Exemplo n.º 1
0
        public GXDisplayList(byte[] Buffer, HSD_AttributeGroup Group)
        {
            if (Buffer == null)
            {
                return;
            }
            HSDReader Reader = new HSDReader(new MemoryStream(Buffer));

            while (Reader.Position() < Buffer.Length)
            {
                GXPrimitiveGroup g = new GXPrimitiveGroup();
                if (!g.Read(Reader, Group))
                {
                    break;
                }
                Primitives.Add(g);
            }
            Reader.Close();
        }
Exemplo n.º 2
0
        public static GXVertex[] GetDecodedVertices(GXPrimitiveGroup PrimitiveGroup, HSD_AttributeGroup Group)
        {
            // Create Vertex List
            List <GXVertex> Vertices = new List <GXVertex>();

            // Prepare vertex buffers for reading
            Dictionary <GXVertexBuffer, HSDReader> Buffers = new Dictionary <GXVertexBuffer, HSDReader>();

            foreach (GXVertexBuffer buffer in Group.Attributes)
            {
                Buffers.Add(buffer, buffer.DataBuffer == null ? null : new HSDReader(new MemoryStream(buffer.DataBuffer)));
            }

            // Decode
            foreach (GXIndexGroup ig in PrimitiveGroup.Indices)
            {
                GXVertex Vertex = new GXVertex();
                for (int i = 0; i < Group.Attributes.Count; i++)
                {
                    GXVertexBuffer Attr         = Group.Attributes[i];
                    HSDReader      VertexBuffer = Buffers[Attr];
                    int            index        = ig.Indices[i];
                    float[]        f            = new float[0];
                    if (VertexBuffer != null)
                    {
                        VertexBuffer.Seek((uint)(Attr.Stride * index));
                        f = Read(VertexBuffer, Attr.CompType, Attr.Stride);
                    }
                    switch (Attr.Name)
                    {
                    case GXAttribName.GX_VA_PNMTXIDX:
                        Vertex.PMXID = (ushort)index;
                        break;

                    case GXAttribName.GX_VA_TEX0MTXIDX:
                        Vertex.TEX0MTXIDX = (ushort)index;
                        break;

                    case GXAttribName.GX_VA_POS:
                        Vertex.Pos.X = f[0] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.Pos.Y = f[1] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.Pos.Z = f[2] / (float)Math.Pow(2, Attr.Scale);
                        break;

                    case GXAttribName.GX_VA_NRM:
                        Vertex.Nrm.X = f[0] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.Nrm.Y = f[1] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.Nrm.Z = f[2] / (float)Math.Pow(2, Attr.Scale);
                        break;

                    case GXAttribName.GX_VA_TEX0:
                        Vertex.TEX0.X = f[0] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.TEX0.Y = f[1] / (float)Math.Pow(2, Attr.Scale);
                        break;

                    case GXAttribName.GX_VA_TEX1:
                        Vertex.TEX1.X = f[0] / (float)Math.Pow(2, Attr.Scale);
                        Vertex.TEX1.Y = f[1] / (float)Math.Pow(2, Attr.Scale);
                        break;

                    case GXAttribName.GX_VA_CLR0:
                        if (Attr.AttributeType == GXAttribType.GX_DIRECT)
                        {
                            Vertex.Clr0.R = ig.Clr0[0] / 255f;
                            Vertex.Clr0.G = ig.Clr0[1] / 255f;
                            Vertex.Clr0.B = ig.Clr0[2] / 255f;
                            Vertex.Clr0.A = ig.Clr0[3] / 255f;
                        }
                        if (Attr.AttributeType == GXAttribType.GX_INDEX8)
                        {
                            Vertex.Clr0.R = f[0];
                            Vertex.Clr0.G = f[1];
                            Vertex.Clr0.B = f[2];
                            Vertex.Clr0.A = f[3];
                        }
                        break;

