physxCAPI/physxCDLL/include/geometry/PxConvexMeshGeometry.h
2023-08-11 10:55:58 +08:00

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// Copyright (c) 2008-2023 NVIDIA Corporation. All rights reserved.
// Copyright (c) 2004-2008 AGEIA Technologies, Inc. All rights reserved.
// Copyright (c) 2001-2004 NovodeX AG. All rights reserved.
#ifndef PX_CONVEX_MESH_GEOMETRY_H
#define PX_CONVEX_MESH_GEOMETRY_H
/** \addtogroup geomutils
@{
*/
#include "geometry/PxGeometry.h"
#include "geometry/PxMeshScale.h"
#include "common/PxCoreUtilityTypes.h"
#include "geometry/PxConvexMesh.h"
#if !PX_DOXYGEN
namespace physx
{
#endif
class PxConvexMesh;
/**
\brief Flags controlling the simulated behavior of the convex mesh geometry.
Used in ::PxConvexMeshGeometryFlags.
*/
struct PxConvexMeshGeometryFlag
{
enum Enum
{
eTIGHT_BOUNDS = (1<<0) //!< Use tighter (but more expensive to compute) bounds around the convex geometry.
};
};
/**
\brief collection of set bits defined in PxConvexMeshGeometryFlag.
@see PxConvexMeshGeometryFlag
*/
typedef PxFlags<PxConvexMeshGeometryFlag::Enum,PxU8> PxConvexMeshGeometryFlags;
PX_FLAGS_OPERATORS(PxConvexMeshGeometryFlag::Enum,PxU8)
/**
\brief Convex mesh geometry class.
This class unifies a convex mesh object with a scaling transform, and
lets the combined object be used anywhere a PxGeometry is needed.
The scaling is a transform along arbitrary axes contained in the scale object.
The vertices of the mesh in geometry (or shape) space is the
PxMeshScale::toMat33() transform, multiplied by the vertex space vertices
in the PxConvexMesh object.
*/
class PxConvexMeshGeometry : public PxGeometry
{
public:
/**
\brief Constructor. By default creates an empty object with a NULL mesh and identity scale.
\param[in] mesh Mesh pointer. May be NULL, though this will not make the object valid for shape construction.
\param[in] scaling Scale factor.
\param[in] flags Mesh flags.
\
*/
PX_INLINE PxConvexMeshGeometry( PxConvexMesh* mesh = NULL,
const PxMeshScale& scaling = PxMeshScale(),
PxConvexMeshGeometryFlags flags = PxConvexMeshGeometryFlag::eTIGHT_BOUNDS) :
PxGeometry (PxGeometryType::eCONVEXMESH),
scale (scaling),
convexMesh (mesh),
meshFlags (flags)
{
}
/**
\brief Copy constructor.
\param[in] that Other object
*/
PX_INLINE PxConvexMeshGeometry(const PxConvexMeshGeometry& that) :
PxGeometry (that),
scale (that.scale),
convexMesh (that.convexMesh),
meshFlags (that.meshFlags)
{
}
/**
\brief Assignment operator
*/
PX_INLINE void operator=(const PxConvexMeshGeometry& that)
{
mType = that.mType;
scale = that.scale;
convexMesh = that.convexMesh;
meshFlags = that.meshFlags;
}
/**
\brief Returns true if the geometry is valid.
\return True if the current settings are valid for shape creation.
\note A valid convex mesh has a positive scale value in each direction (scale.x > 0, scale.y > 0, scale.z > 0).
It is illegal to call PxRigidActor::createShape and PxPhysics::createShape with a convex that has zero extent in any direction.
@see PxRigidActor::createShape, PxPhysics::createShape
*/
PX_INLINE bool isValid() const;
public:
PxMeshScale scale; //!< The scaling transformation (from vertex space to shape space).
PxConvexMesh* convexMesh; //!< A reference to the convex mesh object.
PxConvexMeshGeometryFlags meshFlags; //!< Mesh flags.
PxPadding<3> paddingFromFlags; //!< padding for mesh flags
};
PX_INLINE bool PxConvexMeshGeometry::isValid() const
{
if(mType != PxGeometryType::eCONVEXMESH)
return false;
if(!scale.scale.isFinite() || !scale.rotation.isUnit())
return false;
if(!scale.isValidForConvexMesh())
return false;
if(!convexMesh)
return false;
return true;
}
#if !PX_DOXYGEN
} // namespace physx
#endif
/** @} */
#endif