public void ProcessTriangle(ObjectArray<Vector3> triangle, int partId, int triangleIndex)
{
//do a swept sphere for now
Matrix ident = Matrix.Identity;
CastResult castResult = new CastResult();
castResult.m_fraction = m_hitFraction;
SphereShape pointShape = new SphereShape(m_ccdSphereRadius);
TriangleShape triShape = new TriangleShape(triangle[0],triangle[1],triangle[2]);
VoronoiSimplexSolver simplexSolver = new VoronoiSimplexSolver();
SubSimplexConvexCast convexCaster = new SubSimplexConvexCast(pointShape,triShape,simplexSolver);
//GjkConvexCast convexCaster(&pointShape,convexShape,&simplexSolver);
//ContinuousConvexCollision convexCaster(&pointShape,convexShape,&simplexSolver,0);
//local space?
if (convexCaster.CalcTimeOfImpact(ref m_ccdSphereFromTrans,ref m_ccdSphereToTrans,
ref ident,ref ident,castResult))
{
if (m_hitFraction > castResult.m_fraction)
{
m_hitFraction = castResult.m_fraction;
}
}
}
public virtual void RayTestSingle(ref Matrix rayFromTrans,ref Matrix rayToTrans,
CollisionObject collisionObject,
CollisionShape collisionShape,
ref Matrix colObjWorldTransform,
RayResultCallback resultCallback)
{
SphereShape pointShape = new SphereShape(0.0f);
pointShape.Margin = 0f;
ConvexShape castShape = pointShape;
if (collisionShape.IsConvex())
{
// BT_PROFILE("rayTestConvex");
CastResult castResult = new CastResult();
castResult.m_fraction = resultCallback.m_closestHitFraction;
ConvexShape convexShape = (ConvexShape)collisionShape;
VoronoiSimplexSolver simplexSolver = new VoronoiSimplexSolver();
//#define USE_SUBSIMPLEX_CONVEX_CAST 1
//#ifdef USE_SUBSIMPLEX_CONVEX_CAST
// FIXME - MAN - convexcat here seems to make big difference to forklift.
SubSimplexConvexCast convexCaster = new SubSimplexConvexCast(castShape, convexShape, simplexSolver);
//GjkConvexCast convexCaster = new GjkConvexCast(castShape, convexShape, simplexSolver);
//#else
//btGjkConvexCast convexCaster(castShape,convexShape,&simplexSolver);
//btContinuousConvexCollision convexCaster(castShape,convexShape,&simplexSolver,0);
//#endif //#USE_SUBSIMPLEX_CONVEX_CAST
if (convexCaster.CalcTimeOfImpact(ref rayFromTrans,ref rayToTrans,ref colObjWorldTransform,ref colObjWorldTransform,castResult))
{
//add hit
if (castResult.m_normal.LengthSquared() > 0.0001f)
{
if (castResult.m_fraction < resultCallback.m_closestHitFraction)
{
//if (resultCallback.m_closestHitFraction != 1f)
//{
// int ibreak = 0;
// convexCaster.calcTimeOfImpact(ref rayFromTrans, ref rayToTrans, ref colObjWorldTransform, ref colObjWorldTransform, castResult);
//}
//#ifdef USE_SUBSIMPLEX_CONVEX_CAST
//rotate normal into worldspace
castResult.m_normal = Vector3.TransformNormal(castResult.m_normal,rayFromTrans);
//#endif //USE_SUBSIMPLEX_CONVEX_CAST
castResult.m_normal.Normalize();
LocalRayResult localRayResult = new LocalRayResult(
collisionObject,
null,
ref castResult.m_normal,
castResult.m_fraction
);
bool normalInWorldSpace = true;
resultCallback.AddSingleResult(localRayResult, normalInWorldSpace);
}
}
}
castResult.Cleanup();
}
else
{
if (collisionShape.IsConcave())
{
// BT_PROFILE("rayTestConcave");
if (collisionShape.ShapeType==BroadphaseNativeTypes.TRIANGLE_MESH_SHAPE_PROXYTYPE && collisionShape is BvhTriangleMeshShape)
{
///optimized version for btBvhTriangleMeshShape
BvhTriangleMeshShape triangleMesh = (BvhTriangleMeshShape)collisionShape;
Matrix worldTocollisionObject = Matrix.Invert(colObjWorldTransform);
Vector3 rayFromLocal = Vector3.Transform(rayFromTrans.Translation,worldTocollisionObject);
Vector3 rayToLocal = Vector3.Transform(rayToTrans.Translation,worldTocollisionObject);
Matrix transform = Matrix.Identity;
BridgeTriangleRaycastCallback rcb = new BridgeTriangleRaycastCallback(ref rayFromLocal,ref rayToLocal, resultCallback,collisionObject,triangleMesh,ref transform);
rcb.m_hitFraction = resultCallback.m_closestHitFraction;
triangleMesh.PerformRaycast(rcb,ref rayFromLocal,ref rayToLocal);
rcb.Cleanup();
}
else
{
//generic (slower) case
ConcaveShape concaveShape = (ConcaveShape)collisionShape;
Matrix worldTocollisionObject = Matrix.Invert(colObjWorldTransform);
Vector3 rayFromLocal = Vector3.Transform(rayFromTrans.Translation,worldTocollisionObject);
Vector3 rayToLocal = Vector3.Transform(rayToTrans.Translation,worldTocollisionObject);
//ConvexCast::CastResult
Matrix transform = Matrix.Identity;
BridgeTriangleConcaveRaycastCallback rcb = new BridgeTriangleConcaveRaycastCallback(ref rayFromLocal, ref rayToLocal, resultCallback, collisionObject, concaveShape,ref transform);
rcb.m_hitFraction = resultCallback.m_closestHitFraction;
Vector3 rayAabbMinLocal = rayFromLocal;
MathUtil.VectorMin(ref rayToLocal,ref rayAabbMinLocal);
Vector3 rayAabbMaxLocal = rayFromLocal;
MathUtil.VectorMax(ref rayToLocal,ref rayAabbMaxLocal);
concaveShape.ProcessAllTriangles(rcb,ref rayAabbMinLocal,ref rayAabbMaxLocal);
rcb.Cleanup();
}
}
else
{
// BT_PROFILE("rayTestCompound");
///@todo: use AABB tree or other BVH acceleration structure, see btDbvt
if (collisionShape.IsCompound())
{
CompoundShape compoundShape = (CompoundShape)(collisionShape);
int i=0;
for (i=0;i<compoundShape.GetNumChildShapes();i++)
{
Matrix childTrans = compoundShape.GetChildTransform(i);
CollisionShape childCollisionShape = compoundShape.GetChildShape(i);
Matrix childWorldTrans = MathUtil.BulletMatrixMultiply(colObjWorldTransform,childTrans) ;
// replace collision shape so that callback can determine the triangle
CollisionShape saveCollisionShape = collisionObject.GetCollisionShape();
collisionObject.InternalSetTemporaryCollisionShape((CollisionShape)childCollisionShape);
LocalInfoAdder2 my_cb = new LocalInfoAdder2(i, resultCallback);
my_cb.m_closestHitFraction = resultCallback.m_closestHitFraction;
RayTestSingle(ref rayFromTrans,ref rayToTrans,
collisionObject,
childCollisionShape,
ref childWorldTrans,
my_cb);
// restore
collisionObject.InternalSetTemporaryCollisionShape(saveCollisionShape);
my_cb.cleanup();
}
}
}
}
}
