PfxInt32 pfxContactLargeTriMesh(
PfxContactCache &contacts,
const PfxLargeTriMesh *lmeshA,
const PfxTransform3 &transformA,
const PfxShape &shapeB,
const PfxTransform3 &transformB,
PfxFloat distanceThreshold)
{
PfxTransform3 transformAB;
PfxMatrix3 matrixAB;
PfxVector3 offsetAB;
// Bローカル→Aローカルへの変換
transformAB = orthoInverse(transformA) * transformB;
matrixAB = transformAB.getUpper3x3();
offsetAB = transformAB.getTranslation();
// -----------------------------------------------------
// LargeTriMeshに含まれるTriMeshのAABBと凸体のAABBを判定し、
// 交差するものを個別に衝突判定する。※LargeMesh座標系
PfxVector3 shapeHalf(0.0f);
PfxVector3 shapeCenter = offsetAB;
switch(shapeB.getType()) {
case kPfxShapeSphere:
shapeHalf = PfxVector3(shapeB.getSphere().m_radius);
break;
case kPfxShapeCapsule:
{
PfxCapsule capsule = shapeB.getCapsule();
shapeHalf = absPerElem(matrixAB) * PfxVector3(capsule.m_halfLen+capsule.m_radius,capsule.m_radius,capsule.m_radius);
}
break;
case kPfxShapeCylinder:
{
PfxCylinder cylinder = shapeB.getCylinder();
shapeHalf = absPerElem(matrixAB) * PfxVector3(cylinder.m_halfLen,cylinder.m_radius,cylinder.m_radius);
}
break;
case kPfxShapeBox:
shapeHalf = absPerElem(matrixAB) * shapeB.getBox().m_half;
break;
case kPfxShapeConvexMesh:
shapeHalf = absPerElem(matrixAB) * shapeB.getConvexMesh()->m_half;
break;
default:
break;
}
// -----------------------------------------------------
// アイランドとの衝突判定
PfxVecInt3 aabbMinL,aabbMaxL;
lmeshA->getLocalPosition((shapeCenter-shapeHalf),(shapeCenter+shapeHalf),aabbMinL,aabbMaxL);
PfxUInt32 numIslands = lmeshA->m_numIslands;
{
for(PfxUInt32 i=0;i<numIslands;i++) {
// AABBチェック
PfxAabb16 aabbB = lmeshA->m_aabbList[i];
if(aabbMaxL.getX() < pfxGetXMin(aabbB) || aabbMinL.getX() > pfxGetXMax(aabbB)) continue;
if(aabbMaxL.getY() < pfxGetYMin(aabbB) || aabbMinL.getY() > pfxGetYMax(aabbB)) continue;
if(aabbMaxL.getZ() < pfxGetZMin(aabbB) || aabbMinL.getZ() > pfxGetZMax(aabbB)) continue;
PfxTriMesh *island = &lmeshA->m_islands[i];
// 衝突判定
PfxContactCache localContacts;
switch(shapeB.getType()) {
case kPfxShapeSphere:
pfxContactTriMeshSphere(localContacts,island,transformA,shapeB.getSphere(),transformB,distanceThreshold);
break;
case kPfxShapeCapsule:
pfxContactTriMeshCapsule(localContacts,island,transformA,shapeB.getCapsule(),transformB,distanceThreshold);
break;
case kPfxShapeBox:
pfxContactTriMeshBox(localContacts,island,transformA,shapeB.getBox(),transformB,distanceThreshold);
break;
case kPfxShapeCylinder:
pfxContactTriMeshCylinder(localContacts,island,transformA,shapeB.getCylinder(),transformB,distanceThreshold);
break;
case kPfxShapeConvexMesh:
pfxContactTriMeshConvex(localContacts,island,transformA,*shapeB.getConvexMesh(),transformB,distanceThreshold);
break;
default:
break;
}
// 衝突点を追加
for(int j=0;j<localContacts.getNumContacts();j++) {
PfxSubData subData = localContacts.getSubData(j);
subData.setIslandId(i);
contacts.addContactPoint(
localContacts.getDistance(j),
localContacts.getNormal(j),
localContacts.getLocalPointA(j),
localContacts.getLocalPointB(j),
subData);
}
}
}
return contacts.getNumContacts();
}
void pfxGetShapeAabbSphere(const PfxShape &shape,PfxVector3 &aabbMin,PfxVector3 &aabbMax)
{
aabbMin = shape.getOffsetPosition() - PfxVector3(shape.getSphere().m_radius);
aabbMax = shape.getOffsetPosition() + PfxVector3(shape.getSphere().m_radius);
}
PfxBool intersectRayFuncSphere(
const PfxRayInput &ray,PfxRayOutput &out,
const PfxShape &shape,const PfxTransform3 &transform)
{
return pfxIntersectRaySphere(ray,out,shape.getSphere(),transform);
}