Exemplo n.º 1
0
    // Save texture to disk
    private void ExportTexture(Unity_Studio.AssetPreloadData asset)
    {
        Unity_Studio.Texture2D m_Texture2D = new Unity_Studio.Texture2D(asset, false);
        m_Texture2D = new Unity_Studio.Texture2D(asset, true);
        Directory.CreateDirectory(ContentData.ContentPath());
        Directory.CreateDirectory(ContentData.ContentPath() + gameType);
        Directory.CreateDirectory(ContentData.ContentPath() + gameType + "/ffg");
        Directory.CreateDirectory(ContentData.ContentPath() + gameType + "/ffg/img");
        // Default file name
        string fileCandidate = ContentData.ContentPath() + gameType + "/ffg/img/" + asset.Text;
        string fileName      = fileCandidate + asset.extension;

        // This should apend a postfix to the name to avoid collisions, but as we import multiple times
        // This is broken
        while (File.Exists(fileName))
        {
            return;// Fixme;
        }

        switch (m_Texture2D.m_TextureFormat)
        {
            #region DDS
        case 1:     //Alpha8
        case 2:     //A4R4G4B4
        case 3:     //B8G8R8 //confirmed on X360, iOS //PS3 unsure
        case 4:     //G8R8A8B8 //confirmed on X360, iOS
        case 5:     //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
        case 7:     //R5G6B5 //confirmed switched on X360; confirmed on iOS
        case 10:    //DXT1
        case 12:    //DXT5
        case 13:    //R4G4B4A4, iOS (only?)
            using (BinaryWriter writer = new BinaryWriter(File.Open(fileName, FileMode.Create)))
            {
                // We have to manually add a header because unity doesn't have it
                writer.Write(0x20534444);
                writer.Write(0x7C);
                writer.Write(m_Texture2D.dwFlags);
                writer.Write(m_Texture2D.m_Height);
                writer.Write(m_Texture2D.m_Width);
                writer.Write(m_Texture2D.dwPitchOrLinearSize); //should be main tex size without mips);
                writer.Write((int)0);                          //dwDepth not implemented
                writer.Write(m_Texture2D.dwMipMapCount);
                writer.Write(new byte[44]);                    //dwReserved1[11]
                writer.Write(m_Texture2D.dwSize);
                writer.Write(m_Texture2D.dwFlags2);
                writer.Write(m_Texture2D.dwFourCC);
                writer.Write(m_Texture2D.dwRGBBitCount);
                writer.Write(m_Texture2D.dwRBitMask);
                writer.Write(m_Texture2D.dwGBitMask);
                writer.Write(m_Texture2D.dwBBitMask);
                writer.Write(m_Texture2D.dwABitMask);
                writer.Write(m_Texture2D.dwCaps);
                writer.Write(m_Texture2D.dwCaps2);
                writer.Write(new byte[12]);     //dwCaps3&4 & dwReserved2

                // Write image data
                writer.Write(m_Texture2D.image_data);
                writer.Close();
            }
            break;

            #endregion
            #region PVR
        case 30:     //PVRTC_RGB2
        case 31:     //PVRTC_RGBA2
        case 32:     //PVRTC_RGB4
        case 33:     //PVRTC_RGBA4
        case 34:     //ETC_RGB4
            using (BinaryWriter writer = new BinaryWriter(File.Open(fileName, FileMode.Create)))
            {
                // We have to manually add a header because unity doesn't have it
                writer.Write(m_Texture2D.pvrVersion);
                writer.Write(m_Texture2D.pvrFlags);
                writer.Write(m_Texture2D.pvrPixelFormat);
                writer.Write(m_Texture2D.pvrColourSpace);
                writer.Write(m_Texture2D.pvrChannelType);
                writer.Write(m_Texture2D.m_Height);
                writer.Write(m_Texture2D.m_Width);
                writer.Write(m_Texture2D.pvrDepth);
                writer.Write(m_Texture2D.pvrNumSurfaces);
                writer.Write(m_Texture2D.pvrNumFaces);
                writer.Write(m_Texture2D.dwMipMapCount);
                writer.Write(m_Texture2D.pvrMetaDataSize);

                // Write image data
                writer.Write(m_Texture2D.image_data);
                writer.Close();
            }
            break;

            #endregion
        case 28:     //DXT1 Crunched
        case 29:     //DXT1 Crunched
        default:
            using (BinaryWriter writer = new BinaryWriter(File.Open(fileName, FileMode.Create)))
            {
                writer.Write(m_Texture2D.image_data);
                writer.Close();
            }
            break;
        }
    }
Exemplo n.º 2
0
        private void WritePVR(string PVRfile, Texture2D m_Texture2D)
        {
            using (BinaryWriter writer = new BinaryWriter(File.Open(PVRfile, FileMode.Create)))
            {
                writer.Write(m_Texture2D.pvrVersion);
                writer.Write(m_Texture2D.pvrFlags);
                writer.Write(m_Texture2D.pvrPixelFormat);
                writer.Write(m_Texture2D.pvrColourSpace);
                writer.Write(m_Texture2D.pvrChannelType);
                writer.Write(m_Texture2D.m_Height);
                writer.Write(m_Texture2D.m_Width);
                writer.Write(m_Texture2D.pvrDepth);
                writer.Write(m_Texture2D.pvrNumSurfaces);
                writer.Write(m_Texture2D.pvrNumFaces);
                writer.Write(m_Texture2D.dwMipMapCount);
                writer.Write(m_Texture2D.pvrMetaDataSize);

                writer.Write(m_Texture2D.image_data);
                writer.Close();
            }
        }
Exemplo n.º 3
0
        private void BuildAssetStrucutres()
        {
            #region first loop - read asset data & create list
            if (!dontLoadAssetsMenuItem.Checked)
            {
                assetListView.BeginUpdate();
                progressBar1.Value = 0;
                progressBar1.Maximum = totalAssetCount;

                string fileIDfmt = "D" + assetsfileList.Count.ToString().Length.ToString();

                foreach (var assetsFile in assetsfileList)
                {
                    StatusStripUpdate("Building asset list from " + Path.GetFileName(assetsFile.filePath));

                    var a_Stream = assetsFile.a_Stream;
                    var fileGen = assetsFile.fileGen;
                    //var m_version = assetsFile.m_version;
                    var version = assetsFile.version;
                    string fileID = assetsfileList.IndexOf(assetsFile).ToString(fileIDfmt);

                    //ListViewGroup assetGroup = new ListViewGroup(Path.GetFileName(assetsFile.filePath));


                    foreach (var asset in assetsFile.preloadTable.Values)
                    {
                        asset.uniqueID = fileID + asset.uniqueID;
                        a_Stream.Position = asset.Offset;

                        switch (asset.Type2)
                        {
                            case 1: //GameObject
                                {
                                    GameObject m_GameObject = new GameObject(asset);
                                    assetsFile.GameObjectList.Add(asset.m_PathID, m_GameObject);
                                    totalTreeNodes++;
                                    break;
                                }
                            case 4: //Transform
                                {
                                    Transform m_Transform = new Transform(asset);
                                    assetsFile.TransformList.Add(asset.m_PathID, m_Transform);
                                    break;
                                }
                            case 224: //RectTransform
                                {
                                    RectTransform m_Rect = new RectTransform(asset);
                                    assetsFile.TransformList.Add(asset.m_PathID, m_Rect.m_Transform);
                                    break;
                                }
                            //case 21: //Material
                            case 28: //Texture2D
                                {
                                    Texture2D m_Texture2D = new Texture2D(asset, false);

                                    asset.Text = m_Texture2D.m_Name;
                                    asset.exportSize = 128 + m_Texture2D.image_data_size;

                                    #region Get Info Text
                                    asset.InfoText = "Width: " + m_Texture2D.m_Width.ToString() + "\nHeight: " + m_Texture2D.m_Height.ToString() + "\nFormat: ";

                                    switch (m_Texture2D.m_TextureFormat)
                                    {
                                        case 1: asset.InfoText += "Alpha8"; break;
                                        case 2: asset.InfoText += "ARGB 4.4.4.4"; break;
                                        case 3: asset.InfoText += "BGR 8.8.8"; break;
                                        case 4: asset.InfoText += "GRAB 8.8.8.8"; break;
                                        case 5: asset.InfoText += "BGRA 8.8.8.8"; break;
                                        case 7: asset.InfoText += "RGB 5.6.5"; break;
                                        case 10: asset.InfoText += "RGB DXT1"; break;
                                        case 12: asset.InfoText += "ARGB DXT5"; break;
                                        case 13: asset.InfoText += "RGBA 4.4.4.4"; break;
                                        case 30: asset.InfoText += "PVRTC_RGB2"; asset.exportSize -= 76; break;
                                        case 31: asset.InfoText += "PVRTC_RGBA2"; asset.exportSize -= 76; break;
                                        case 32: asset.InfoText += "PVRTC_RGB4"; asset.exportSize = 52; break;
                                        case 33: asset.InfoText += "PVRTC_RGBA4"; asset.exportSize -= 76; break;
                                        case 34: asset.InfoText += "ETC_RGB4"; asset.exportSize -= 76; break;
                                        default: asset.InfoText += "unknown"; asset.exportSize -= 128; break;
                                    }

                                    switch (m_Texture2D.m_FilterMode)
                                    {
                                        case 0: asset.InfoText += "\nFilter Mode: Point "; break;
                                        case 1: asset.InfoText += "\nFilter Mode: Bilinear "; break;
                                        case 2: asset.InfoText += "\nFilter Mode: Trilinear "; break;

                                    }

                                    asset.InfoText += "\nAnisotropic level: " + m_Texture2D.m_Aniso.ToString() + "\nMip map bias: " + m_Texture2D.m_MipBias.ToString();

                                    switch (m_Texture2D.m_WrapMode)
                                    {
                                        case 0: asset.InfoText += "\nWrap mode: Repeat"; break;
                                        case 1: asset.InfoText += "\nWrap mode: Clamp"; break;
                                    }
                                    #endregion

                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 49: //TextAsset
                                {
                                    TextAsset m_TextAsset = new TextAsset(asset, false);

