NewtonMaterialSetCompoundCollisionCallback
Revision as of 08:02, 10 June 2019 by Unknown user (talk)
Contents
NewtonMaterialSetCompoundCollisionCallback
void NewtonMaterialSetCompoundCollisionCallback(const NewtonWorld* const newtonWorld, int id0, int id1, NewtonOnCompoundSubCollisionAABBOverlap compoundAabbOverlap)
Usage
Set userData and the functions event handlers for the material interaction between two physics materials .
Parameters
- const NewtonWorld* const newtonWorld
- int id0
- int id1
- NewtonOnCompoundSubCollisionAABBOverlap compoundAabbOverlap
Return
- (Procedure)
Description
- When the AABB extend of the collision geometry of two bodies overlap, Newton collision system retrieves the material
- interaction that defines the behavior between the pair of bodies. The material interaction is collected from a database of materials,
- indexed by the material gruopID assigned to the bodies. If the material is tagged as non collidable,
- then no action is taken and the simulation continues.
- If the material is tagged as collidable, and a *aabbOverlap* was set for this material, then the *aabbOverlap* function is called.
- If the function *aabbOverlap* returns 0, no further action is taken for this material (this can be use to ignore the interaction under
- certain conditions). If the function *aabbOverlap* returns 1, Newton proceeds to calculate the array of contacts for the pair of
- colliding bodies. If the function *processCallback* was set, the application receives a callback for every contact found between the
- two colliding bodies. Here the application can perform fine grain control over the behavior of the collision system. For example,
- rejecting the contact, making the contact frictionless, applying special effects to the surface etc.
- After all contacts are processed and if the function *endCallback* was set, Newton calls *endCallback*.
- Here the application can collect information gathered during the contact-processing phase and provide some feedback to the player.
- A typical use for the material callback is to play sound effects. The application passes the address of structure in the *userData* along with
- three event function callbacks. When the function *aabbOverlap* is called by Newton, the application resets a variable say *maximumImpactSpeed*.
- Then for every call to the function *processCallback*, the application compares the impact speed for this contact with the value of
- *maximumImpactSpeed*, if the value is larger, then the application stores the new value along with the position, and any other quantity desired.
- When the application receives the call to *endCallback* the application plays a 3d sound based in the position and strength of the contact.