Esempio n. 1
0
        protected void EnableBVHCulling(float deltaTime, Camera camera, GeometryDescriptor <VertexPositionNormalTextureTangentBitangent> PNTTBGeometryDescriptor, GeometryDescriptor <VertexPositionNormal> PNGeometryDescriptor, GeometryDescriptor <VertexPositionTexture> PTGeometryDescriptor, GeometryDescriptor <VertexPositionColor> PCGeometryDescriptor, GeometryDescriptor <VertexPosition> PGeometryDescriptor)
        {
            var PNTTBMeshBVHArray = PNTTBGeometryDescriptor.MeshBVHArray;
            var PNMeshBVHArray    = PNGeometryDescriptor.MeshBVHArray;
            var PTMeshBVHArray    = PTGeometryDescriptor.MeshBVHArray;
            var PCMeshBVHArray    = PCGeometryDescriptor.MeshBVHArray;
            var PMeshBVHArray     = PGeometryDescriptor.MeshBVHArray;

            if (PNTTBMeshBVHArray.Length > CULLING_THRESH)
            {
                invalidateAABB(PNTTBMeshBVHArray);
                BVHRuntime.TraverseWithFrustumForMesh(_bvhRuntimeNodesPNTTB, PNTTBMeshBVHArray, _bvhTraversalStack, ref camera.ViewProjectionMatirx);
            }
            if (PNMeshBVHArray.Length > CULLING_THRESH)
            {
                invalidateAABB(PNMeshBVHArray);
                BVHRuntime.TraverseWithFrustumForMesh(_bvhRuntimeNodesPN, PNMeshBVHArray, _bvhTraversalStack, ref camera.ViewProjectionMatirx);
            }
            if (PTMeshBVHArray.Length > CULLING_THRESH)
            {
                invalidateAABB(PTMeshBVHArray);
                BVHRuntime.TraverseWithFrustumForMesh(_bvhRuntimeNodesPT, PTMeshBVHArray, _bvhTraversalStack, ref camera.ViewProjectionMatirx);
            }
            if (PCMeshBVHArray.Length > CULLING_THRESH)
            {
                invalidateAABB(PCMeshBVHArray);
                BVHRuntime.TraverseWithFrustumForMesh(_bvhRuntimeNodesPC, PCMeshBVHArray, _bvhTraversalStack, ref camera.ViewProjectionMatirx);
            }
        }
Esempio n. 2
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        public static GameObject Create(GeometryDescriptor descriptor)
        {
            var go = GameObject.CreatePrimitive(descriptor.type);

            go.name = descriptor.type.ToString();

            if (!descriptor.hasCollider)
            {
                var collider = go.GetComponent <Collider>();
                GameObject.Destroy(collider);
            }

            var mat = go.FindOrAddTypeInComponentsAndChildren <AutoMaterial>();

            mat.Init(descriptor.shader);

            var autoSpace = go.FindOrAddTypeInComponentsAndChildren <TextureAutoSpace>();

            autoSpace.Init(descriptor.space, descriptor.autoSpace, descriptor.target);
            autoSpace.Update();

            if (descriptor.enableTouch)
            {
                go.FindOrAddTypeInComponentsAndChildren <TouchMesh>();
            }

            return(go);
        }
Esempio n. 3
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        protected void BuildBVH(GeometryDescriptor <VertexPositionNormalTextureTangentBitangent> PNTTBGeometryDescriptor, GeometryDescriptor <VertexPositionNormal> PNGeometryDescriptor, GeometryDescriptor <VertexPositionTexture> PTGeometryDescriptor, GeometryDescriptor <VertexPositionColor> PCGeometryDescriptor, GeometryDescriptor <VertexPosition> PGeometryDescriptor)
        {
            var splitMethod       = SplitMethods.SAH;
            var PNTTBMeshBVHArray = PNTTBGeometryDescriptor.MeshBVHArray;
            var PNMeshBVHArray    = PNGeometryDescriptor.MeshBVHArray;
            var PTMeshBVHArray    = PTGeometryDescriptor.MeshBVHArray;
            var PCMeshBVHArray    = PCGeometryDescriptor.MeshBVHArray;
            var PMeshBVHArray     = PGeometryDescriptor.MeshBVHArray;

            var tuplePNTTB = BVHTreeBuilder <MeshBVH <VertexPositionNormalTextureTangentBitangent> > .Build(PNTTBMeshBVHArray, splitMethod);

            BVHTree PNTTBTree = tuplePNTTB.Item1;

            PNTTBMeshBVHArray = tuplePNTTB.Item2;
            int PNTTBTotalNodes = tuplePNTTB.Item3;

            var tuplePN = BVHTreeBuilder <MeshBVH <VertexPositionNormal> > .Build(PNMeshBVHArray, splitMethod);

            BVHTree PNTree = tuplePN.Item1;

            PNMeshBVHArray = tuplePN.Item2;
            int PNTotalNodes = tuplePN.Item3;

            var tuplePT = BVHTreeBuilder <MeshBVH <VertexPositionTexture> > .Build(PTMeshBVHArray, splitMethod);

            BVHTree PTTree = tuplePT.Item1;

            PTMeshBVHArray = tuplePT.Item2;
            int PTTotalNodes = tuplePT.Item3;

            var tuplePC = BVHTreeBuilder <MeshBVH <VertexPositionColor> > .Build(PCMeshBVHArray, splitMethod);

            BVHTree PCTree = tuplePC.Item1;

            PCMeshBVHArray = tuplePC.Item2;
            int PCTotalNodes = tuplePC.Item3;

            _bvhRuntimeNodesPNTTB = BVHRuntime.ConstructBVHRuntime(PNTTBTree, PNTTBTotalNodes);
            _bvhRuntimeNodesPN    = BVHRuntime.ConstructBVHRuntime(PNTree, PNTotalNodes);
            _bvhRuntimeNodesPT    = BVHRuntime.ConstructBVHRuntime(PTTree, PTTotalNodes);
            _bvhRuntimeNodesPC    = BVHRuntime.ConstructBVHRuntime(PCTree, PCTotalNodes);

            var maxPrimitives = Math.Max(PNTTBMeshBVHArray.Length, Math.Max(PNMeshBVHArray.Length, Math.Max(PTMeshBVHArray.Length, PCMeshBVHArray.Length)));

            _bvhTraversalStack = new int[maxPrimitives];
        }