                                    asset.Text = m_TextAsset.m_Name;
                                    asset.exportSize = m_TextAsset.exportSize;
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 83: //AudioClip
                                {
                                    AudioClip m_AudioClip = new AudioClip(asset, false);

                                    asset.Text = m_AudioClip.m_Name;
                                    asset.exportSize = (int)m_AudioClip.m_Size;
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 48: //Shader
                            case 89: //CubeMap
                            case 128: //Font
                                {
                                    asset.Text = a_Stream.ReadAlignedString(a_Stream.ReadInt32());
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 129: //PlayerSettings
                                {
                                    PlayerSettings plSet = new PlayerSettings(asset);
                                    productName = plSet.productName;
                                    base.Text = "Unity Studio - " + productName + " - " + assetsFile.m_Version + " - " + assetsFile.platformStr;
                                    break;
                                }

                        }

                        if (asset.Text == "") { asset.Text = asset.TypeString + " #" + asset.uniqueID; }
                        asset.SubItems.AddRange(new string[] { asset.TypeString, asset.exportSize.ToString() });

                        progressBar1.PerformStep();
                    }

                    exportableAssets.AddRange(assetsFile.exportableAssets);
                    //if (assetGroup.Items.Count > 0) { listView1.Groups.Add(assetGroup); }
                }

                if (base.Text == "Unity Studio" && assetsfileList.Count > 0)
                {
                    base.Text = "Unity Studio - no productName - " + assetsfileList[0].m_Version + " - " + assetsfileList[0].platformStr;
                }

                visibleAssets = exportableAssets;
                assetListView.VirtualListSize = visibleAssets.Count;

                //will only work if ListView is visible
                resizeAssetListColumns();

                assetListView.EndUpdate();
                progressBar1.Value = 0;
            }
            #endregion

            #region second loop - build tree structure
            if (!dontBuildHierarchyMenuItem.Checked)
            {
                sceneTreeView.BeginUpdate();
                progressBar1.Value = 0;
                progressBar1.Maximum = totalTreeNodes;

                foreach (var assetsFile in assetsfileList)
                {
                    StatusStripUpdate("Building tree structure from " + Path.GetFileName(assetsFile.filePath));
                    GameObject fileNode = new GameObject(null);
                    fileNode.Text = Path.GetFileName(assetsFile.filePath);
                    fileNode.m_Name = "RootNode";

                    foreach (var m_GameObject in assetsFile.GameObjectList.Values)
                    {
                        var parentNode = fileNode;

                        Transform m_Transform;
                        if (assetsfileList.TryGetTransform(m_GameObject.m_Transform, out m_Transform))
                        {
                            Transform m_Father;
                            if (assetsfileList.TryGetTransform(m_Transform.m_Father, out m_Father))
                            {
                                //GameObject Parent;
                                if (assetsfileList.TryGetGameObject(m_Father.m_GameObject, out parentNode))
                                {
                                    //parentNode = Parent;
                                }
                            }
                        }

                        parentNode.Nodes.Add(m_GameObject);
                        progressBar1.PerformStep();
                    }


                    if (fileNode.Nodes.Count == 0) { fileNode.Text += " (no children)"; }
                    sceneTreeView.Nodes.Add(fileNode);
                }
                sceneTreeView.EndUpdate();
                progressBar1.Value = 0;

                if (File.Exists(mainPath + "\\materials.json"))
                {
                    string matLine = "";
                    using (StreamReader reader = File.OpenText(mainPath + "\\materials.json"))
                    { matLine = reader.ReadToEnd(); }

                    jsonMats = new JavaScriptSerializer().Deserialize<Dictionary<string, Dictionary<string, string>>>(matLine);
                    //var jsonMats = new JavaScriptSerializer().DeserializeObject(matLine);
                }
            }
            #endregion

            #region build list of class strucutres
            if (buildClassStructuresMenuItem.Checked)
            {
                //group class structures by versionv
                foreach (var assetsFile in assetsfileList)
                {
                    SortedDictionary<int, ClassStrStruct> curVer;
                    if (AllClassStructures.TryGetValue(assetsFile.m_Version, out curVer))
                    {
                        foreach (var uClass in assetsFile.ClassStructures)
                        {
                            curVer[uClass.Key] = uClass.Value;
                        }
                    }
                    else { AllClassStructures.Add(assetsFile.m_Version, assetsFile.ClassStructures); }
                }

                classesListView.BeginUpdate();
                foreach (var version in AllClassStructures)
                {
                    ListViewGroup versionGroup = new ListViewGroup(version.Key);
                    classesListView.Groups.Add(versionGroup);

                    foreach (var uclass in version.Value)
                    {
                        uclass.Value.Group = versionGroup;
                        classesListView.Items.Add(uclass.Value);
                    }
                }
                classesListView.EndUpdate();
            }
            #endregion

            StatusStripUpdate("Finished loading " + assetsfileList.Count.ToString() + " files with " + (assetListView.Items.Count + sceneTreeView.Nodes.Count).ToString() + " exportable assets.");
            
            progressBar1.Value = 0;
            treeSearch.Select();
            TexEnv dsd = new TexEnv();
        }
Exemplo n.º 4
0
        private int ExportAsset(AssetPreloadData asset, string exportPath)
        {
            int exportCount = 0;
            
            switch (asset.Type2)
            {
                #region Texture2D
                case 28: //Texture2D
                    {
                        Texture2D m_Texture2D = new Texture2D(asset, true);
                        
                        string texPath = exportPath + "\\" + asset.Text;
                        if (uniqueNames.Checked) { texPath += " #" + asset.uniqueID; }
                        if (m_Texture2D.m_TextureFormat < 30) { texPath += ".dds"; }
                        else if (m_Texture2D.m_TextureFormat < 35) { texPath += ".pvr"; }
                        else { texPath += "_" + m_Texture2D.m_Width.ToString() + "x" + m_Texture2D.m_Height.ToString() + "." + m_Texture2D.m_TextureFormat.ToString() + ".tex"; }

                        if (File.Exists(texPath))
                        {
                            StatusStripUpdate("Texture file " + Path.GetFileName(texPath) + " already exists");
                        }
                        else
                        {
                            StatusStripUpdate("Exporting Texture2D: " + Path.GetFileName(texPath));
                            exportCount += 1;

                            switch (m_Texture2D.m_TextureFormat)
                            {
                                case 1: //Alpha8
                                case 2: //A4R4G4B4
                                case 3: //B8G8R8 //confirmed on X360, iOS //PS3 unsure
                                case 4: //G8R8A8B8 //confirmed on X360, iOS
                                case 5: //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
                                case 7: //R5G6B5 //confirmed switched on X360; confirmed on iOS
                                case 10: //DXT1
                                case 12: //DXT5
                                case 13: //R4G4B4A4, iOS (only?)
                                    WriteDDS(texPath, m_Texture2D);
                                    break;
                                case 30: //PVRTC_RGB2
                                case 31: //PVRTC_RGBA2
                                case 32: //PVRTC_RGB4
                                case 33: //PVRTC_RGBA4
                                case 34: //ETC_RGB4
                                    WritePVR(texPath, m_Texture2D);
                                    break;
                                default:
                                    {
                                        using (BinaryWriter writer = new BinaryWriter(File.Open(texPath, FileMode.Create)))
                                        {
                                            writer.Write(m_Texture2D.image_data);
                                            writer.Close();
                                        }
                                        break;
                                    }
                            }
                        }
                        break;
                    }
                #endregion
                #region AudioClip
                case 83: //AudioClip
                    {
                        AudioClip m_AudioClip = new AudioClip(asset, true);
                        
                        string audPath = exportPath + "\\" + asset.Text;
                        if (uniqueNames.Checked) { audPath += " #" + asset.uniqueID; }
                        audPath += m_AudioClip.extension;

                        if (File.Exists(audPath))
                        {
                            StatusStripUpdate("Audio file " + Path.GetFileName(audPath) + " already exists");
                        }
                        else
                        {
                            StatusStripUpdate("Exporting AudioClip: " + Path.GetFileName(audPath));
                            exportCount += 1;
                            
                            using (BinaryWriter writer = new BinaryWriter(File.Open(audPath, FileMode.Create)))
                            {
                                writer.Write(m_AudioClip.m_AudioData);
                                writer.Close();
                            }

                        }
                        break;
                    }
                #endregion
                #region Shader & TextAsset
                case 48: //Shader
                case 49: //TextAsset
                    {
                        TextAsset m_TextAsset = new TextAsset(asset, true);

                        string textAssetPath = exportPath + "\\" + asset.Text;
                        if (uniqueNames.Checked) { textAssetPath += " #" + asset.uniqueID; }
                        textAssetPath += m_TextAsset.extension;

                        if (File.Exists(textAssetPath))
                        {
                            StatusStripUpdate("TextAsset file " + Path.GetFileName(textAssetPath) + " already exists");
                        }
                        else
                        {
                            StatusStripUpdate("Exporting TextAsset: " + Path.GetFileName(textAssetPath));
                            exportCount += 1;

                            using (BinaryWriter writer = new BinaryWriter(File.Open(textAssetPath, FileMode.Create)))
                            {
                                writer.Write(m_TextAsset.m_Script);
                                writer.Close();
                            }
                        }
                        break;
                    }
                #endregion
                #region Font
                case 128: //Font
                    {
                        unityFont m_Font = new unityFont(asset);

                        if (m_Font.m_FontData != null)
                        {
                            string fontPath = exportPath + "\\" + asset.Text;
                            if (uniqueNames.Checked) { fontPath += " #" + asset.uniqueID; }
                            fontPath += m_Font.extension;

                            if (File.Exists(fontPath))
                            {
                                StatusStripUpdate("Font file " + Path.GetFileName(fontPath) + " already exists");
                            }
                            else
                            {
                                StatusStripUpdate("Exporting Font: " + Path.GetFileName(fontPath));

                                using (BinaryWriter writer = new BinaryWriter(File.Open(fontPath, FileMode.Create)))
                                {
                                    writer.Write(m_Font.m_FontData);
                                    writer.Close();
                                }