                    case GXAttribName.GX_VA_CLR1:
                        if (Attr.AttributeType == GXAttribType.GX_DIRECT)
                        {
                            Vertex.Clr1.R = ig.Clr1[0] / 255f;
                            Vertex.Clr1.G = ig.Clr1[1] / 255f;
                            Vertex.Clr1.B = ig.Clr1[2] / 255f;
                            Vertex.Clr1.A = ig.Clr1[3] / 255f;
                        }
                        if (Attr.AttributeType == GXAttribType.GX_INDEX8)
                        {
                            Vertex.Clr1.R = f[0];
                            Vertex.Clr1.G = f[1];
                            Vertex.Clr1.B = f[2];
                            Vertex.Clr1.A = f[3];
                        }
                        break;

                    default:
                        Console.WriteLine("To be implemented: " + Attr.Name);
                        break;
                    }
                }
                Vertices.Add(Vertex);
            }

            foreach (var b in Buffers)
            {
                if (b.Value != null)
                {
                    b.Value.Dispose();
                }
            }


            return(Vertices.ToArray());
        }
Exemplo n.º 3
0
        /// <summary>
        /// Creates a primitive group for the vertex buffer
        /// </summary>
        /// <param name="type"></param>
        /// <param name="Vertices"></param>
        /// <param name="Attributes"></param>
        /// <returns></returns>
        public GXPrimitiveGroup Compress(GXPrimitiveType type, GXVertex[] Vertices, HSD_AttributeGroup Attributes)
        {
            GXPrimitiveGroup g = new GXPrimitiveGroup();

            g.PrimitiveType = type;
            g.Indices       = new GXIndexGroup[Vertices.Length];
            int IndexGroupIndex = 0;

            foreach (GXVertex v in Vertices)
            {
                GXIndexGroup ig = new GXIndexGroup();
                ig.Indices = new ushort[Attributes.Attributes.Count];

                int i = 0;
                foreach (GXVertexBuffer b in Attributes.Attributes)
                {
                    switch (b.AttributeType)
                    {
                    case GXAttribType.GX_DIRECT:
                        if (b.Name == GXAttribName.GX_VA_CLR0)
                        {
                            ig.Clr0 = new byte[] { (byte)(v.Clr0.R * 0xFF), (byte)(v.Clr0.G * 0xFF), (byte)(v.Clr0.B * 0xFF), (byte)(v.Clr0.A * 0xFF) }
                        }
                        ;
                        else
                        if (b.Name == GXAttribName.GX_VA_CLR1)
                        {
                            ig.Clr1 = new byte[] { (byte)(v.Clr1.R * 0xFF), (byte)(v.Clr1.G * 0xFF), (byte)(v.Clr1.B * 0xFF), (byte)(v.Clr1.A * 0xFF) }
                        }
                        ;
                        else
                        if (b.Name == GXAttribName.GX_VA_PNMTXIDX)
                        {
                            ig.Indices[i] = v.PMXID;
                        }
                        if (b.Name == GXAttribName.GX_VA_TEX0MTXIDX)
                        {
                            ig.Indices[i] = v.TEX0MTXIDX;
                        }
                        break;

                    default:
                        switch (b.Name)
                        {
                        case GXAttribName.GX_VA_POS: ig.Indices[i] = GetIndex(b, v.Pos); break;

                        case GXAttribName.GX_VA_NRM: ig.Indices[i] = GetIndex(b, v.Nrm); break;

                        case GXAttribName.GX_VA_TEX0: ig.Indices[i] = GetIndex(b, v.TEX0); break;

                        case GXAttribName.GX_VA_TEX1: ig.Indices[i] = GetIndex(b, v.TEX1); break;

                        case GXAttribName.GX_VA_CLR0: ig.Indices[i] = GetIndex(b, v.Clr0); break;

                        default:
                            throw new Exception("Error Building " + b.Name);
                        }

                        break;
                    }
                    i++;
                }
                g.Indices[IndexGroupIndex++] = ig;
            }

            return(g);
        }