Program Listing for File pSBL.h
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/* Author: Ioan Sucan */
#ifndef OMPL_GEOMETRIC_PLANNERS_SBL_pSBL_
#define OMPL_GEOMETRIC_PLANNERS_SBL_pSBL_
#include "ompl/geometric/planners/PlannerIncludes.h"
#include "ompl/base/ProjectionEvaluator.h"
#include "ompl/base/StateSamplerArray.h"
#include "ompl/datastructures/Grid.h"
#include "ompl/datastructures/PDF.h"
#include <thread>
#include <mutex>
#include <vector>
namespace ompl
{
namespace geometric
{
class pSBL : public base::Planner
{
public:
pSBL(const base::SpaceInformationPtr &si);
~pSBL() override;
void setProjectionEvaluator(const base::ProjectionEvaluatorPtr &projectionEvaluator)
{
projectionEvaluator_ = projectionEvaluator;
}
void setProjectionEvaluator(const std::string &name)
{
projectionEvaluator_ = si_->getStateSpace()->getProjection(name);
}
const base::ProjectionEvaluatorPtr &getProjectionEvaluator() const
{
return projectionEvaluator_;
}
void setRange(double distance)
{
maxDistance_ = distance;
}
double getRange() const
{
return maxDistance_;
}
void setThreadCount(unsigned int nthreads);
unsigned int getThreadCount() const
{
return threadCount_;
}
void setup() override;
base::PlannerStatus solve(const base::PlannerTerminationCondition &ptc) override;
void clear() override;
void getPlannerData(base::PlannerData &data) const override;
protected:
class Motion;
struct MotionInfo;
using GridCell = Grid<MotionInfo>::Cell;
using CellPDF = PDF<GridCell *>;
class Motion
{
public:
Motion() = default;
Motion(const base::SpaceInformationPtr &si)
: state(si->allocState())
{
}
~Motion() = default;
const base::State *root{nullptr};
base::State *state{nullptr};
Motion *parent{nullptr};
bool valid{false};
std::vector<Motion *> children;
std::mutex lock;
};
struct MotionInfo
{
Motion *operator[](unsigned int i)
{
return motions_[i];
}
std::vector<Motion *>::iterator begin()
{
return motions_.begin();
}
void erase(std::vector<Motion *>::iterator iter)
{
motions_.erase(iter);
}
void push_back(Motion *m)
{
motions_.push_back(m);
}
unsigned int size() const
{
return motions_.size();
}
bool empty() const
{
return motions_.empty();
}
std::vector<Motion *> motions_;
CellPDF::Element *elem_;
};
struct TreeData
{
TreeData() = default;
Grid<MotionInfo> grid{0};
unsigned int size{0};
CellPDF pdf;
std::mutex lock;
};
struct SolutionInfo
{
std::vector<Motion *> solution;
bool found;
std::mutex lock;
};
struct PendingRemoveMotion
{
TreeData *tree;
Motion *motion;
};
struct MotionsToBeRemoved
{
std::vector<PendingRemoveMotion> motions;
std::mutex lock;
};
void threadSolve(unsigned int tid, const base::PlannerTerminationCondition &ptc, SolutionInfo *sol);
void freeMemory()
{
freeGridMotions(tStart_.grid);
freeGridMotions(tGoal_.grid);
}
void freeGridMotions(Grid<MotionInfo> &grid);
void addMotion(TreeData &tree, Motion *motion);
Motion *selectMotion(RNG &rng, TreeData &tree);
void removeMotion(TreeData &tree, Motion *motion, std::map<Motion *, bool> &seen);
bool isPathValid(TreeData &tree, Motion *motion);
bool checkSolution(RNG &rng, bool start, TreeData &tree, TreeData &otherTree, Motion *motion,
std::vector<Motion *> &solution);
base::StateSamplerArray<base::ValidStateSampler> samplerArray_;
base::ProjectionEvaluatorPtr projectionEvaluator_;
TreeData tStart_;
TreeData tGoal_;
MotionsToBeRemoved removeList_;
std::mutex loopLock_;
std::mutex loopLockCounter_;
unsigned int loopCounter_;
double maxDistance_{0.};
unsigned int threadCount_;
std::pair<base::State *, base::State *> connectionPoint_{nullptr, nullptr};
};
}
}
#endif