                                exportCount += 1;
                            }
                        }
                        break;
                    }
                #endregion
                /*default:
                    {
                        string assetPath = exportPath + "\\" + asset.Name + "." + asset.TypeString;
                        byte[] assetData = new byte[asset.Size];
                        Stream.Read(assetData, 0, asset.Size);
                        using (BinaryWriter writer = new BinaryWriter(File.Open(assetPath, FileMode.Create)))
                        {
                            writer.Write(assetData);
                            writer.Close();
                        }
                        exportCount += 1;
                        break;
                    }*/
            }
            return exportCount;
        }
Exemplo n.º 5
0
        private void WriteDDS(string DDSfile, Texture2D m_Texture2D)
        {
            using (BinaryWriter writer = new BinaryWriter(File.Open(DDSfile, FileMode.Create)))
            {
                writer.Write(0x20534444);
                writer.Write(0x7C);
                writer.Write(m_Texture2D.dwFlags);
                writer.Write(m_Texture2D.m_Height);
                writer.Write(m_Texture2D.m_Width);
                writer.Write(m_Texture2D.dwPitchOrLinearSize); //should be main tex size without mips);
                writer.Write((int)0); //dwDepth not implemented
                writer.Write(m_Texture2D.dwMipMapCount);
                writer.Write(new byte[44]); //dwReserved1[11]
                writer.Write(m_Texture2D.dwSize);
                writer.Write(m_Texture2D.dwFlags2);
                writer.Write(m_Texture2D.dwFourCC);
                writer.Write(m_Texture2D.dwRGBBitCount);
                writer.Write(m_Texture2D.dwRBitMask);
                writer.Write(m_Texture2D.dwGBitMask);
                writer.Write(m_Texture2D.dwBBitMask);
                writer.Write(m_Texture2D.dwABitMask);
                writer.Write(m_Texture2D.dwCaps);
                writer.Write(m_Texture2D.dwCaps2);
                writer.Write(new byte[12]); //dwCaps3&4 & dwReserved2

                writer.Write(m_Texture2D.image_data);
                writer.Close();
            }
        }
Exemplo n.º 6
0
        private void PreviewAsset(AssetPreloadData asset)
        {
            switch (asset.Type2)
            {
                #region Texture2D
                case 28: //Texture2D
                    {
                        Texture2D m_Texture2D = new Texture2D(asset, true);
                        
                        if (m_Texture2D.m_TextureFormat < 30)
                        {
                            byte[] imageBuffer = new byte[128 + m_Texture2D.image_data_size];

                            imageBuffer[0] = 0x44;
                            imageBuffer[1] = 0x44;
                            imageBuffer[2] = 0x53;
                            imageBuffer[3] = 0x20;
                            imageBuffer[4] = 0x7c;
                            
                            BitConverter.GetBytes(m_Texture2D.dwFlags).CopyTo(imageBuffer, 8);
                            BitConverter.GetBytes(m_Texture2D.m_Height).CopyTo(imageBuffer, 12);
                            BitConverter.GetBytes(m_Texture2D.m_Width).CopyTo(imageBuffer, 16);
                            BitConverter.GetBytes(m_Texture2D.dwPitchOrLinearSize).CopyTo(imageBuffer, 20);
                            BitConverter.GetBytes(m_Texture2D.dwMipMapCount).CopyTo(imageBuffer, 28);
                            BitConverter.GetBytes(m_Texture2D.dwSize).CopyTo(imageBuffer, 76);
                            BitConverter.GetBytes(m_Texture2D.dwFlags2).CopyTo(imageBuffer, 80);
                            BitConverter.GetBytes(m_Texture2D.dwFourCC).CopyTo(imageBuffer, 84);
                            BitConverter.GetBytes(m_Texture2D.dwRGBBitCount).CopyTo(imageBuffer, 88);
                            BitConverter.GetBytes(m_Texture2D.dwRBitMask).CopyTo(imageBuffer, 92);
                            BitConverter.GetBytes(m_Texture2D.dwGBitMask).CopyTo(imageBuffer, 96);
                            BitConverter.GetBytes(m_Texture2D.dwBBitMask).CopyTo(imageBuffer, 100);
                            BitConverter.GetBytes(m_Texture2D.dwABitMask).CopyTo(imageBuffer, 104);
                            BitConverter.GetBytes(m_Texture2D.dwCaps).CopyTo(imageBuffer, 108);
                            BitConverter.GetBytes(m_Texture2D.dwCaps2).CopyTo(imageBuffer, 112);
                            
                            m_Texture2D.image_data.CopyTo(imageBuffer, 128);

                            imageTexture = DDSDataToBMP(imageBuffer);
                            imageTexture.RotateFlip(RotateFlipType.RotateNoneFlipY);
                            previewPanel.BackgroundImage = imageTexture;
                            previewPanel.BackgroundImageLayout = System.Windows.Forms.ImageLayout.Zoom;
                        }
                        else { StatusStripUpdate("Unsupported image for preview. Try to export."); }
                        break;
                    }
                #endregion
                #region AudioClip
                case 83: //AudioClip
                    {
                        AudioClip m_AudioClip = new AudioClip(asset, true);

                        //MemoryStream memoryStream = new MemoryStream(m_AudioData, true);
                        //System.Media.SoundPlayer soundPlayer = new System.Media.SoundPlayer(memoryStream);
                        //soundPlayer.Play();

                        FMOD.RESULT result;
                        FMOD.CREATESOUNDEXINFO exinfo = new FMOD.CREATESOUNDEXINFO();
                        
                        exinfo.cbsize = Marshal.SizeOf(exinfo);
                        exinfo.length = (uint)m_AudioClip.m_Size;

                        result = system.createSound(m_AudioClip.m_AudioData, (FMOD.MODE.OPENMEMORY | loopMode), ref exinfo, out sound);
                        if (ERRCHECK(result)) { break; }

                        result = sound.getLength(out FMODlenms, FMOD.TIMEUNIT.MS);
                        if ((result != FMOD.RESULT.OK) && (result != FMOD.RESULT.ERR_INVALID_HANDLE))
                        {
                            if (ERRCHECK(result)) { break; }
                        }

                        result = system.playSound(sound, null, false, out channel);
                        if (ERRCHECK(result)) { break; }

                        timer.Start();
                        FMODstatusLabel.Text = "Playing";
                        FMODpanel.Visible = true;

                        //result = channel.getChannelGroup(out channelGroup);
                        //if (ERRCHECK(result)) { break; }

                        result = channel.getFrequency(out FMODfrequency);
                        ERRCHECK(result);

                        FMODinfoLabel.Text = FMODfrequency.ToString() + " Hz";
                        break;
                    }
                #endregion
                #region Shader & TextAsset
                case 48:
                case 49:
                    {
                        TextAsset m_TextAsset = new TextAsset(asset, true);
                        
                        string m_Script_Text = UnicodeEncoding.UTF8.GetString(m_TextAsset.m_Script);
                        m_Script_Text = Regex.Replace(m_Script_Text, "(?<!\r)\n", "\r\n");
                        textPreviewBox.Text = m_Script_Text;
                        textPreviewBox.Visible = true;

                        break;
                    }
                #endregion
                #region Font
                case 128: //Font
                    {
                        unityFont m_Font = new unityFont(asset);
                        
                        if (m_Font.extension != ".otf" && m_Font.m_FontData != null)
                        {
                            IntPtr data = Marshal.AllocCoTaskMem(m_Font.m_FontData.Length);
                            Marshal.Copy(m_Font.m_FontData, 0, data, m_Font.m_FontData.Length);

                            System.Drawing.Text.PrivateFontCollection pfc = new System.Drawing.Text.PrivateFontCollection();
                            // We HAVE to do this to register the font to the system (Weird .NET bug !)
                            uint cFonts = 0;
                            AddFontMemResourceEx(data, (uint)m_Font.m_FontData.Length, IntPtr.Zero, ref cFonts);

                            pfc.AddMemoryFont(data, m_Font.m_FontData.Length);
                            System.Runtime.InteropServices.Marshal.FreeCoTaskMem(data);

                            //textPreviewBox.Font = new Font(pfc.Families[0], 16, FontStyle.Regular);
                            //textPreviewBox.Text = "abcdefghijklmnopqrstuvwxyz ABCDEFGHIJKLMNOPQRSTUVWYZ\r\n1234567890.:,;'\"(!?)+-*/=\r\nThe quick brown fox jumps over the lazy dog. 1234567890";
                            fontPreviewBox.SelectionStart = 0;
                            fontPreviewBox.SelectionLength = 80;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 16, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 81;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 12, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 138;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 18, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 195;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 24, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 252;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 36, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 309;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 48, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 366;
                            fontPreviewBox.SelectionLength = 56;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 60, FontStyle.Regular);
                            fontPreviewBox.SelectionStart = 423;
                            fontPreviewBox.SelectionLength = 55;
                            fontPreviewBox.SelectionFont = new Font(pfc.Families[0], 72, FontStyle.Regular);
                            fontPreviewBox.Visible = true;
                        }
                        else { StatusStripUpdate("Unsupported font for preview. Try to export."); }

                        break;
                    }
                #endregion
            }
        }
Exemplo n.º 7
0
        public void WriteFBX(string FBXfile, bool allNodes)
        {
            var timestamp = DateTime.Now;

            using (StreamWriter FBXwriter = new StreamWriter(FBXfile))
            {
                StringBuilder fbx = new StringBuilder();
                StringBuilder ob = new StringBuilder(); //Objects builder
                StringBuilder cb = new StringBuilder(); //Connections builder
                StringBuilder mb = new StringBuilder(); //Materials builder to get texture count in advance
                StringBuilder cb2 = new StringBuilder(); //and keep connections ordered
                cb.Append("\n}\n");//Objects end
                cb.Append("\nConnections:  {");

