WaypointData prevWaypoint;
WaypointInstGet(idx - 1, &prevWaypoint);
waypoint_mode = prevWaypoint.Action;
}
PathDesiredData pathDesired;
switch(waypoint_mode) {
case WAYPOINT_ACTION_ENDPOINTTONEXT:
{
WaypointInstGet(idx, &waypoint);
PathDesiredGet(&pathDesired);
pathDesired.End[PATHDESIRED_END_NORTH] = waypoint.Position[WAYPOINT_POSITION_NORTH];
pathDesired.End[PATHDESIRED_END_EAST] = waypoint.Position[WAYPOINT_POSITION_EAST];
pathDesired.End[PATHDESIRED_END_DOWN] = -waypoint.Position[WAYPOINT_POSITION_DOWN];
pathDesired.Mode = PATHDESIRED_MODE_ENDPOINT;
PathDesiredSet(&pathDesired);
}
break;
case WAYPOINT_ACTION_PATHTONEXT:
{
WaypointInstGet(idx, &waypoint);
PathDesiredData pathDesired;
pathDesired.End[PATHDESIRED_END_NORTH] = waypoint.Position[WAYPOINT_POSITION_NORTH];
pathDesired.End[PATHDESIRED_END_EAST] = waypoint.Position[WAYPOINT_POSITION_EAST];
pathDesired.End[PATHDESIRED_END_DOWN] = waypoint.Position[WAYPOINT_POSITION_DOWN];
pathDesired.Mode = PATHDESIRED_MODE_PATH;
pathDesired.EndingVelocity = sqrtf(powf(waypoint.Velocity[WAYPOINT_VELOCITY_NORTH],2) +
powf(waypoint.Velocity[WAYPOINT_VELOCITY_EAST],2));
if(waypointActive.Index == 0) {
// Get current position as start point
PositionActualData positionActual;
PositionActualGet(&positionActual);
pathDesired.Start[PATHDESIRED_START_NORTH] = positionActual.North;
pathDesired.Start[PATHDESIRED_START_EAST] = positionActual.East;
pathDesired.Start[PATHDESIRED_START_DOWN] = positionActual.Down - 1;
pathDesired.StartingVelocity = pathDesired.EndingVelocity;
} else {
// Get previous waypoint as start point
WaypointData waypointPrev;
WaypointInstGet(waypointActive.Index - 1, &waypointPrev);
pathDesired.Start[PATHDESIRED_END_NORTH] = waypointPrev.Position[WAYPOINT_POSITION_NORTH];
pathDesired.Start[PATHDESIRED_END_EAST] = waypointPrev.Position[WAYPOINT_POSITION_EAST];
pathDesired.Start[PATHDESIRED_END_DOWN] = waypointPrev.Position[WAYPOINT_POSITION_DOWN];
pathDesired.StartingVelocity = sqrtf(powf(waypointPrev.Velocity[WAYPOINT_VELOCITY_NORTH],2) +
powf(waypointPrev.Velocity[WAYPOINT_VELOCITY_EAST],2));
}
PathDesiredSet(&pathDesired);
}
break;
}
}
void settingsUpdated(UAVObjEvent * ev) {
uint8_t preprogrammedPath = pathPlannerSettings.PreprogrammedPath;
PathPlannerSettingsGet(&pathPlannerSettings);
if (pathPlannerSettings.PreprogrammedPath != preprogrammedPath) {
switch(pathPlannerSettings.PreprogrammedPath) {
case PATHPLANNERSETTINGS_PREPROGRAMMEDPATH_NONE:
break;
case PATHPLANNERSETTINGS_PREPROGRAMMEDPATH_10M_BOX:
createPathBox();
break;
case PATHPLANNERSETTINGS_PREPROGRAMMEDPATH_LOGO:
createPathLogo();
break;
}
}
}
static void createPathBox()
{
WaypointCreateInstance();
WaypointCreateInstance();
WaypointCreateInstance();
WaypointCreateInstance();
WaypointCreateInstance();
// Draw O
WaypointData waypoint;
waypoint.Velocity[0] = 2; // Since for now this isn't directional just set a mag
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
waypoint.Position[0] = 5;
waypoint.Position[1] = 5;
waypoint.Position[2] = -10;
WaypointInstSet(0, &waypoint);
waypoint.Position[0] = -5;
waypoint.Position[1] = 5;
WaypointInstSet(1, &waypoint);
waypoint.Position[0] = -5;
waypoint.Position[1] = -5;
WaypointInstSet(2, &waypoint);
waypoint.Position[0] = 5;
waypoint.Position[1] = -5;
WaypointInstSet(3, &waypoint);
waypoint.Position[0] = 5;
waypoint.Position[1] = 5;
WaypointInstSet(4, &waypoint);
waypoint.Position[0] = 0;
waypoint.Position[1] = 0;
WaypointInstSet(5, &waypoint);
}
static void createPathLogo()
{
float scale = 1;
// Draw O
WaypointData waypoint;
waypoint.Velocity[0] = 2; // Since for now this isn't directional just set a mag
for(uint32_t i = 0; i < 20; i++) {
waypoint.Position[1] = scale * 30 * cos(i / 19.0 * 2 * M_PI);
waypoint.Position[0] = scale * 50 * sin(i / 19.0 * 2 * M_PI);
waypoint.Position[2] = -50;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
bad_inits += (WaypointInstSet(i, &waypoint) != 0);
}
// Draw P
for(uint32_t i = 20; i < 35; i++) {
waypoint.Position[1] = scale * (55 + 20 * cos(i / 10.0 * M_PI - M_PI / 2));
waypoint.Position[0] = scale * (25 + 25 * sin(i / 10.0 * M_PI - M_PI / 2));
waypoint.Position[2] = -50;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
bad_inits += (WaypointInstSet(i, &waypoint) != 0);
}
waypoint.Position[1] = scale * 35;
waypoint.Position[0] = scale * -50;
waypoint.Position[2] = -50;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(35, &waypoint);
// Draw Box
waypoint.Position[1] = scale * 35;
waypoint.Position[0] = scale * -60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(36, &waypoint);
waypoint.Position[1] = scale * 85;
waypoint.Position[0] = scale * -60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(37, &waypoint);
waypoint.Position[1] = scale * 85;
waypoint.Position[0] = scale * 60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(38, &waypoint);
waypoint.Position[1] = scale * -40;
waypoint.Position[0] = scale * 60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(39, &waypoint);
waypoint.Position[1] = scale * -40;
waypoint.Position[0] = scale * -60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(40, &waypoint);
waypoint.Position[1] = scale * 35;
waypoint.Position[0] = scale * -60;
waypoint.Position[2] = -30;
waypoint.Action = WAYPOINT_ACTION_PATHTONEXT;
WaypointCreateInstance();
WaypointInstSet(41, &waypoint);
}
/**
* @}
* @}
*/