genesis-3d_engine/Engine/ExtIncludes/physX3/windows/geometry/PxTriangleMesh.h

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// Copyright (c) 2008-2013 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_PHYSICS_GEOMUTILS_NX_TRIANGLEMESH
#define PX_PHYSICS_GEOMUTILS_NX_TRIANGLEMESH
/** \addtogroup geomutils
@{ */
#include "foundation/PxVec3.h"
#include "foundation/PxBounds3.h"
#include "geometry/PxPhysXGeomUtils.h"
#include "common/PxSerialFramework.h"
#ifndef PX_DOXYGEN
namespace physx
{
#endif
/**
\brief Flags for the mesh geometry properties.
Used in ::PxTriangleMeshFlags.
*/
struct PxTriangleMeshFlag
{
enum Enum
{
eHAS_16BIT_TRIANGLE_INDICES = (1<<1), //!< The triangle mesh has 16bits triangle indices.
eHAS_ADJACENCY_INFO = (1<<2) //!< The triangle mesh has adjacency information build.
};
};
/**
\brief collection of set bits defined in PxTriangleMeshFlag.
@see PxTriangleMeshFlag
*/
typedef PxFlags<PxTriangleMeshFlag::Enum,PxU8> PxTriangleMeshFlags;
PX_FLAGS_OPERATORS(PxTriangleMeshFlag::Enum,PxU8);
/**
\brief A triangle mesh, also called a 'polygon soup'.
It is represented as an indexed triangle list. There are no restrictions on the
triangle data.
To avoid duplicating data when you have several instances of a particular
mesh positioned differently, you do not use this class to represent a
mesh object directly. Instead, you create an instance of this mesh via
the PxTriangleMeshGeometry and PxShape classes.
<h3>Creation</h3>
To create an instance of this class call PxPhysics::createTriangleMesh(),
and release() to delete it. This is only possible
once you have released all of its PxShape instances.
<h3>Visualizations:</h3>
\li #PxVisualizationParameter::eCOLLISION_AABBS
\li #PxVisualizationParameter::eCOLLISION_SHAPES
\li #PxVisualizationParameter::eCOLLISION_AXES
\li #PxVisualizationParameter::eCOLLISION_FNORMALS
\li #PxVisualizationParameter::eCOLLISION_EDGES
@see PxTriangleMeshDesc PxTriangleMeshGeometry PxShape PxPhysics.createTriangleMesh()
*/
class PxTriangleMesh : public PxSerializable
{
public:
/**
\brief Returns the number of vertices.
\return number of vertices
@see getVertices()
*/
PX_PHYSX_COMMON_API virtual PxU32 getNbVertices() const = 0;
/**
\brief Returns the vertices.
\return array of vertices
@see getNbVertices()
*/
PX_PHYSX_COMMON_API virtual const PxVec3* getVertices() const = 0;
/**
\brief Returns the number of triangles.
\return number of triangles
@see getTriangles() has16BitTriangleIndices() getTrianglesRemap()
*/
PX_PHYSX_COMMON_API virtual PxU32 getNbTriangles() const = 0;
/**
\brief Returns the triangle indices.
The indices can be 16 or 32bit depending on the number of triangles in the mesh.
Call has16BitTriangleIndices() to know if the indices are 16 or 32 bits.
The number of indices is the number of triangles * 3.
\return array of triangles
@see getNbTriangles() has16BitTriangleIndices() getTrianglesRemap()
*/
PX_PHYSX_COMMON_API virtual const void* getTriangles() const = 0;
/**
\brief Returns whether the triangle indices are 16 or 32bits.
Deprecated in future releases, getTriangleMeshFlags() should be used.
\return true for 16bit indices, false for 32bit indices
@see getNbTriangles() getTriangles() getTrianglesRemap()
*/
PX_DEPRECATED PX_PHYSX_COMMON_API virtual bool has16BitTriangleIndices() const = 0;
/**
\brief Reads the PxTriangleMesh flags.
See the list of flags #PxTriangleMeshFlag
\return The values of the PxTriangleMesh flags.
@see PxTriangleMesh
*/
PX_PHYSX_COMMON_API virtual PxTriangleMeshFlags getTriangleMeshFlags() const = 0;
/**
\brief Returns the triangle remapping table.
The triangles are internally sorted according to various criteria. Hence the internal triangle order
does not always match the original (user-defined) order. The remapping table helps finding the old
indices knowing the new ones:
remapTable[ internalTriangleIndex ] = originalTriangleIndex
\return the remapping table
@see getNbTriangles() getTriangles() has16BitTriangleIndices()
*/
PX_PHYSX_COMMON_API virtual const PxU32* getTrianglesRemap() const = 0;
/**
\brief Destroys the triangle mesh.
\note This will decrease the reference count by one.
Releases the application's reference to the triangle mesh.
The mesh is destroyed when the application's reference is released and all shapes referencing the mesh are destroyed.
@see PxPhysics.createTriangleMesh()
*/
PX_PHYSX_COMMON_API virtual void release() = 0;
/**
\brief Returns material table index of given triangle
This function takes a post cooking triangle index.
\param[in] triangleIndex (internal) index of desired triangle
\return Material table index, or 0xffff if no per-triangle materials are used
*/
PX_PHYSX_COMMON_API virtual PxMaterialTableIndex getTriangleMaterialIndex(PxTriangleID triangleIndex) const = 0;
/**
\brief Returns the local-space (vertex space) AABB from the triangle mesh.
\return local-space bounds
*/
PX_PHYSX_COMMON_API virtual PxBounds3 getLocalBounds() const = 0;
/**
\brief Returns the reference count for shared meshes.
At creation, the reference count of the mesh is 1. Every shape referencing this mesh increments the
count by 1. When the reference count reaches 0, and only then, the mesh gets destroyed automatically.
\return the current reference count.
*/
PX_PHYSX_COMMON_API virtual PxU32 getReferenceCount() const = 0;
PX_INLINE virtual const char* getConcreteTypeName() const { return "PxTriangleMesh"; }
protected:
PxTriangleMesh() {}
PxTriangleMesh(PxRefResolver& v) : PxSerializable(v) {}
virtual ~PxTriangleMesh(){}
virtual bool isKindOf(const char* name) const { return !strcmp("PxTriangleMesh", name) || PxSerializable::isKindOf(name); }
};
#ifndef PX_DOXYGEN
} // namespace physx
#endif
/** @} */
#endif