                HashSet<GameObject> GameObjects = new HashSet<GameObject>();
                HashSet<GameObject> LimbNodes = new HashSet<GameObject>();
                HashSet<AssetPreloadData> Skins = new HashSet<AssetPreloadData>();
                HashSet<AssetPreloadData> Meshes = new HashSet<AssetPreloadData>();//MeshFilters are not unique!!
                HashSet<AssetPreloadData> Materials = new HashSet<AssetPreloadData>();
                HashSet<AssetPreloadData> Textures = new HashSet<AssetPreloadData>();

                int DeformerCount = 0;
                /*
                uniqueIDs can begin with zero, so they are preceded by a number specific to their type
                this will also make it easier to debug FBX files
                1: Model
                2: NodeAttribute
                3: Geometry
                4: Deformer
                5: CollectionExclusive
                6: Material
                7: Texture
                8: Video
                9: 
                */

                #region loop nodes and collect objects for export
                foreach (var assetsFile in assetsfileList)
                {
                    foreach (var m_GameObject in assetsFile.GameObjectList.Values)
                    {
                        if (m_GameObject.Checked || allNodes)
                        {
                            GameObjects.Add(m_GameObject);
                            
                            AssetPreloadData MeshFilterPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_MeshFilter, out MeshFilterPD))
                            {
                                //MeshFilters are not unique!
                                //MeshFilters.Add(MeshFilterPD);
                                MeshFilter m_MeshFilter = new MeshFilter(MeshFilterPD);
                                AssetPreloadData MeshPD;
                                if (assetsfileList.TryGetPD(m_MeshFilter.m_Mesh, out MeshPD))
                                {
                                    Meshes.Add(MeshPD);
                                    
                                    //write connections here and Mesh objects separately without having to backtrack through their MEshFilter to het the GameObject ID
                                    //also note that MeshFilters are not unique, they cannot be used for instancing geometry
                                    cb2.AppendFormat("\n\n\t;Geometry::, Model::{0}", m_GameObject.m_Name);
                                    cb2.AppendFormat("\n\tC: \"OO\",3{0},1{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                                }
                            }

                            #region get Renderer
                            AssetPreloadData RendererPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_Renderer, out RendererPD))
                            {
                                Renderer m_Renderer = new Renderer(RendererPD);

                                foreach (var MaterialPPtr in m_Renderer.m_Materials)
                                {
                                    AssetPreloadData MaterialPD;
                                    if (assetsfileList.TryGetPD(MaterialPPtr, out MaterialPD))
                                    {
                                        Materials.Add(MaterialPD);
                                        cb2.AppendFormat("\n\n\t;Material::, Model::{0}", m_GameObject.m_Name);
                                        cb2.AppendFormat("\n\tC: \"OO\",6{0},1{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                    }
                                }
                            }
                            #endregion

                            #region get SkinnedMeshRenderer
                            AssetPreloadData SkinnedMeshPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_SkinnedMeshRenderer, out SkinnedMeshPD))
                            {
                                Skins.Add(SkinnedMeshPD);

                                SkinnedMeshRenderer m_SkinnedMeshRenderer = new SkinnedMeshRenderer(SkinnedMeshPD);

                                foreach (var MaterialPPtr in m_SkinnedMeshRenderer.m_Materials)
                                {
                                    AssetPreloadData MaterialPD;
                                    if (assetsfileList.TryGetPD(MaterialPPtr, out MaterialPD))
                                    {
                                        Materials.Add(MaterialPD);
                                        cb2.AppendFormat("\n\n\t;Material::, Model::{0}", m_GameObject.m_Name);
                                        cb2.AppendFormat("\n\tC: \"OO\",6{0},1{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                    }
                                }

                                if ((bool)Properties.Settings.Default["exportDeformers"])
                                {
                                    DeformerCount += m_SkinnedMeshRenderer.m_Bones.Length;

                                    //collect skeleton dummies to make sure they are exported
                                    foreach (var bonePPtr in m_SkinnedMeshRenderer.m_Bones)
                                    {
                                        Transform b_Transform;
                                        if (assetsfileList.TryGetTransform(bonePPtr, out b_Transform))
                                        {
                                            GameObject m_Bone;
                                            if (assetsfileList.TryGetGameObject(b_Transform.m_GameObject, out m_Bone))
                                            {
                                                LimbNodes.Add(m_Bone);
                                                //also collect the root bone
                                                if (m_Bone.Parent.Level > 0) { LimbNodes.Add((GameObject)m_Bone.Parent); }
                                                //should I collect siblings?
                                            }

                                            #region collect children because m_SkinnedMeshRenderer.m_Bones doesn't contain terminations
                                            foreach (var ChildPPtr in b_Transform.m_Children)
                                            {
                                                Transform ChildTR;
                                                if (assetsfileList.TryGetTransform(ChildPPtr, out ChildTR))
                                                {
                                                    GameObject m_Child;
                                                    if (assetsfileList.TryGetGameObject(ChildTR.m_GameObject, out m_Child))
                                                    {
                                                        //check that the Model doesn't contain a Mesh, although this won't ensure it's part of the skeleton
                                                        if (m_Child.m_MeshFilter == null && m_Child.m_SkinnedMeshRenderer == null)
                                                        {
                                                            LimbNodes.Add(m_Child);
                                                        }
                                                    }
                                                }
                                            }
                                            #endregion
                                        }
                                    }
                                }
                            }
                            #endregion
                        }
                    }
                }

                //if ((bool)Properties.Settings.Default["convertDummies"]) { GameObjects.Except(LimbNodes); }
                //else { GameObjects.UnionWith(LimbNodes); LimbNodes.Clear(); }
                //add either way and use LimbNodes to test if a node is Null or LimbNode
                GameObjects.UnionWith(LimbNodes);
                #endregion

                #region write Materials, collect Texture objects
                StatusStripUpdate("Writing Materials");
                foreach (var MaterialPD in Materials)
                {
                    Material m_Material = new Material(MaterialPD);

                    mb.AppendFormat("\n\tMaterial: 6{0}, \"Material::{1}\", \"\" {{", MaterialPD.uniqueID, m_Material.m_Name);
                    mb.Append("\n\t\tVersion: 102");
                    mb.Append("\n\t\tShadingModel: \"phong\"");
                    mb.Append("\n\t\tMultiLayer: 0");
                    mb.Append("\n\t\tProperties70:  {");
                    mb.Append("\n\t\t\tP: \"ShadingModel\", \"KString\", \"\", \"\", \"phong\"");

                    #region write material colors
                    foreach (var m_Color in m_Material.m_Colors)
                    {
                        switch (m_Color.first)
                        {
                            case "_Color":
                            case "gSurfaceColor":
                                mb.AppendFormat("\n\t\t\tP: \"DiffuseColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            case "_SpecularColor"://then what is _SpecColor??
                                mb.AppendFormat("\n\t\t\tP: \"SpecularColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            case "_ReflectColor":
                                mb.AppendFormat("\n\t\t\tP: \"AmbientColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            default:
                                mb.AppendFormat("\n;\t\t\tP: \"{3}\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2], m_Color.first);//commented out
                                break;
                        }
                    }
                    #endregion

                    #region write material parameters
                    foreach (var m_Float in m_Material.m_Floats)
                    {
                        switch (m_Float.first)
                        {
                            case "_Shininess":
                                mb.AppendFormat("\n\t\t\tP: \"ShininessExponent\", \"Number\", \"\", \"A\",{0}", m_Float.second);
                                mb.AppendFormat("\n\t\t\tP: \"Shininess\", \"Number\", \"\", \"A\",{0}", m_Float.second);
                                break;
                            default:
                                mb.AppendFormat("\n;\t\t\tP: \"{0}\", \"Number\", \"\", \"A\",{1}", m_Float.first, m_Float.second);
                                break;
                        }
                    }
                    #endregion

                    //mb.Append("\n\t\t\tP: \"SpecularFactor\", \"Number\", \"\", \"A\",0");
                    mb.Append("\n\t\t}");
                    mb.Append("\n\t}");

                    #region write texture connections
                    foreach (var m_TexEnv in m_Material.m_TexEnvs)
                    {
                        AssetPreloadData TexturePD;
                        #region get Porsche material from json
                        if (!assetsfileList.TryGetPD(m_TexEnv.m_Texture, out TexturePD) && jsonMats != null)
                        {
                            Dictionary<string, string> matProp;
                            if (jsonMats.TryGetValue(m_Material.m_Name, out matProp))
                            {
                                string texName;
                                if (matProp.TryGetValue(m_TexEnv.name, out texName))
                                {
                                    foreach (var asset in exportableAssets)
                                    {
                                        if (asset.Type2 == 28 && asset.Text == texName)
                                        {
                                            TexturePD = asset;
                                            break;
                                        }
                                    }
                                }
                            }
                        }
                        #endregion

                        if (TexturePD != null && TexturePD.Type2 == 28)
                        {
                            Textures.Add(TexturePD);

                            cb2.AppendFormat("\n\n\t;Texture::, Material::{0}", m_Material.m_Name);
                            cb2.AppendFormat("\n\tC: \"OP\",7{0},6{1}, \"", TexturePD.uniqueID, MaterialPD.uniqueID);

                            switch (m_TexEnv.name)
                            {
                                case "_MainTex":
                                case "gDiffuseSampler":
                                    cb2.Append("DiffuseColor\"");
                                    break;
                                case "_SpecularMap":
                                case "gSpecularSampler":
                                    cb2.Append("SpecularColor\"");
                                    break;
                                case "_NormalMap":
                                case "_BumpMap":
                                case "gNormalSampler":
                                    cb2.Append("NormalMap\"");
                                    break;
                                default:
                                    cb2.AppendFormat("{0}\"", m_TexEnv.name);
                                    break;
                            }
                        }
                    }
                    #endregion
                }
                #endregion

