/usr/include/ompl/control/PlannerData.h is in libompl-dev 1.0.0+ds2-1build1.
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/* Author: Mark Moll */
#ifndef OMPL_CONTROL_PLANNER_DATA_
#define OMPL_CONTROL_PLANNER_DATA_
#include "ompl/base/PlannerData.h"
#include "ompl/control/SpaceInformation.h"
#include "ompl/control/Control.h"
#include <boost/serialization/base_object.hpp>
namespace ompl
{
namespace control
{
/// \brief Representation of an edge in PlannerData for planning with controls.
/// This structure encodes a specific control and a duration to apply the control.
/// \remarks If using PlannerDataEdgeControl in conjunction with PlannerDataStorage,
/// (i.e., storing the PlannerData from a controls planner) you must export a GUID
/// for PlannerDataEdgeControl so that the serializer can identify the derived
/// edge class:
/// \code
/// #include <boost/serialization/export.hpp>
/// ...
/// BOOST_CLASS_EXPORT(ompl::control::PlannerDataEdgeControl);
/// \endcode
class PlannerDataEdgeControl : public base::PlannerDataEdge
{
public:
/// \brief Constructor. Accepts a control pointer and a duration.
PlannerDataEdgeControl(const Control *c, double duration) : PlannerDataEdge(), c_(c), duration_(duration) {}
/// \brief Copy constructor.
PlannerDataEdgeControl(const PlannerDataEdgeControl &rhs) : PlannerDataEdge(), c_(rhs.c_), duration_(rhs.duration_) {}
virtual ~PlannerDataEdgeControl() {}
virtual base::PlannerDataEdge* clone() const
{
return static_cast<base::PlannerDataEdge*>(new PlannerDataEdgeControl(*this));
}
/// \brief Return the control associated with this edge.
const Control* getControl() const { return c_; }
/// \brief Return the duration associated with this edge.
double getDuration() const { return duration_; }
virtual bool operator==(const PlannerDataEdge &rhs) const
{
const PlannerDataEdgeControl *rhsc = static_cast<const PlannerDataEdgeControl*> (&rhs);
if (c_ == rhsc->c_)
return static_cast<const PlannerDataEdge>(*this) == rhs;
else
return false;
}
protected:
friend class boost::serialization::access;
friend class PlannerDataStorage;
friend class PlannerData;
PlannerDataEdgeControl() : PlannerDataEdge(), c_(NULL) {};
template <class Archive>
void serialize(Archive &ar, const unsigned int /*version*/)
{
ar & boost::serialization::base_object<base::PlannerDataEdge>(*this);
ar & duration_;
// Serializing the control is handled by control::PlannerDataStorage
}
const Control *c_;
double duration_;
};
/// \copydoc ompl::base::PlannerData
/// \brief This class assumes edges are derived from PlannerDataEdgeControl.
/// If this is not the case, see base::PlannerData.
class PlannerData : public base::PlannerData
{
public:
/// \brief Constructor. Accepts a SpaceInformationPtr for the space planned in.
PlannerData(const SpaceInformationPtr &siC);
/// \brief Destructor.
virtual ~PlannerData();
/// \brief Removes the vertex associated with the given data. If the
/// vertex does not exist, false is returned.
/// This method has O(n) complexity in the number of vertices.
virtual bool removeVertex(const base::PlannerDataVertex &st);
/// \brief Removes the vertex with the given index. If the index is
/// out of range, false is returned.
/// This method has O(n) complexity in the number of vertices.
virtual bool removeVertex(unsigned int vIndex);
/// \brief Removes the edge between vertex indexes \e v1 and \e v2. Success is returned.
virtual bool removeEdge(unsigned int v1, unsigned int v2);
/// \brief Removes the edge between the vertices associated with the given vertex data.
/// Success is returned.
virtual bool removeEdge(const base::PlannerDataVertex &v1, const base::PlannerDataVertex &v2);
/// \brief Clears the entire data structure
virtual void clear();
/// \brief Creates a deep copy of the states contained in the vertices of this
/// PlannerData structure so that when the planner that created this instance goes
/// out of scope, all data remains intact.
/// \remarks Shallow state pointers inside of the PlannerDataVertex objects already
/// in this PlannerData will be replaced with clones which are scoped to this PlannerData
/// object. A subsequent call to this method is necessary after any other vertices are
/// added to ensure that this PlannerData instance is fully decoupled.
virtual void decoupleFromPlanner();
/// \brief Return the instance of SpaceInformation used in this PlannerData
const SpaceInformationPtr& getSpaceInformation() const;
/// \brief Returns true if this PlannerData instance has controls associated with it
virtual bool hasControls() const;
protected:
/// \brief The instance of control::SpaceInformation associated with this data
SpaceInformationPtr siC_;
/// \brief A list of controls that are allocated during the decoupleFromPlanner method.
/// These controls are freed by PlannerData in the destructor.
std::set<Control*> decoupledControls_;
private:
void freeMemory();
};
}
}
#endif
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