Program Listing for File STRIDE.h
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/* Author: Bryant Gipson, Mark Moll */
#ifndef OMPL_GEOMETRIC_PLANNERS_STRIDE_STRIDE_
#define OMPL_GEOMETRIC_PLANNERS_STRIDE_STRIDE_
#include "ompl/datastructures/Grid.h"
#include "ompl/geometric/planners/PlannerIncludes.h"
#include "ompl/base/ProjectionEvaluator.h"
#include "ompl/datastructures/PDF.h"
#include <unordered_map>
#include <boost/scoped_ptr.hpp>
#include <vector>
namespace ompl
{
template <typename _T>
class NearestNeighborsGNAT;
namespace geometric
{
class STRIDE : public base::Planner
{
public:
STRIDE(const base::SpaceInformationPtr &si, bool useProjectedDistance = false, unsigned int degree = 16,
unsigned int minDegree = 12, unsigned int maxDegree = 18, unsigned int maxNumPtsPerLeaf = 6,
double estimatedDimension = 0.0);
~STRIDE() override;
void setup() override;
base::PlannerStatus solve(const base::PlannerTerminationCondition &ptc) override;
void clear() override;
void setGoalBias(double goalBias)
{
goalBias_ = goalBias;
}
double getGoalBias() const
{
return goalBias_;
}
void setUseProjectedDistance(bool useProjectedDistance)
{
useProjectedDistance_ = useProjectedDistance;
}
bool getUseProjectedDistance() const
{
return useProjectedDistance_;
}
void setDegree(unsigned int degree)
{
degree_ = degree;
}
unsigned int getDegree() const
{
return degree_;
}
void setMinDegree(unsigned int minDegree)
{
minDegree_ = minDegree;
}
unsigned int getMinDegree() const
{
return minDegree_;
}
void setMaxDegree(unsigned int maxDegree)
{
maxDegree_ = maxDegree;
}
unsigned int getMaxDegree() const
{
return maxDegree_;
}
void setMaxNumPtsPerLeaf(unsigned int maxNumPtsPerLeaf)
{
maxNumPtsPerLeaf_ = maxNumPtsPerLeaf;
}
unsigned int getMaxNumPtsPerLeaf() const
{
return maxNumPtsPerLeaf_;
}
void setEstimatedDimension(double estimatedDimension)
{
estimatedDimension_ = estimatedDimension;
}
double getEstimatedDimension() const
{
return estimatedDimension_;
}
void setRange(double distance)
{
maxDistance_ = distance;
}
double getRange() const
{
return maxDistance_;
}
void setMinValidPathFraction(double fraction)
{
minValidPathFraction_ = fraction;
}
double getMinValidPathFraction() const
{
return minValidPathFraction_;
}
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 getPlannerData(base::PlannerData &data) const override;
protected:
class Motion
{
public:
Motion() = default;
Motion(const base::SpaceInformationPtr &si) : state(si->allocState())
{
}
~Motion() = default;
base::State *state{nullptr};
Motion *parent{nullptr};
};
void freeMemory();
void setupTree();
double distanceFunction(const Motion *a, const Motion *b) const
{
return si_->distance(a->state, b->state);
}
double projectedDistanceFunction(const Motion *a, const Motion *b) const
{
unsigned int num_dims = projectionEvaluator_->getDimension();
Eigen::VectorXd aproj(num_dims), bproj(num_dims);
projectionEvaluator_->project(a->state, aproj);
projectionEvaluator_->project(b->state, bproj);
return (aproj - bproj).norm();
}
void addMotion(Motion *motion);
Motion *selectMotion();
base::ValidStateSamplerPtr sampler_;
base::ProjectionEvaluatorPtr projectionEvaluator_;
boost::scoped_ptr<NearestNeighborsGNAT<Motion *>> tree_;
double goalBias_{.05};
double maxDistance_{0.};
bool useProjectedDistance_;
unsigned int degree_;
unsigned int minDegree_;
unsigned int maxDegree_;
unsigned int maxNumPtsPerLeaf_;
double estimatedDimension_;
double minValidPathFraction_{.2};
RNG rng_;
};
} // namespace geometric
} // namespace ompl
#endif