int32 GenerateSphylAsSimpleCollision(UStaticMesh* StaticMesh)
{
	if (!PromptToRemoveExistingCollision(StaticMesh))
	{
		return INDEX_NONE;
	}

	UBodySetup* bs = StaticMesh->BodySetup;

	// Calculate bounding box.
	FRawMesh RawMesh;
	FStaticMeshSourceModel& SrcModel = StaticMesh->SourceModels[0];
	SrcModel.RawMeshBulkData->LoadRawMesh(RawMesh);

	FSphere sphere;
	float length;
	FRotator rotation;
	FVector unitVec = bs->BuildScale3D;
	CalcBoundingSphyl(RawMesh, sphere, length, rotation, unitVec);

	// Dont use if radius is zero.
	if (sphere.W <= 0.f)
	{
		FMessageDialog::Open(EAppMsgType::Ok, NSLOCTEXT("UnrealEd", "Prompt_10", "Could not create geometry."));
		return INDEX_NONE;
	}

	// If height is zero, then a sphere would be better (should we just create one instead?)
	if (length <= 0.f)
	{
		length = SMALL_NUMBER;
	}

	bs->Modify();

	// Create new GUID
	bs->InvalidatePhysicsData();

	FKSphylElem SphylElem;
	SphylElem.Center = sphere.Center;
	SphylElem.Orientation = rotation.Quaternion();
	SphylElem.Radius = sphere.W;
	SphylElem.Length = length;
	bs->AggGeom.SphylElems.Add(SphylElem);

	// refresh collision change back to staticmesh components
	RefreshCollisionChange(StaticMesh);

	// Mark staticmesh as dirty, to help make sure it gets saved.
	StaticMesh->MarkPackageDirty();

	StaticMesh->bCustomizedCollision = true;	//mark the static mesh for collision customization

	return bs->AggGeom.SphylElems.Num() - 1;
}
int32 GenerateSphereAsSimpleCollision(UStaticMesh* StaticMesh)
{
	if (!PromptToRemoveExistingCollision(StaticMesh))
	{
		return INDEX_NONE;
	}

	UBodySetup* bs = StaticMesh->BodySetup;

	// Calculate bounding sphere.
	FRawMesh RawMesh;
	FStaticMeshSourceModel& SrcModel = StaticMesh->SourceModels[0];
	SrcModel.RawMeshBulkData->LoadRawMesh(RawMesh);

	FSphere bSphere, bSphere2, bestSphere;
	FVector unitVec = bs->BuildScale3D;
	CalcBoundingSphere(RawMesh, bSphere, unitVec);
	CalcBoundingSphere2(RawMesh, bSphere2, unitVec);

	if(bSphere.W < bSphere2.W)
		bestSphere = bSphere;
	else
		bestSphere = bSphere2;

	// Dont use if radius is zero.
	if(bestSphere.W <= 0.f)
	{
		FMessageDialog::Open( EAppMsgType::Ok, NSLOCTEXT("UnrealEd", "Prompt_10", "Could not create geometry.") );
		return INDEX_NONE;
	}

	bs->Modify();

	// Create new GUID
	bs->InvalidatePhysicsData();

	FKSphereElem SphereElem;
	SphereElem.Center = bestSphere.Center;
	SphereElem.Radius = bestSphere.W;
	bs->AggGeom.SphereElems.Add(SphereElem);

	// refresh collision change back to staticmesh components
	RefreshCollisionChange(StaticMesh);

	// Mark staticmesh as dirty, to help make sure it gets saved.
	StaticMesh->MarkPackageDirty();

	StaticMesh->bCustomizedCollision = true;	//mark the static mesh for collision customization
	return bs->AggGeom.SphereElems.Num() - 1;
}
int32 GenerateBoxAsSimpleCollision(UStaticMesh* StaticMesh)
{
	if (!PromptToRemoveExistingCollision(StaticMesh))
	{
		return INDEX_NONE;
	}

	UBodySetup* bs = StaticMesh->BodySetup;

	// Calculate bounding Box.
	FRawMesh RawMesh;
	FStaticMeshSourceModel& SrcModel = StaticMesh->SourceModels[0];
	SrcModel.RawMeshBulkData->LoadRawMesh(RawMesh);

	FVector unitVec = bs->BuildScale3D;
	FVector Center, Extents;
	CalcBoundingBox(RawMesh, Center, Extents, unitVec);

	bs->Modify();

	// Create new GUID
	bs->InvalidatePhysicsData();

	FKBoxElem BoxElem;
	BoxElem.Center = Center;
	BoxElem.X = Extents.X * 2.0f;
	BoxElem.Y = Extents.Y * 2.0f;
	BoxElem.Z = Extents.Z * 2.0f;
	bs->AggGeom.BoxElems.Add(BoxElem);

	// refresh collision change back to staticmesh components
	RefreshCollisionChange(StaticMesh);

	// Mark staticmesh as dirty, to help make sure it gets saved.
	StaticMesh->MarkPackageDirty();

	StaticMesh->bCustomizedCollision = true;	//mark the static mesh for collision customization

	return bs->AggGeom.BoxElems.Num() - 1;
}