                #region write generic FBX data after everything was collected
                fbx.Append("; FBX 7.1.0 project file");
                fbx.Append("\nFBXHeaderExtension:  {\n\tFBXHeaderVersion: 1003\n\tFBXVersion: 7100\n\tCreationTimeStamp:  {\n\t\tVersion: 1000");
                fbx.Append("\n\t\tYear: " + timestamp.Year);
                fbx.Append("\n\t\tMonth: " + timestamp.Month);
                fbx.Append("\n\t\tDay: " + timestamp.Day);
                fbx.Append("\n\t\tHour: " + timestamp.Hour);
                fbx.Append("\n\t\tMinute: " + timestamp.Minute);
                fbx.Append("\n\t\tSecond: " + timestamp.Second);
                fbx.Append("\n\t\tMillisecond: " + timestamp.Millisecond);
                fbx.Append("\n\t}\n\tCreator: \"Unity Studio by Chipicao\"\n}\n");

                fbx.Append("\nGlobalSettings:  {");
                fbx.Append("\n\tVersion: 1000");
                fbx.Append("\n\tProperties70:  {");
                fbx.Append("\n\t\tP: \"UpAxis\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"UpAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"FrontAxis\", \"int\", \"Integer\", \"\",2");
                fbx.Append("\n\t\tP: \"FrontAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"CoordAxis\", \"int\", \"Integer\", \"\",0");
                fbx.Append("\n\t\tP: \"CoordAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"OriginalUpAxis\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"OriginalUpAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.AppendFormat("\n\t\tP: \"UnitScaleFactor\", \"double\", \"Number\", \"\",{0}", Properties.Settings.Default["scaleFactor"]);
                fbx.Append("\n\t\tP: \"OriginalUnitScaleFactor\", \"double\", \"Number\", \"\",1.0");
                //fbx.Append("\n\t\tP: \"AmbientColor\", \"ColorRGB\", \"Color\", \"\",0,0,0");
                //fbx.Append("\n\t\tP: \"DefaultCamera\", \"KString\", \"\", \"\", \"Producer Perspective\"");
                //fbx.Append("\n\t\tP: \"TimeMode\", \"enum\", \"\", \"\",6");
                //fbx.Append("\n\t\tP: \"TimeProtocol\", \"enum\", \"\", \"\",2");
                //fbx.Append("\n\t\tP: \"SnapOnFrameMode\", \"enum\", \"\", \"\",0");
                //fbx.Append("\n\t\tP: \"TimeSpanStart\", \"KTime\", \"Time\", \"\",0");
                //fbx.Append("\n\t\tP: \"TimeSpanStop\", \"KTime\", \"Time\", \"\",153953860000");
                //fbx.Append("\n\t\tP: \"CustomFrameRate\", \"double\", \"Number\", \"\",-1");
                //fbx.Append("\n\t\tP: \"TimeMarker\", \"Compound\", \"\", \"\"");
                //fbx.Append("\n\t\tP: \"CurrentTimeMarker\", \"int\", \"Integer\", \"\",-1");
                fbx.Append("\n\t}\n}\n");

                fbx.Append("\nDocuments:  {");
                fbx.Append("\n\tCount: 1");
                fbx.Append("\n\tDocument: 1234567890, \"\", \"Scene\" {");
                fbx.Append("\n\t\tProperties70:  {");
                fbx.Append("\n\t\t\tP: \"SourceObject\", \"object\", \"\", \"\"");
                fbx.Append("\n\t\t\tP: \"ActiveAnimStackName\", \"KString\", \"\", \"\", \"\"");
                fbx.Append("\n\t\t}");
                fbx.Append("\n\t\tRootNode: 0");
                fbx.Append("\n\t}\n}\n");
                fbx.Append("\nReferences:  {\n}\n");

                fbx.Append("\nDefinitions:  {");
                fbx.Append("\n\tVersion: 100");
                fbx.AppendFormat("\n\tCount: {0}", 1 + 2 * GameObjects.Count + Materials.Count + 2 * Textures.Count + ((bool)Properties.Settings.Default["exportDeformers"] ? Skins.Count + DeformerCount + Skins.Count + 1 : 0));

                fbx.Append("\n\tObjectType: \"GlobalSettings\" {");
                fbx.Append("\n\t\tCount: 1");
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Model\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", GameObjects.Count);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"NodeAttribute\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", GameObjects.Count - Meshes.Count - Skins.Count);
                fbx.Append("\n\t\tPropertyTemplate: \"FbxNull\" {");
                fbx.Append("\n\t\t\tProperties70:  {");
                fbx.Append("\n\t\t\t\tP: \"Color\", \"ColorRGB\", \"Color\", \"\",0.8,0.8,0.8");
                fbx.Append("\n\t\t\t\tP: \"Size\", \"double\", \"Number\", \"\",100");
                fbx.Append("\n\t\t\t\tP: \"Look\", \"enum\", \"\", \"\",1");
                fbx.Append("\n\t\t\t}\n\t\t}\n\t}");

                fbx.Append("\n\tObjectType: \"Geometry\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", Meshes.Count + Skins.Count);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Material\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", Materials.Count);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Texture\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", Textures.Count);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Video\" {");
                fbx.AppendFormat("\n\t\tCount: {0}", Textures.Count);
                fbx.Append("\n\t}");

                if ((bool)Properties.Settings.Default["exportDeformers"])
                {
                    fbx.Append("\n\tObjectType: \"CollectionExclusive\" {");
                    fbx.AppendFormat("\n\t\tCount: {0}", Skins.Count);
                    fbx.Append("\n\t\tPropertyTemplate: \"FbxDisplayLayer\" {");
                    fbx.Append("\n\t\t\tProperties70:  {");
                    fbx.Append("\n\t\t\t\tP: \"Color\", \"ColorRGB\", \"Color\", \"\",0.8,0.8,0.8");
                    fbx.Append("\n\t\t\t\tP: \"Show\", \"bool\", \"\", \"\",1");
                    fbx.Append("\n\t\t\t\tP: \"Freeze\", \"bool\", \"\", \"\",0");
                    fbx.Append("\n\t\t\t\tP: \"LODBox\", \"bool\", \"\", \"\",0");
                    fbx.Append("\n\t\t\t}");
                    fbx.Append("\n\t\t}");
                    fbx.Append("\n\t}");

                    fbx.Append("\n\tObjectType: \"Deformer\" {");
                    fbx.AppendFormat("\n\t\tCount: {0}", DeformerCount + Skins.Count);
                    fbx.Append("\n\t}");

                    fbx.Append("\n\tObjectType: \"Pose\" {");
                    fbx.Append("\n\t\tCount: 1");
                    fbx.Append("\n\t}");
                }

                fbx.Append("\n}\n");
                fbx.Append("\nObjects:  {");

                FBXwriter.Write(fbx);
                fbx.Clear();
                #endregion

                #region write Model nodes and connections
                StatusStripUpdate("Writing Nodes and hierarchy");
                foreach (var m_GameObject in GameObjects)
                {
                    if (m_GameObject.m_MeshFilter == null && m_GameObject.m_SkinnedMeshRenderer == null)
                    {
                        if ((bool)Properties.Settings.Default["exportDeformers"] && (bool)Properties.Settings.Default["convertDummies"] && LimbNodes.Contains(m_GameObject))
                        {
                            ob.AppendFormat("\n\tNodeAttribute: 2{0}, \"NodeAttribute::\", \"LimbNode\" {{", m_GameObject.uniqueID);
                            ob.Append("\n\t\tTypeFlags: \"Skeleton\"");
                            ob.Append("\n\t}");

                            ob.AppendFormat("\n\tModel: 1{0}, \"Model::{1}\", \"LimbNode\" {{", m_GameObject.uniqueID, m_GameObject.m_Name);
                        }
                        else
                        {
                            ob.AppendFormat("\n\tNodeAttribute: 2{0}, \"NodeAttribute::\", \"Null\" {{", m_GameObject.uniqueID);
                            ob.Append("\n\t\tTypeFlags: \"Null\"");
                            ob.Append("\n\t}");

                            ob.AppendFormat("\n\tModel: 1{0}, \"Model::{1}\", \"Null\" {{", m_GameObject.uniqueID, m_GameObject.m_Name);
                        }

                        //connect NodeAttribute to Model
                        cb.AppendFormat("\n\n\t;NodeAttribute::, Model::{0}", m_GameObject.m_Name);
                        cb.AppendFormat("\n\tC: \"OO\",2{0},1{0}", m_GameObject.uniqueID);
                    }
                    else
                    {
                        ob.AppendFormat("\n\tModel: 1{0}, \"Model::{1}\", \"Mesh\" {{", m_GameObject.uniqueID, m_GameObject.m_Name);
                    }

                    ob.Append("\n\t\tVersion: 232");
                    ob.Append("\n\t\tProperties70:  {");
                    ob.Append("\n\t\t\tP: \"InheritType\", \"enum\", \"\", \"\",1");
                    ob.Append("\n\t\t\tP: \"ScalingMax\", \"Vector3D\", \"Vector\", \"\",0,0,0");
                    ob.Append("\n\t\t\tP: \"DefaultAttributeIndex\", \"int\", \"Integer\", \"\",0");

                    Transform m_Transform;
                    if (assetsfileList.TryGetTransform(m_GameObject.m_Transform, out m_Transform))
                    {
                        float[] m_EulerRotation = QuatToEuler(new float[] { m_Transform.m_LocalRotation[0], -m_Transform.m_LocalRotation[1], -m_Transform.m_LocalRotation[2], m_Transform.m_LocalRotation[3] });

                        ob.AppendFormat("\n\t\t\tP: \"Lcl Translation\", \"Lcl Translation\", \"\", \"A\",{0},{1},{2}", -m_Transform.m_LocalPosition[0], m_Transform.m_LocalPosition[1], m_Transform.m_LocalPosition[2]);
                        ob.AppendFormat("\n\t\t\tP: \"Lcl Rotation\", \"Lcl Rotation\", \"\", \"A\",{0},{1},{2}", m_EulerRotation[0], m_EulerRotation[1], m_EulerRotation[2]);//handedness is switched in quat
                        ob.AppendFormat("\n\t\t\tP: \"Lcl Scaling\", \"Lcl Scaling\", \"\", \"A\",{0},{1},{2}", m_Transform.m_LocalScale[0], m_Transform.m_LocalScale[1], m_Transform.m_LocalScale[2]);
                    }

                    //mb.Append("\n\t\t\tP: \"UDP3DSMAX\", \"KString\", \"\", \"U\", \"MapChannel:1 = UVChannel_1&cr;&lf;MapChannel:2 = UVChannel_2&cr;&lf;\"");
                    //mb.Append("\n\t\t\tP: \"MaxHandle\", \"int\", \"Integer\", \"UH\",24");
                    ob.Append("\n\t\t}");
                    ob.Append("\n\t\tShading: T");
                    ob.Append("\n\t\tCulling: \"CullingOff\"\n\t}");

