Program Listing for File SST.h
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/* Authors: Zakary Littlefield */
#ifndef OMPL_GEOMETRIC_PLANNERS_SST_SST_
#define OMPL_GEOMETRIC_PLANNERS_SST_SST_
#include "ompl/geometric/planners/PlannerIncludes.h"
#include "ompl/datastructures/NearestNeighbors.h"
namespace ompl
{
namespace geometric
{
class SST : public base::Planner
{
public:
SST(const base::SpaceInformationPtr &si);
~SST() override;
void setup() override;
base::PlannerStatus solve(const base::PlannerTerminationCondition &ptc) override;
void getPlannerData(base::PlannerData &data) const override;
void clear() override;
void setGoalBias(double goalBias)
{
goalBias_ = goalBias;
}
double getGoalBias() const
{
return goalBias_;
}
void setRange(double distance)
{
maxDistance_ = distance;
}
double getRange() const
{
return maxDistance_;
}
void setSelectionRadius(double selectionRadius)
{
selectionRadius_ = selectionRadius;
}
double getSelectionRadius() const
{
return selectionRadius_;
}
void setPruningRadius(double pruningRadius)
{
pruningRadius_ = pruningRadius;
}
double getPruningRadius() const
{
return pruningRadius_;
}
template <template <typename T> class NN>
void setNearestNeighbors()
{
if (nn_ && nn_->size() != 0)
OMPL_WARN("Calling setNearestNeighbors will clear all states.");
clear();
nn_ = std::make_shared<NN<Motion *>>();
witnesses_ = std::make_shared<NN<Motion *>>();
setup();
}
protected:
class Motion
{
public:
Motion() = default;
Motion(const base::SpaceInformationPtr &si)
: state_(si->allocState())
{
}
virtual ~Motion() = default;
virtual base::State *getState() const
{
return state_;
}
virtual Motion *getParent() const
{
return parent_;
}
base::Cost accCost_{0.};
base::State *state_{nullptr};
Motion *parent_{nullptr};
unsigned numChildren_{0};
bool inactive_{false};
};
class Witness : public Motion
{
public:
Witness() = default;
Witness(const base::SpaceInformationPtr &si) : Motion(si)
{
}
base::State *getState() const override
{
return rep_->state_;
}
Motion *getParent() const override
{
return rep_->parent_;
}
void linkRep(Motion *lRep)
{
rep_ = lRep;
}
Motion *rep_{nullptr};
};
Motion *selectNode(Motion *sample);
Witness *findClosestWitness(Motion *node);
base::State *monteCarloProp(Motion *m);
void freeMemory();
double distanceFunction(const Motion *a, const Motion *b) const
{
return si_->distance(a->state_, b->state_);
}
base::StateSamplerPtr sampler_;
std::shared_ptr<NearestNeighbors<Motion *>> nn_;
std::shared_ptr<NearestNeighbors<Motion *>> witnesses_;
double goalBias_{.05};
double maxDistance_{5.};
double selectionRadius_{5.};
double pruningRadius_{3.};
RNG rng_;
std::vector<base::State *> prevSolution_;
base::Cost prevSolutionCost_{std::numeric_limits<double>::quiet_NaN()};
base::OptimizationObjectivePtr opt_;
};
}
}
#endif