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#ifndef PX_TETRAHEDRON_MESH_DESC_H
#define PX_TETRAHEDRON_MESH_DESC_H

#include "PxPhysXConfig.h"
#include "foundation/PxVec3.h"
#include "foundation/PxFlags.h"
#include "common/PxCoreUtilityTypes.h"
#include "geometry/PxSimpleTriangleMesh.h"
#include "foundation/PxArray.h"

#if !PX_DOXYGEN
namespace physx
{
#endif

    class PxTetrahedronMeshDesc
    {
    public:

        enum PxMeshFormat
        {
            eTET_MESH,
            eHEX_MESH
        };


        PxTypedStridedData<PxFEMMaterialTableIndex> materialIndices;

        PxBoundedData points;

        PxBoundedData tetrahedrons;


        PxMeshFlags flags;

        PxU16 tetsPerElement;

        PxTetrahedronMeshDesc()
        {
            points.count = 0;
            points.stride = 0;
            points.data = NULL;

            tetrahedrons.count = 0;
            tetrahedrons.stride = 0;
            tetrahedrons.data = NULL;

            tetsPerElement = 1;
        }

        PxTetrahedronMeshDesc(physx::PxArray<physx::PxVec3>& meshVertices, physx::PxArray<physx::PxU32>& meshTetIndices, const PxTetrahedronMeshDesc::PxMeshFormat meshFormat = eTET_MESH)
        {
            points.count = meshVertices.size();
            points.stride = sizeof(float) * 3;
            points.data = meshVertices.begin();

            tetrahedrons.count = meshTetIndices.size() / 4;
            tetrahedrons.stride = sizeof(int) * 4;
            tetrahedrons.data = meshTetIndices.begin();

            if (meshFormat == eTET_MESH)
                tetsPerElement = 1;
            else
                tetsPerElement = 6;
        }

        PX_INLINE bool isValid() const
        {
            // Check geometry of the collision mesh
            if (points.count < 4)   //at least 1 tetrahedron's worth of points
                return false;
            if ((!tetrahedrons.data) && (points.count % 4))     // Non-indexed mesh => we must ensure the geometry defines an implicit number of tetrahedrons // i.e. numVertices can't be divided by 4
                return false;
            if (points.count > 0xffff && flags & PxMeshFlag::e16_BIT_INDICES)
                return false;
            if (!points.data)
                return false;
            if (points.stride < sizeof(PxVec3)) //should be at least one point's worth of data
                return false;

            //add more validity checks here
            if (materialIndices.data && materialIndices.stride < sizeof(PxFEMMaterialTableIndex))
                return false;

            // The tetrahedrons pointer is not mandatory
            if (tetrahedrons.data)
            {
                // Indexed collision mesh
                PxU32 limit = (flags & PxMeshFlag::e16_BIT_INDICES) ? sizeof(PxU16) * 4 : sizeof(PxU32) * 4;
                if (tetrahedrons.stride < limit)
                    return false;
            }

            //The model can only be either a tetmesh (1 tet per element), or have 5 or 6 tets per hex element, otherwise invalid.
            if (tetsPerElement != 1 && tetsPerElement != 6)
                return false;

            return true;
        }
    };

    //\brief Descriptor class for #PxSoftBodyMesh (contains only additional data used for softbody simulation).

    //@see PxSoftBodyMesh PxShape
    //*/
    class PxSoftBodySimulationDataDesc
    {
    public:
        PxBoundedData vertexToTet;

        PxSoftBodySimulationDataDesc()
        {
            vertexToTet.count = 0;
            vertexToTet.stride = 0;
            vertexToTet.data = NULL;
        }

        PxSoftBodySimulationDataDesc(physx::PxArray<physx::PxI32>& vertToTet)
        {
            vertexToTet.count = vertToTet.size();
            vertexToTet.stride = sizeof(PxI32);
            vertexToTet.data = vertToTet.begin();
        }

        PX_INLINE bool isValid() const
        {
            return true;
        }
    };

#if !PX_DOXYGEN
} // namespace physx
#endif

#endif