                    //connect Model to parent
                    GameObject parentObject = (GameObject)m_GameObject.Parent;
                    if (GameObjects.Contains(parentObject))
                    {
                        cb.AppendFormat("\n\n\t;Model::{0}, Model::{1}", m_GameObject.m_Name, parentObject.m_Name);
                        cb.AppendFormat("\n\tC: \"OO\",1{0},1{1}", m_GameObject.uniqueID, parentObject.uniqueID);
                    }
                    else
                    {
                        cb.AppendFormat("\n\n\t;Model::{0}, Model::RootNode", m_GameObject.m_Name);
                        cb.AppendFormat("\n\tC: \"OO\",1{0},0", m_GameObject.uniqueID);
                    }


                }
                #endregion

                #region write non-skinnned Geometry
                StatusStripUpdate("Writing Geometry");
                foreach (var MeshPD in Meshes)
                {
                    Mesh m_Mesh = new Mesh(MeshPD);
                    MeshFBX(m_Mesh, MeshPD.uniqueID, ob);

                    //write data 8MB at a time
                    if (ob.Length > (8 * 0x100000))
                    { FBXwriter.Write(ob); ob.Clear(); }
                }
                #endregion

                #region write Deformer objects and skinned Geometry
                StringBuilder pb = new StringBuilder();
                //generate unique ID for BindPose
                pb.Append("\n\tPose: 5123456789, \"Pose::BIND_POSES\", \"BindPose\" {");
                pb.Append("\n\t\tType: \"BindPose\"");
                pb.Append("\n\t\tVersion: 100");
                pb.AppendFormat("\n\t\tNbPoseNodes: {0}", Skins.Count + LimbNodes.Count);

                foreach (var SkinnedMeshPD in Skins)
                {
                    SkinnedMeshRenderer m_SkinnedMeshRenderer = new SkinnedMeshRenderer(SkinnedMeshPD);

                    GameObject m_GameObject;
                    AssetPreloadData MeshPD;
                    if (assetsfileList.TryGetGameObject(m_SkinnedMeshRenderer.m_GameObject, out m_GameObject) && assetsfileList.TryGetPD(m_SkinnedMeshRenderer.m_Mesh, out MeshPD))
                    {
                        Mesh m_Mesh = new Mesh(MeshPD);
                        MeshFBX(m_Mesh, MeshPD.uniqueID, ob);
                        
                        //write data 8MB at a time
                        if (ob.Length > (8 * 0x100000))
                        { FBXwriter.Write(ob); ob.Clear(); }

                        cb2.AppendFormat("\n\n\t;Geometry::, Model::{0}", m_GameObject.m_Name);
                        cb2.AppendFormat("\n\tC: \"OO\",3{0},1{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                        
                        if ((bool)Properties.Settings.Default["exportDeformers"])
                        {
                            //add BindPose node
                            pb.Append("\n\t\tPoseNode:  {");
                            pb.AppendFormat("\n\t\t\tNode: 1{0}", m_GameObject.uniqueID);
                            //pb.Append("\n\t\t\tMatrix: *16 {");
                            //pb.Append("\n\t\t\t\ta: ");
                            //pb.Append("\n\t\t\t} ");
                            pb.Append("\n\t\t}");

                            ob.AppendFormat("\n\tCollectionExclusive: 5{0}, \"DisplayLayer::{1}\", \"DisplayLayer\" {{", SkinnedMeshPD.uniqueID, m_GameObject.m_Name);
                            ob.Append("\n\t\tProperties70:  {");
                            ob.Append("\n\t\t}");
                            ob.Append("\n\t}");

                            //connect Model to DisplayLayer
                            cb2.AppendFormat("\n\n\t;Model::{0}, DisplayLayer::", m_GameObject.m_Name);
                            cb2.AppendFormat("\n\tC: \"OO\",1{0},5{1}", m_GameObject.uniqueID, SkinnedMeshPD.uniqueID);
                            
                            //write Deformers
                            if (m_Mesh.m_Skin.Length > 0 && m_Mesh.m_BindPose.Length >= m_SkinnedMeshRenderer.m_Bones.Length)
                            {
                                //write main Skin Deformer
                                ob.AppendFormat("\n\tDeformer: 4{0}, \"Deformer::\", \"Skin\" {{", SkinnedMeshPD.uniqueID);
                                ob.Append("\n\t\tVersion: 101");
                                ob.Append("\n\t\tLink_DeformAcuracy: 50");
                                ob.Append("\n\t}"); //Deformer end

                                //connect Skin Deformer to Geometry
                                cb2.Append("\n\n\t;Deformer::, Geometry::");
                                cb2.AppendFormat("\n\tC: \"OO\",4{0},3{1}", SkinnedMeshPD.uniqueID, MeshPD.uniqueID);

                                for (int b = 0; b < m_SkinnedMeshRenderer.m_Bones.Length; b++)
                                {
                                    Transform m_Transform;
                                    if (assetsfileList.TryGetTransform(m_SkinnedMeshRenderer.m_Bones[b], out m_Transform))
                                    {
                                        GameObject m_Bone;
                                        if (assetsfileList.TryGetGameObject(m_Transform.m_GameObject, out m_Bone))
                                        {
                                            int influences = 0, ibSplit = 0, wbSplit = 0;
                                            StringBuilder ib = new StringBuilder();//indices (vertex)
                                            StringBuilder wb = new StringBuilder();//weights

                                            for (int index = 0; index < m_Mesh.m_Skin.Length; index++)
                                            {
                                                if (m_Mesh.m_Skin[index][0].weight == 0 && (m_Mesh.m_Skin[index].All(x => x.weight == 0) || //if all weights (and indicces) are 0, bone0 has full control
                                                                                             m_Mesh.m_Skin[index][1].weight > 0)) //this implies a second bone exists, so bone0 has control too (otherwise it wouldn't be the first in the series)
                                                { m_Mesh.m_Skin[index][0].weight = 1; }

                                                var influence = m_Mesh.m_Skin[index].Find(x => x.boneIndex == b && x.weight > 0);
                                                if (influence != null)
                                                {
                                                    influences++;
                                                    ib.AppendFormat("{0},", index);
                                                    wb.AppendFormat("{0},", influence.weight);

                                                    if (ib.Length - ibSplit > 2000) { ib.Append("\n"); ibSplit = ib.Length; }
                                                    if (wb.Length - wbSplit > 2000) { wb.Append("\n"); wbSplit = wb.Length; }
                                                }

                                                /*float weight;
                                                if (m_Mesh.m_Skin[index].TryGetValue(b, out weight))
                                                {
                                                    if (weight > 0)
                                                    {
                                                        influences++;
                                                        ib.AppendFormat("{0},", index);
                                                        wb.AppendFormat("{0},", weight);
                                                    }
                                                    else if (m_Mesh.m_Skin[index].Keys.Count == 1)//m_Mesh.m_Skin[index].Values.All(x => x == 0)
                                                    {
                                                        influences++;
                                                        ib.AppendFormat("{0},", index);
                                                        wb.AppendFormat("{0},", 1);
                                                    }

                                                    if (ib.Length - ibSplit > 2000) { ib.Append("\n"); ibSplit = ib.Length; }
                                                    if (wb.Length - wbSplit > 2000) { wb.Append("\n"); wbSplit = wb.Length; }
                                                }*/
                                            }
                                            if (influences > 0)
                                            {
                                                ib.Length--;//remove last comma
                                                wb.Length--;//remove last comma
                                            }

                                            //SubDeformer objects need unique IDs because 2 or more deformers can be linked to the same bone
                                            ob.AppendFormat("\n\tDeformer: 4{0}{1}, \"SubDeformer::\", \"Cluster\" {{", b, SkinnedMeshPD.uniqueID);
                                            ob.Append("\n\t\tVersion: 100");
                                            ob.Append("\n\t\tUserData: \"\", \"\"");

                                            ob.AppendFormat("\n\t\tIndexes: *{0} {{\n\t\t\ta: ", influences);
                                            ob.Append(ib);
                                            ob.Append("\n\t\t}");
                                            ib.Clear();

                                            ob.AppendFormat("\n\t\tWeights: *{0} {{\n\t\t\ta: ", influences);
                                            ob.Append(wb);
                                            ob.Append("\n\t\t}");
                                            wb.Clear();

                                            ob.Append("\n\t\tTransform: *16 {\n\t\t\ta: ");
                                            //ob.Append(string.Join(",", m_Mesh.m_BindPose[b]));
                                            var m = m_Mesh.m_BindPose[b];
                                            ob.AppendFormat("{0},{1},{2},{3},", m[0, 0], -m[1, 0], -m[2, 0], m[3, 0]);
                                            ob.AppendFormat("{0},{1},{2},{3},", -m[0, 1], m[1, 1], m[2, 1], m[3, 1]);
                                            ob.AppendFormat("{0},{1},{2},{3},", -m[0, 2], m[1, 2], m[2, 2], m[3, 2]);
                                            ob.AppendFormat("{0},{1},{2},{3},", -m[0, 3], m[1, 3], m[2, 3], m[3, 3]);
                                            ob.Append("\n\t\t}");

                                            ob.Append("\n\t}"); //SubDeformer end

                                            //connect SubDeformer to Skin Deformer
                                            cb2.Append("\n\n\t;SubDeformer::, Deformer::");
                                            cb2.AppendFormat("\n\tC: \"OO\",4{0}{1},4{1}", b, SkinnedMeshPD.uniqueID);

