public static IntPtr CreateHandArray(Frame frame)
        {
            _ids.Clear();

            var    hands     = frame.Hands;
            IntPtr handArray = StructAllocator.AllocateArray <LEAP_HAND>(hands.Count);

            for (int i = 0; i < hands.Count; i++)
            {
                if (_ids.Contains(hands[i].Id))
                {
                    Debug.LogWarning("Found multiple hands with the same id");
                    continue;
                }

                LEAP_HAND hand = CreateHand(hands[i]);
                StructMarshal <LEAP_HAND> .CopyIntoArray(handArray, ref hand, i);

                _ids.Add(hands[i].Id);
            }

            return(handArray);
        }
Exemplo n.º 2
0
        public INTERACTION_SHAPE_DESCRIPTION_HANDLE GetCollision(GameObject parentObject)
        {
            parentObject.GetComponentsInChildren <Collider>(_tempColliderList);

            // Remove Colliders that are children of other IInteractionBehaviour.
            Transform parentTransform = parentObject.transform;

            for (int i = _tempColliderList.Count; i-- > 0;)
            {
                Transform it = _tempColliderList[i].transform;
                while (it != parentTransform)
                {
                    if (it.GetComponent <IInteractionBehaviour>() != null)
                    {
                        _tempColliderList.RemoveAt(i);
                        break;
                    }
                    it = it.parent;
                }
            }

            if (_tempColliderList.Count == 0)
            {
                throw new InvalidOperationException("The GameObject " + parentObject + " did not have any colliders.");
            }

            INTERACTION_SHAPE_DESCRIPTION_HANDLE handle = new INTERACTION_SHAPE_DESCRIPTION_HANDLE();

            // Try optimized encodings for a single collider.  Everything else is a compound.
            if (_tempColliderList.Count == 1)
            {
                if (getCollisionSingleInternal(parentObject, ref handle))
                {
                    return(handle);
                }
            }

            INTERACTION_COMPOUND_DESCRIPTION compoundDesc = new INTERACTION_COMPOUND_DESCRIPTION();

            compoundDesc.shape.type  = ShapeType.Compound;
            compoundDesc.nShapes     = (uint)_tempColliderList.Count;
            compoundDesc.pShapes     = StructAllocator.AllocateArray <IntPtr>(_tempColliderList.Count);
            compoundDesc.pTransforms = new INTERACTION_TRANSFORM[_tempColliderList.Count];

            // The parent's relative pose is a components of the parents transform that
            // child transforms are considered to be relative two.  In this case scale
            // and shear are not considered a property of the parents relative pose and
            // therefore these calcualtions will allow the child to inherit the parents
            // scale.

            Matrix4x4 parentRelativePose        = Matrix4x4.TRS(parentObject.transform.position, parentObject.transform.rotation, Vector3.one);
            Matrix4x4 inverseParentRelativePose = parentRelativePose.inverse;

            for (int i = 0; i < _tempColliderList.Count; i++)
            {
                Collider collider = _tempColliderList[i];

                // Transform to apply to collision shape.
                Matrix4x4 localToParentRelative = inverseParentRelativePose * collider.transform.localToWorldMatrix;

                // Values used to construct INTERACTION_TRANSFORM.
                Vector3    parentRelativePos = Vector3.zero;
                Quaternion parentRelativeRot = Quaternion.identity;

                IntPtr shapePtr;
                if (collider is MeshCollider)
                {
                    // Mesh always has an identity associated transform that can be baked into the verts.
                    MeshCollider meshCollider = collider as MeshCollider;
                    shapePtr = allocateConvex(meshCollider, localToParentRelative);
                }
                else
                {
                    //  Rotation and scale are lossy when shear is involved.
                    parentRelativeRot = Quaternion.Inverse(parentObject.transform.rotation) * collider.transform.rotation;

                    Vector3 scaleAlongLocalToParentAxes = new Vector3(localToParentRelative.GetColumn(0).magnitude,
                                                                      localToParentRelative.GetColumn(1).magnitude,
                                                                      localToParentRelative.GetColumn(2).magnitude);
                    if (collider is SphereCollider)
                    {
                        SphereCollider sphereCollider = collider as SphereCollider;
                        parentRelativePos = localToParentRelative.MultiplyPoint(sphereCollider.center);

                        float aproximateScale = Mathf.Max(scaleAlongLocalToParentAxes.x, Mathf.Max(scaleAlongLocalToParentAxes.y, scaleAlongLocalToParentAxes.z));
                        shapePtr = allocateSphere(sphereCollider.radius * aproximateScale);
                    }
                    else if (collider is BoxCollider)
                    {
                        BoxCollider boxCollider = collider as BoxCollider;
                        parentRelativePos = localToParentRelative.MultiplyPoint(boxCollider.center);

                        Vector3 extents = boxCollider.size * 0.5f;
                        extents.Scale(scaleAlongLocalToParentAxes);
                        shapePtr = allocateObb(extents);
                    }
                    else if (collider is CapsuleCollider)
                    {
                        CapsuleCollider capsuleCollider = collider as CapsuleCollider;
                        if ((uint)capsuleCollider.direction >= 3u)
                        {
                            throw new InvalidOperationException("Unexpected capsule direction " + capsuleCollider.direction);
                        }

                        parentRelativePos = localToParentRelative.MultiplyPoint(capsuleCollider.center);

                        Vector3 primaryAxis        = new Vector3((capsuleCollider.direction == 0) ? 1 : 0, (capsuleCollider.direction == 1) ? 1 : 0, (capsuleCollider.direction == 2) ? 1 : 0);
                        float   primaryAxisScale   = scaleAlongLocalToParentAxes[capsuleCollider.direction];
                        float   perpendicularScale = Mathf.Max(scaleAlongLocalToParentAxes[(capsuleCollider.direction + 1) % 3], scaleAlongLocalToParentAxes[(capsuleCollider.direction + 2) % 3]);

                        float scaledHeight   = capsuleCollider.height * primaryAxisScale;
                        float scaledRadius   = capsuleCollider.radius * perpendicularScale;
                        float interiorExtent = (scaledHeight * 0.5f) - scaledRadius;

                        Vector3 p0 = primaryAxis * interiorExtent;
                        shapePtr = allocateCapsule(p0, -p0, scaledRadius);
                    }
                    else
                    {
                        throw new InvalidOperationException("Unsupported collider type " + collider.GetType());
                    }
                }

                StructMarshal <IntPtr> .CopyIntoArray(compoundDesc.pShapes, ref shapePtr, i);

                INTERACTION_TRANSFORM ieTransform = new INTERACTION_TRANSFORM();
                ieTransform.position        = parentRelativePos.ToCVector();
                ieTransform.rotation        = parentRelativeRot.ToCQuaternion();
                compoundDesc.pTransforms[i] = ieTransform;
            }

            IntPtr compoundPtr = StructAllocator.AllocateStruct(ref compoundDesc);

            InteractionC.AddShapeDescription(ref _scene, compoundPtr, out handle);
            StructAllocator.CleanupAllocations();

            _tempColliderList.Clear();
            _allHandles[handle] = new ShapeInfo(isCached: false);

            return(handle);
        }