Groups together sets of independent PxSolverConstraintDesc objects to be solved using SIMD SOA approach.

Parameters:

[in]	solverConstraintDescs	the set of solver constraint descs to batch
[in]	nbConstraints	The number of constraints to batch
[in,out]	solverBodies	The array of solver bodies that the constraints reference. Some fields in these structures are written to as scratch memory for the batching.
[in]	nbBodies	The number of bodies
[out]	outBatchHeaders	The batch headers produced by this batching process. This array must have at least 1 entry per input constraint
[out]	outOrderedConstraintDescs	A reordered copy of the constraint descs. This array is referenced by the constraint batches. This array must have at least 1 entry per input constraint.

Returns:

The total number of batches produced. This should be less than or equal to nbConstraints.

Note:

This method considers all bodies within the range [0, nbBodies-1] to be valid dynamic bodies. A given dynamic body can only be referenced in a batch once. Static or kinematic bodies can be referenced multiple times within a batch safely because constraints do not affect their velocities. The batching will implicitly consider any bodies outside of the range [0, nbBodies-1] to be infinite mass (static or kinematic). This means that either appending static/kinematic to the end of the array of bodies or placing static/kinematic bodies at before the start body pointer will ensure that the minimum number of batches are produced.

Constructs a PxSolverBodyData structure based on rigid body properties. Applies gravity, damping and clamps maximum velocity.

Parameters:

[in]	inRigidData	The array rigid body properties
[out]	outSolverBodyData	The array of solverBodyData produced to repreent these bodies
[in]	nbBodies	The total number of solver bodies to create
[in]	gravity	The gravity vector
[in]	dt	The timestep

Constructs a PxSolverBodyData structure for a static body at a given pose.

Parameters:

[in]	globalPose	The pose of this static actor
[out]	solverBodyData	The solver body representation of this static actor

Creates a set of contact constraint blocks. Note that, depending the results of PxBatchConstraints, each batchHeader may refer to up to 4 solverConstraintDescs. This function will allocate both constraint and friction patch data via the PxConstraintAllocator provided. Constraint data is only valid until PxSolveConstraints has completed. Friction data is to be retained and provided by the application for friction correlation.

Parameters:

[in]	batchHeader	Array of batch headers to process
[in]	nbHeaders	The total number of headers
[in]	contactDescs	An array of contact descs defining the pair and contact properties of each respective contacting pair
[in]	allocator	An allocator callback to allocate constraint and friction memory
[in]	invDt	The inverse timestep
[in]	bounceThreshold	The bounce threshold. Relative velocities below this will be solved by bias only. Relative velocities above this will be solved by restitution. If restitution is zero then these pairs will always be solved by bias.
[in]	frictionOffsetThreshold	The friction offset threshold. Contacts whose separations are below this threshold can generate friction constraints.
[in]	correlationDistance	The correlation distance used by friction correlation to identify whether a friction patch is broken on the grounds of relation separation.

Returns:

a boolean to define if this method was successful or not.

Creates a set of joint constraint blocks. Note that, depending the results of PxBatchConstraints, the batchHeader may refer to up to 4 solverConstraintDescs.

Parameters:

[in]	batchHeader	The array of batch headers to be processed
[in]	nbHeaders	The total number of batch headers to process
[in]	jointDescs	An array of constraint prep descs defining the properties of the constraints being created
[in]	allocator	An allocator callback to allocate constraint data
[in]	dt	The timestep
[in]	invDt	The inverse timestep

Returns:

a boolean indicating if this method was successful or not.

Creates a set of joint constraint blocks. This function runs joint shaders defined inside PxConstraint** param, fills in joint row information in jointDescs and then calls PxCreateJointConstraints.

Parameters:

[in]	batchHeader	The set of batchHeaders to be processed
[in]	nbBatchHeaders	The number of batch headers to process.
[in]	constraints	The set of constraints to be used to produce constraint rows
[in,out]	jointDescs	An array of constraint prep descs defining the properties of the constraints being created
[in]	allocator	An allocator callback to allocate constraint data
[in]	dt	The timestep
[in]	invDt	The inverse timestep

Returns:

a boolean indicating if this method was successful or not.

abrief Performs contact generation for a given pair of geometries at the specified poses. Produced contacts are stored in the provided Gu::ContactBuffer. Information is cached in PxCache structure to accelerate future contact generation between pairs. This cache data is valid only as long as the memory provided by PxCacheAllocator has not been released/re-used. Recommendation is to retain that data for a single simulation frame, discarding cached data after 2 frames. If the cached memory has been released/re-used prior to the corresponding pair having contact generation performed again, it is the application's responsibility to reset the PxCache.

Parameters:

[in]	geom0	Array of geometries to perform collision detection on.
[in]	geom1	Array of geometries to perform collision detection on
[in]	pose0	Array of poses associated with the corresponding entry in the geom0 array
[in]	pose1	Array of poses associated with the corresponding entry in the geom1 array
[in,out]	contactCache	Array of contact caches associated with each pair geom0[i] + geom1[i]
[in]	nbPairs	The total number of pairs to process
[in]	contactRecorder	A callback that is called to record contacts for each pair that detects contacts
[in]	contactDistance	The distance at which contacts begin to be generated between the pairs
[in]	meshContactMargin	The mesh contact margin.
[in]	toleranceLength	The toleranceLength. Used for scaling distance-based thresholds internally to produce appropriate results given simulations in different units
[in]	allocator	A callback to allocate memory for the contact cache

Returns:

a boolean indicating if the function was successful or not.

Integrates a rigid body, returning the new velocities and transforms. After this function has been called, solverBodyData stores all the body's velocity data.

Parameters:

[in,out]	solverBodyData	The array of solver body data to be integrated
[in]	solverBody	The bodies' linear and angular velocities
[in]	linearMotionVelocity	The bodies' linear motion velocity array
[in]	angularMotionState	The bodies' angular motion velocity array
[in]	nbBodiesToIntegrate	The total number of bodies to integrate
[in]	dt	The timestep

Iteratively solves the set of constraints defined by the provided PxConstraintBatchHeader and PxSolverConstraintDesc structures. Updates deltaVelocities inside the PxSolverBody structures. Produces resulting linear and angular motion velocities.

Parameters:

[in]	batchHeaders	The set of batch headers to be solved
[in]	nbBatchHeaders	The total number of batch headers to be solved
[in]	solverConstraintDescs	The reordererd set of solver constraint descs referenced by the batch headers
[in,out]	solverBodies	The set of solver bodies the bodies reference
[out]	linearMotionVelocity	The resulting linear motion velocity
[out]	angularMotionVelocity	The resulting angular motion velocity.
[in]	nbSolverBodies	The total number of solver bodies
[in]	nbPositionIterations	The number of position iterations to run
[in]	nbVelocityIterations	The number of velocity iterations to run