                                            //connect dummy Model to SubDeformer
                                            cb2.AppendFormat("\n\n\t;Model::{0}, SubDeformer::", m_Bone.m_Name);
                                            cb2.AppendFormat("\n\tC: \"OO\",1{0},4{1}{2}", m_Bone.uniqueID, b, SkinnedMeshPD.uniqueID);
                                        }
                                    }
                                }
                            }
                            else
                            {
                                bool stop = true;
                            }
                        }
                    }
                }
                
                if ((bool)Properties.Settings.Default["exportDeformers"])
                {
                    foreach (var m_Bone in LimbNodes)
                    {
                        //add BindPose node
                        pb.Append("\n\t\tPoseNode:  {");
                        pb.AppendFormat("\n\t\t\tNode: 1{0}", m_Bone.uniqueID);
                        //pb.Append("\n\t\t\tMatrix: *16 {");
                        //pb.Append("\n\t\t\t\ta: ");
                        //pb.Append("\n\t\t\t} ");
                        pb.Append("\n\t\t}");
                    }
                    pb.Append("\n\t}"); //BindPose end
                    ob.Append(pb); pb.Clear();
                }
                #endregion

                ob.Append(mb); mb.Clear();
                cb.Append(cb2); cb2.Clear();

                #region write & extract Textures
                Directory.CreateDirectory(Path.GetDirectoryName(FBXfile) + "\\Texture2D");

                foreach (var TexturePD in Textures)
                {
                    Texture2D m_Texture2D = new Texture2D(TexturePD, true);
                    
                    #region extract texture
                    string texPath = Path.GetDirectoryName(FBXfile) + "\\Texture2D\\" + TexturePD.Text;
//TODO check texture type and set path accordingly; eg. CubeMap, Texture3D
                    if (uniqueNames.Checked) { texPath += " #" + TexturePD.uniqueID; }
                    if (m_Texture2D.m_TextureFormat < 30) { texPath += ".dds"; }
                    else if (m_Texture2D.m_TextureFormat < 35) { texPath += ".pvr"; }
                    else { texPath += "_" + m_Texture2D.m_Width.ToString() + "x" + m_Texture2D.m_Height.ToString() + "." + m_Texture2D.m_TextureFormat.ToString() + ".tex"; }

                    if (File.Exists(texPath))
                    {
                        StatusStripUpdate("Texture file " + Path.GetFileName(texPath) + " already exists");
                    }
                    else
                    {
                        StatusStripUpdate("Exporting Texture2D: " + Path.GetFileName(texPath));

                        switch (m_Texture2D.m_TextureFormat)
                        {
                            case 1: //Alpha8
                            case 2: //A4R4G4B4
                            case 3: //B8G8R8 //confirmed on X360, iOS //PS3 unsure
                            case 4: //G8R8A8B8 //confirmed on X360, iOS
                            case 5: //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
                            case 7: //R5G6B5 //confirmed switched on X360; confirmed on iOS
                            case 10: //DXT1
                            case 12: //DXT5
                            case 13: //R4G4B4A4, iOS (only?)
                                WriteDDS(texPath, m_Texture2D);
                                break;
                            case 30: //PVRTC_RGB2
                            case 31: //PVRTC_RGBA2
                            case 32: //PVRTC_RGB4
                            case 33: //PVRTC_RGBA4
                            case 34: //ETC_RGB4
                                WritePVR(texPath, m_Texture2D);
                                break;
                            default:
                                {
                                    using (BinaryWriter writer = new BinaryWriter(File.Open(texPath, FileMode.Create)))
                                    {
                                        writer.Write(m_Texture2D.image_data);
                                        writer.Close();
                                    }
                                    break;
                                }
                        }
                    }
                    #endregion

                    ob.AppendFormat("\n\tTexture: 7{0}, \"Texture::{1}\", \"\" {{", TexturePD.uniqueID, TexturePD.Text);
                    ob.Append("\n\t\tType: \"TextureVideoClip\"");
                    ob.Append("\n\t\tVersion: 202");
                    ob.AppendFormat("\n\t\tTextureName: \"Texture::{0}\"", TexturePD.Text);
                    ob.Append("\n\t\tProperties70:  {");
                    ob.Append("\n\t\t\tP: \"UVSet\", \"KString\", \"\", \"\", \"UVChannel_0\"");
                    ob.Append("\n\t\t\tP: \"UseMaterial\", \"bool\", \"\", \"\",1");
                    ob.Append("\n\t\t}");
                    ob.AppendFormat("\n\t\tMedia: \"Video::{0}\"", TexturePD.Text);
                    ob.AppendFormat("\n\t\tFileName: \"{0}\"", texPath);
                    ob.AppendFormat("\n\t\tRelativeFilename: \"Texture2D\\{0}\"", Path.GetFileName(texPath));
                    ob.Append("\n\t}");

                    ob.AppendFormat("\n\tVideo: 8{0}, \"Video::{1}\", \"Clip\" {{", TexturePD.uniqueID, TexturePD.Text);
                    ob.Append("\n\t\tType: \"Clip\"");
                    ob.Append("\n\t\tProperties70:  {");
                    ob.AppendFormat("\n\t\t\tP: \"Path\", \"KString\", \"XRefUrl\", \"\", \"{0}\"", texPath);
                    ob.Append("\n\t\t}");
                    ob.AppendFormat("\n\t\tFileName: \"{0}\"", texPath);
                    ob.AppendFormat("\n\t\tRelativeFilename: \"Texture2D\\{0}\"", Path.GetFileName(texPath));
                    ob.Append("\n\t}");

                    //connect video to texture
                    cb.AppendFormat("\n\n\t;Video::{0}, Texture::{0}", TexturePD.Text);
                    cb.AppendFormat("\n\tC: \"OO\",8{0},7{1}", TexturePD.uniqueID, TexturePD.uniqueID);
                }
                #endregion

                FBXwriter.Write(ob);
                ob.Clear();
                
                cb.Append("\n}");//Connections end
                FBXwriter.Write(cb);
                cb.Clear();

                StatusStripUpdate("Finished exporting " + Path.GetFileName(FBXfile));
            }
        }
Exemplo n.º 8
0
        private void BuildAssetStrucutres()
        {
            #region first loop - read asset data & create list
            if (!dontLoadAssetsMenuItem.Checked)
            {
                assetListView.BeginUpdate();
                progressBar1.Value = 0;
                progressBar1.Maximum = totalAssetCount;

                string fileIDfmt = "D" + assetsfileList.Count.ToString().Length.ToString();

                foreach (var assetsFile in assetsfileList)
                {
                    StatusStripUpdate("Building asset list from " + Path.GetFileName(assetsFile.filePath));

                    string fileID = assetsfileList.IndexOf(assetsFile).ToString(fileIDfmt);

                    //ListViewGroup assetGroup = new ListViewGroup(Path.GetFileName(assetsFile.filePath));


                    foreach (var asset in assetsFile.preloadTable.Values)
                    {
                        asset.uniqueID = fileID + asset.uniqueID;

                        switch (asset.Type2)
                        {
                            case 1: //GameObject
                                {
                                    GameObject m_GameObject = new GameObject(asset);
                                    assetsFile.GameObjectList.Add(asset.m_PathID, m_GameObject);
                                    totalTreeNodes++;
                                    break;
                                }
                            case 4: //Transform
                                {
                                    Transform m_Transform = new Transform(asset);
                                    assetsFile.TransformList.Add(asset.m_PathID, m_Transform);
                                    break;
                                }
                            case 224: //RectTransform
                                {
                                    RectTransform m_Rect = new RectTransform(asset);
                                    assetsFile.TransformList.Add(asset.m_PathID, m_Rect.m_Transform);
                                    break;
                                }
                            //case 21: //Material
                            case 28: //Texture2D
                                {
                                    Texture2D m_Texture2D = new Texture2D(asset, false);
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 48: //Shader
                            case 49: //TextAsset
                                {
                                    TextAsset m_TextAsset = new TextAsset(asset, false);
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 83: //AudioClip
                                {
                                    AudioClip m_AudioClip = new AudioClip(asset, false);
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            //case 89: //CubeMap
                            case 128: //Font
                                {
                                    unityFont m_Font = new unityFont(asset, false);
                                    assetsFile.exportableAssets.Add(asset);
                                    break;
                                }
                            case 129: //PlayerSettings
                                {
                                    PlayerSettings plSet = new PlayerSettings(asset);
                                    productName = plSet.productName;
                                    base.Text = "Unity Studio - " + productName + " - " + assetsFile.m_Version + " - " + assetsFile.platformStr;
                                    break;
                                }
                            case 0:
                                break;

                        }

                        progressBar1.PerformStep();
                    }

                    exportableAssets.AddRange(assetsFile.exportableAssets);
                    //if (assetGroup.Items.Count > 0) { listView1.Groups.Add(assetGroup); }
                }

                if (base.Text == "Unity Studio" && assetsfileList.Count > 0)
                {
                    base.Text = "Unity Studio - no productName - " + assetsfileList[0].m_Version + " - " + assetsfileList[0].platformStr;
                }

                visibleAssets = exportableAssets;
                assetListView.VirtualListSize = visibleAssets.Count;

                //will only work if ListView is visible
                resizeAssetListColumns();

                assetListView.EndUpdate();
                progressBar1.Value = 0;
            }
            #endregion

            #region second loop - build tree structure
            if (!dontBuildHierarchyMenuItem.Checked)
            {
                sceneTreeView.BeginUpdate();
                progressBar1.Value = 0;
                progressBar1.Maximum = totalTreeNodes;

                foreach (var assetsFile in assetsfileList)
                {
                    StatusStripUpdate("Building tree structure from " + Path.GetFileName(assetsFile.filePath));
                    GameObject fileNode = new GameObject(null);
                    fileNode.Text = Path.GetFileName(assetsFile.filePath);
                    fileNode.m_Name = "RootNode";

                    foreach (var m_GameObject in assetsFile.GameObjectList.Values)
                    {
                        var parentNode = fileNode;

                        Transform m_Transform;
                        if (assetsfileList.TryGetTransform(m_GameObject.m_Transform, out m_Transform))
                        {
                            Transform m_Father;
                            if (assetsfileList.TryGetTransform(m_Transform.m_Father, out m_Father))
                            {
                                //GameObject Parent;
                                if (assetsfileList.TryGetGameObject(m_Father.m_GameObject, out parentNode))
                                {
                                    //parentNode = Parent;
                                }
                            }
                        }

