Example #1
0
 public TextureListObject(UInt32 imageHeaderOffset, TextureNode node)
 {
     name          = "Texture " + (DatFile.textureList.Items.Count + 1) + " (" + imageHeaderOffset.ToString("x8") + ")";
     this.node     = node;
     imageHeader   = node.imageHeader;
     paletteHeader = node.paletteHeader;
     imageBitmap   = TPL.ConvertFromTextureMelee(imageHeader, paletteHeader, out imageSize);
 }
Example #2
0
        /// <summary>
        /// Creates a <see cref="Bitmap"/> of this texture
        /// </summary>
        /// <returns></returns>
        public Bitmap ToBitmap()
        {
            if (ImageData != null && Tlut != null)
            {
                return(TPL.ConvertFromTextureMelee(ImageData.Data, ImageData.Width, ImageData.Height, (int)ImageData.Format, Tlut.Data, Tlut.ColorCount, (int)Tlut.Format));
            }

            if (ImageData != null)
            {
                return(TPL.ConvertFromTextureMelee(ImageData.Data, ImageData.Width, ImageData.Height, (int)ImageData.Format, null, 0, 0));
            }

            return(null);
        }
Example #3
0
        private void ParseDOBJs(IHSDNode node, HSD_JOBJ parent, List <HSD_JOBJ> BoneList)
        {
            if (node is HSD_JOBJ jobj)
            {
                if (jobj.DOBJ != null)
                {
                    foreach (var child in jobj.DOBJ.List)
                    {
                        ParseDOBJs(child, jobj, BoneList);
                    }
                }
                foreach (var child in jobj.Children)
                {
                    ParseDOBJs(child, child, BoneList);
                }
            }
            if (node is HSD_DOBJ dobj)
            {
                Console.WriteLine("DOBJ found");
                GenericMesh mesh = new GenericMesh();
                mesh.Name = "Mesh_" + outModel.Meshes.Count;

                GenericMaterial mat = new GenericMaterial();
                mesh.MaterialName = "material_" + outModel.MaterialBank.Count;
                outModel.MaterialBank.Add(mesh.MaterialName, mat);

                var Xscale = 1;
                var Yscale = 1;

                if (dobj.MOBJ != null)
                {
                    if (dobj.MOBJ.Textures != null)
                    {
                        var tobj = dobj.MOBJ.Textures;

                        mat.SWrap = GXTranslator.toWrapMode(tobj.WrapS);
                        mat.TWrap = GXTranslator.toWrapMode(tobj.WrapT);

                        Xscale = tobj.WScale;
                        Yscale = tobj.HScale;

                        if (!tobjToIndex.ContainsKey(tobj.ImageData.Data))
                        {
                            Bitmap B = null;
                            if (tobj.ImageData != null)
                            {
                                if (tobj.Tlut != null)
                                {
                                    B = TPL.ConvertFromTextureMelee(tobj.ImageData.Data, tobj.ImageData.Width, tobj.ImageData.Height, (int)tobj.ImageData.Format, tobj.Tlut.Data, tobj.Tlut.ColorCount, (int)tobj.Tlut.Format);
                                }
                                else
                                {
                                    B = TPL.ConvertFromTextureMelee(tobj.ImageData.Data, tobj.ImageData.Width, tobj.ImageData.Height, (int)tobj.ImageData.Format, null, 0, 0);
                                }
                            }
                            GenericTexture t = new GenericTexture();
                            t.FromBitmap(B);
                            B.Dispose();

                            tobjToIndex.Add(tobj.ImageData.Data, outModel.TextureBank.Count);
                            outModel.TextureBank.Add("texture_" + outModel.TextureBank.Count, t);
                        }

                        mat.TextureDiffuse = outModel.TextureBank.Keys.ToArray()[tobjToIndex[tobj.ImageData.Data]];
                    }
                }

                outModel.Meshes.Add(mesh);
                if (dobj.POBJ != null)
                {
                    foreach (HSD_POBJ pobj in dobj.POBJ.List)
                    {
                        // Decode the Display List Data
                        GXDisplayList DisplayList  = new GXDisplayList(pobj.DisplayListBuffer, pobj.VertexAttributes);
                        var           Vertices     = ToGenericVertex(VertexAccessor.GetDecodedVertices(pobj), BoneList, pobj.BindGroups != null ? new List <HSD_JOBJWeight>(pobj.BindGroups.Elements) : null, parent);
                        int           bufferOffset = 0;
                        foreach (GXPrimitiveGroup g in DisplayList.Primitives)
                        {
                            var primitiveType = GXTranslator.toPrimitiveType(g.PrimitiveType);

                            var strip = new List <GenericVertex>();
                            for (int i = bufferOffset; i < bufferOffset + g.Count; i++)
                            {
                                strip.Add(Vertices[i]);
                            }
                            bufferOffset += g.Count;

                            switch (primitiveType)
                            {
                            case OpenTK.Graphics.OpenGL.PrimitiveType.TriangleStrip:
                                Tools.TriangleConverter.StripToList(strip, out strip);
                                break;

                            case OpenTK.Graphics.OpenGL.PrimitiveType.Quads:
                                Tools.TriangleConverter.QuadToList(strip, out strip);
                                break;

                            case OpenTK.Graphics.OpenGL.PrimitiveType.Triangles:
                                break;

                            default:
                                Debug.WriteLine("Error converting primitive type " + primitiveType);
                                break;
                            }

                            mesh.Vertices.AddRange(strip);
                        }
                    }
                }

                for (int i = 0; i < mesh.Vertices.Count; i++)
                {
                    var vert = mesh.Vertices[i];
                    vert.UV0         = new Vector2(vert.UV0.X * Xscale, vert.UV0.Y * Yscale);
                    mesh.Vertices[i] = vert;
                }
                mesh.Optimize();
                Tools.TriangleConverter.ReverseFaces(mesh.Triangles, out mesh.Triangles);
            }
        }