Esempio n. 1
0
        /// <summary>
        /// Reads Gfx Vertices
        /// </summary>
        public static Vertex[] ReadGfxVertices(ProcessReader reader, long address, int count)
        {
            // Preallocate vertex array
            Vertex[] vertices = new Vertex[count];
            // Read buffer
            var byteBuffer = reader.ReadBytes(address, count * 44);

            // Loop number of vertices we have
            for (int i = 0; i < count; i++)
            {
                // Read Struct
                var gfxVertex = ByteUtil.BytesToStruct <GfxVertex>(byteBuffer, i * 44);

                // Create new SEModel Vertex
                vertices[i] = new Vertex()
                {
                    // Set offset
                    Position = new Vector3(
                        gfxVertex.X * 2.54,
                        gfxVertex.Y * 2.54,
                        gfxVertex.Z * 2.54),
                    // Decode and set normal (from DTZxPorter - Wraith, same as XModels)
                    Normal = VertexNormalUnpacking.MethodB(gfxVertex.Normal),
                    // Set UV
                    UV = new Vector2(gfxVertex.U, 1 - gfxVertex.V)
                };
            }

            // Done
            return(vertices);
        }
Esempio n. 2
0
        /// <summary>
        /// Reads Gfx Vertices
        /// </summary>
        public static Vertex[] ReadGfxVertices(ProcessReader reader, long positionsAddress, long uvsAddress, long normalsAddress, int count)
        {
            // Preallocate vertex array
            Vertex[] vertices = new Vertex[count];
            // Read buffer
            var positionsBuffer = reader.ReadBytes(positionsAddress, count * 12);
            var uvsBuffer       = reader.ReadBytes(uvsAddress, count * 8);
            var normalsBuffer   = reader.ReadBytes(normalsAddress, count * 4);

            // Loop number of vertices we have
            for (int i = 0; i < count; i++)
            {
                // Read Struct
                var gfxVertexPosition = ByteUtil.BytesToStruct <GfxVertexPosition>(positionsBuffer, i * 12);
                var gfxVertexUV       = ByteUtil.BytesToStruct <GfxVertexUV>(uvsBuffer, i * 8);
                var gfxVertexNormal   = ByteUtil.BytesToStruct <PackedUnitVector>(normalsBuffer, i * 4);

                // Create new SEModel Vertex
                vertices[i] = new Vertex()
                {
                    // Set offset
                    Position = new Vector3(
                        gfxVertexPosition.X * 2.54,
                        gfxVertexPosition.Y * 2.54,
                        gfxVertexPosition.Z * 2.54),
                    // Decode and set normal (from DTZxPorter - Wraith, same as XModels)
                    Normal = VertexNormalUnpacking.MethodB(gfxVertexNormal),
                    // Set UV
                    UV = new Vector2(gfxVertexUV.U, 1 - gfxVertexUV.V)
                };
            }

            // Done
            return(vertices);
        }