PxClothMeshDesc Class Reference
[Cooking]

Descriptor class for a cloth mesh. More...

#include <PxClothMeshDesc.h>

Collaboration diagram for PxClothMeshDesc:

Collaboration graph
PxFlags\< PxMeshFlag::Enum, PxU16 \>PxBoundedDataPxStridedData
[legend]

List of all members.

Public Member Functions

PX_INLINE PxClothMeshDesc ()
 constructor sets to default.
PX_INLINE void setToDefault ()
 (re)sets the structure to the default.
PX_INLINE bool isValid () const
 Returns true if the descriptor is valid.

Public Attributes

PxBoundedData points
 Pointer to first vertex point.
PxBoundedData invMasses
 Determines whether particle is simulated or static. A positive value denotes that the particle is being simulated, zero denotes a static particle. This data is used to generate tether and zero stretch constraints. If invMasses.data is null, all particles are assumed to be simulated and no tether and zero stretch constraints are being generated.
PxBoundedData triangles
 Pointer to the first triangle.
PxBoundedData quads
 Pointer to the first quad.
PxMeshFlags flags
 Flags bits, combined from values of the enum PxMeshFlag.


Detailed Description

Descriptor class for a cloth mesh.

Deprecated:
The PhysX cloth feature has been deprecated in PhysX version 3.4.1
See also:
PxCooking.cookClothMesh()

Member Data Documentation

Flags bits, combined from values of the enum PxMeshFlag.

Referenced by isValid().

Determines whether particle is simulated or static. A positive value denotes that the particle is being simulated, zero denotes a static particle. This data is used to generate tether and zero stretch constraints. If invMasses.data is null, all particles are assumed to be simulated and no tether and zero stretch constraints are being generated.

Referenced by isValid().

Pointer to first vertex point.

Referenced by isValid().

Pointer to the first quad.

These are quadruples of 0 based indices: vert0 vert1 vert2 vert3 vert0 vert1 vert2 vert3 vert0 vert1 vert2 vert3 ...

where vert* is either a 32 or 16 bit unsigned integer. There are a total of 4*count indices. The stride determines the byte offset to the next index quadruple.

This is declared as a void pointer because it is actually either an PxU16 or a PxU32 pointer.

Referenced by isValid().

Pointer to the first triangle.

These are triplets of 0 based indices: vert0 vert1 vert2 vert0 vert1 vert2 vert0 vert1 vert2 ...

where vert* is either a 32 or 16 bit unsigned integer. There are a total of 3*count indices. The stride determines the byte offset to the next index triple.

This is declared as a void pointer because it is actually either an PxU16 or a PxU32 pointer.

Referenced by isValid().


The documentation for this class was generated from the following file:


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