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/*
* PlacedCutTube.h
*
* Created on: 03.11.2016
* Author: mgheata
*/
#ifndef VECGEOM_VOLUMES_PLACEDCUTTUBE_H_
#define VECGEOM_VOLUMES_PLACEDCUTTUBE_H_
#include "VecGeom/base/Global.h"
#include "VecGeom/volumes/PlacedVolume.h"
#include "VecGeom/volumes/UnplacedVolume.h"
#include "VecGeom/volumes/kernel/CutTubeImplementation.h"
#include "VecGeom/volumes/PlacedVolImplHelper.h"
#include "VecGeom/volumes/UnplacedCutTube.h"
namespace vecgeom {
VECGEOM_DEVICE_FORWARD_DECLARE(class PlacedCutTube;);
VECGEOM_DEVICE_DECLARE_CONV(class, PlacedCutTube);
inline namespace VECGEOM_IMPL_NAMESPACE {
class PlacedCutTube : public PlacedVolumeImplHelper<UnplacedCutTube, VPlacedVolume> {
using Base = PlacedVolumeImplHelper<UnplacedCutTube, VPlacedVolume>;
public:
#ifndef VECCORE_CUDA
// constructor inheritance;
using Base::Base;
PlacedCutTube(char const *const label, LogicalVolume const *const logicalVolume,
Transformation3D const *const transformation)
: Base(label, logicalVolume, transformation)
{
}
PlacedCutTube(LogicalVolume const *const logicalVolume, Transformation3D const *const transformation)
: PlacedCutTube("", logicalVolume, transformation)
{
}
#else
VECCORE_ATT_DEVICE PlacedCutTube(LogicalVolume const *const logicalVolume,
Transformation3D const *const transformation, const int id, const int copy_no,
const int child_id)
: Base(logicalVolume, transformation, id, copy_no, child_id)
{
}
#endif
VECCORE_ATT_HOST_DEVICE
virtual ~PlacedCutTube() {}
VECCORE_ATT_HOST_DEVICE
UnplacedCutTube const *GetUnplacedVolume() const
{
return static_cast<UnplacedCutTube const *>(GetLogicalVolume()->GetUnplacedVolume());
}
VECCORE_ATT_HOST_DEVICE
virtual void PrintType() const override;
virtual void PrintType(std::ostream &s) const override;
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Precision rmin() const { return GetUnplacedVolume()->rmin(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Precision rmax() const { return GetUnplacedVolume()->rmax(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Precision z() const { return GetUnplacedVolume()->z(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Precision sphi() const { return GetUnplacedVolume()->sphi(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Precision dphi() const { return GetUnplacedVolume()->dphi(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Vector3D<Precision> BottomNormal() const { return GetUnplacedVolume()->BottomNormal(); }
VECCORE_ATT_HOST_DEVICE
VECGEOM_FORCE_INLINE
Vector3D<Precision> TopNormal() const { return GetUnplacedVolume()->TopNormal(); }
// CUDA specific
/** @brief Memory size in bytes */
VECGEOM_FORCE_INLINE
virtual int MemorySize() const override { return sizeof(*this); }
#ifndef VECCORE_CUDA
virtual VPlacedVolume const *ConvertToUnspecialized() const override;
#ifdef VECGEOM_ROOT
virtual TGeoShape const *ConvertToRoot() const override;
#endif
#ifdef VECGEOM_GEANT4
virtual G4VSolid const *ConvertToGeant4() const override;
#endif
#endif // VECCORE_CUDA
};
} // namespace VECGEOM_IMPL_NAMESPACE
} // namespace vecgeom
#endif
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