                        parentNode.Nodes.Add(m_GameObject);
                        progressBar1.PerformStep();
                    }


                    if (fileNode.Nodes.Count == 0) { fileNode.Text += " (no children)"; }
                    sceneTreeView.Nodes.Add(fileNode);
                }
                sceneTreeView.EndUpdate();
                progressBar1.Value = 0;

                if (File.Exists(mainPath + "\\materials.json"))
                {
                    string matLine = "";
                    using (StreamReader reader = File.OpenText(mainPath + "\\materials.json"))
                    { matLine = reader.ReadToEnd(); }

                    jsonMats = new JavaScriptSerializer().Deserialize<Dictionary<string, Dictionary<string, string>>>(matLine);
                    //var jsonMats = new JavaScriptSerializer().DeserializeObject(matLine);
                }
            }
            #endregion

            #region build list of class strucutres
            if (buildClassStructuresMenuItem.Checked)
            {
                //group class structures by versionv
                foreach (var assetsFile in assetsfileList)
                {
                    SortedDictionary<int, ClassStrStruct> curVer;
                    if (AllClassStructures.TryGetValue(assetsFile.m_Version, out curVer))
                    {
                        foreach (var uClass in assetsFile.ClassStructures)
                        {
                            curVer[uClass.Key] = uClass.Value;
                        }
                    }
                    else { AllClassStructures.Add(assetsFile.m_Version, assetsFile.ClassStructures); }
                }

                classesListView.BeginUpdate();
                foreach (var version in AllClassStructures)
                {
                    ListViewGroup versionGroup = new ListViewGroup(version.Key);
                    classesListView.Groups.Add(versionGroup);

                    foreach (var uclass in version.Value)
                    {
                        uclass.Value.Group = versionGroup;
                        classesListView.Items.Add(uclass.Value);
                    }
                }
                classesListView.EndUpdate();
            }
            #endregion

            StatusStripUpdate("Finished loading " + assetsfileList.Count.ToString() + " files with " + (assetListView.Items.Count + sceneTreeView.Nodes.Count).ToString() + " exportable assets.");
            
            progressBar1.Value = 0;
            treeSearch.Select();
            
            saveFolderDialog1.InitialDirectory = mainPath;
        }
Exemplo n.º 9
0
        private void ExportTexture (Texture2D m_Texture2D, string exportFilename)
        {
            switch (m_Texture2D.m_TextureFormat)
            {
                #region DDS
                case 1: //Alpha8
                case 2: //A4R4G4B4
                case 3: //B8G8R8 //confirmed on X360, iOS //PS3 unsure
                case 4: //G8R8A8B8 //confirmed on X360, iOS
                case 5: //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
                case 7: //R5G6B5 //confirmed switched on X360; confirmed on iOS
                case 10: //DXT1
                case 12: //DXT5
                case 13: //R4G4B4A4, iOS (only?)
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(0x20534444);
                        writer.Write(0x7C);
                        writer.Write(m_Texture2D.dwFlags);
                        writer.Write(m_Texture2D.m_Height);
                        writer.Write(m_Texture2D.m_Width);
                        writer.Write(m_Texture2D.dwPitchOrLinearSize); //should be main tex size without mips);
                        writer.Write((int)0); //dwDepth not implemented
                        writer.Write(m_Texture2D.dwMipMapCount);
                        writer.Write(new byte[44]); //dwReserved1[11]
                        writer.Write(m_Texture2D.dwSize);
                        writer.Write(m_Texture2D.dwFlags2);
                        writer.Write(m_Texture2D.dwFourCC);
                        writer.Write(m_Texture2D.dwRGBBitCount);
                        writer.Write(m_Texture2D.dwRBitMask);
                        writer.Write(m_Texture2D.dwGBitMask);
                        writer.Write(m_Texture2D.dwBBitMask);
                        writer.Write(m_Texture2D.dwABitMask);
                        writer.Write(m_Texture2D.dwCaps);
                        writer.Write(m_Texture2D.dwCaps2);
                        writer.Write(new byte[12]); //dwCaps3&4 & dwReserved2

                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }
                    break;
                #endregion
                #region PVR
                case 30: //PVRTC_RGB2
                case 31: //PVRTC_RGBA2
                case 32: //PVRTC_RGB4
                case 33: //PVRTC_RGBA4
                case 34: //ETC_RGB4
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(m_Texture2D.pvrVersion);
                        writer.Write(m_Texture2D.pvrFlags);
                        writer.Write(m_Texture2D.pvrPixelFormat);
                        writer.Write(m_Texture2D.pvrColourSpace);
                        writer.Write(m_Texture2D.pvrChannelType);
                        writer.Write(m_Texture2D.m_Height);
                        writer.Write(m_Texture2D.m_Width);
                        writer.Write(m_Texture2D.pvrDepth);
                        writer.Write(m_Texture2D.pvrNumSurfaces);
                        writer.Write(m_Texture2D.pvrNumFaces);
                        writer.Write(m_Texture2D.dwMipMapCount);
                        writer.Write(m_Texture2D.pvrMetaDataSize);

                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }
                    break;
                #endregion
                case 28: //DXT1 Crunched
                case 29: //DXT1 Crunched
                default:
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }
                    break;
            }
        }
Exemplo n.º 10
0
        public void WriteFBX(string FBXfile, bool allNodes)
        {
            var timestamp = DateTime.Now;

            using (StreamWriter FBXwriter = new StreamWriter(FBXfile))
            {
                StringBuilder fbx = new StringBuilder();
                StringBuilder ob = new StringBuilder(); //Objects builder
                StringBuilder cb = new StringBuilder(); //Connections builder
                cb.Append("\n}\n");//Objects end
                cb.Append("\nConnections:  {");

                HashSet<AssetPreloadData> MeshList = new HashSet<AssetPreloadData>();
                HashSet<AssetPreloadData> MaterialList = new HashSet<AssetPreloadData>();
                HashSet<AssetPreloadData> TextureList = new HashSet<AssetPreloadData>();

                int ModelCount = 0;
                int GeometryCount = 0;
                int MaterialCount = 0;
                int TextureCount = 0;

                //using m_PathID as unique ID would fail because it could be a negative number (Hearthstone syndrome)
                //consider using uint
                //no, do something smarter

                #region write generic FBX data
                fbx.Append("; FBX 7.1.0 project file");
                fbx.Append("\nFBXHeaderExtension:  {\n\tFBXHeaderVersion: 1003\n\tFBXVersion: 7100\n\tCreationTimeStamp:  {\n\t\tVersion: 1000");
                fbx.Append("\n\t\tYear: " + timestamp.Year);
                fbx.Append("\n\t\tMonth: " + timestamp.Month);
                fbx.Append("\n\t\tDay: " + timestamp.Day);
                fbx.Append("\n\t\tHour: " + timestamp.Hour);
                fbx.Append("\n\t\tMinute: " + timestamp.Minute);
                fbx.Append("\n\t\tSecond: " + timestamp.Second);
                fbx.Append("\n\t\tMillisecond: " + timestamp.Millisecond);
                fbx.Append("\n\t}\n\tCreator: \"Unity Studio by Chipicao\"\n}\n");

                fbx.Append("\nGlobalSettings:  {");
                fbx.Append("\n\tVersion: 1000");
                fbx.Append("\n\tProperties70:  {");
                fbx.Append("\n\t\tP: \"UpAxis\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"UpAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"FrontAxis\", \"int\", \"Integer\", \"\",2");
                fbx.Append("\n\t\tP: \"FrontAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"CoordAxis\", \"int\", \"Integer\", \"\",0");
                fbx.Append("\n\t\tP: \"CoordAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"OriginalUpAxis\", \"int\", \"Integer\", \"\",1");
                fbx.Append("\n\t\tP: \"OriginalUpAxisSign\", \"int\", \"Integer\", \"\",1");
                fbx.AppendFormat("\n\t\tP: \"UnitScaleFactor\", \"double\", \"Number\", \"\",{0}", Properties.Settings.Default["scaleFactor"]);
                fbx.Append("\n\t\tP: \"OriginalUnitScaleFactor\", \"double\", \"Number\", \"\",1.0");
                //sb.Append("\n\t\tP: \"AmbientColor\", \"ColorRGB\", \"Color\", \"\",0,0,0");
                //sb.Append("\n\t\tP: \"DefaultCamera\", \"KString\", \"\", \"\", \"Producer Perspective\"");
                //sb.Append("\n\t\tP: \"TimeMode\", \"enum\", \"\", \"\",6");
                //sb.Append("\n\t\tP: \"TimeProtocol\", \"enum\", \"\", \"\",2");
                //sb.Append("\n\t\tP: \"SnapOnFrameMode\", \"enum\", \"\", \"\",0");
                //sb.Append("\n\t\tP: \"TimeSpanStart\", \"KTime\", \"Time\", \"\",0");
                //sb.Append("\n\t\tP: \"TimeSpanStop\", \"KTime\", \"Time\", \"\",153953860000");
                //sb.Append("\n\t\tP: \"CustomFrameRate\", \"double\", \"Number\", \"\",-1");
                //sb.Append("\n\t\tP: \"TimeMarker\", \"Compound\", \"\", \"\"");
                //sb.Append("\n\t\tP: \"CurrentTimeMarker\", \"int\", \"Integer\", \"\",-1");
                fbx.Append("\n\t}\n}\n");

                fbx.Append("\nDocuments:  {");
                fbx.Append("\n\tCount: 1");
                fbx.Append("\n\tDocument: 1234567890, \"\", \"Scene\" {");
                fbx.Append("\n\t\tProperties70:  {");
                fbx.Append("\n\t\t\tP: \"SourceObject\", \"object\", \"\", \"\"");
                fbx.Append("\n\t\t\tP: \"ActiveAnimStackName\", \"KString\", \"\", \"\", \"\"");
                fbx.Append("\n\t\t}");
                fbx.Append("\n\t\tRootNode: 0");
                fbx.Append("\n\t}\n}\n");
                fbx.Append("\nReferences:  {\n}\n");

                fbx.Append("\nDefinitions:  {");
                fbx.Append("\n\tVersion: 100");
                //fbx.AppendFormat("\n\tCount: {0}", 1 + srcModel.nodes.Count + FBXgeometryCount + srcModel.materials.Count + srcModel.usedTex.Count * 2);

                fbx.Append("\n\tObjectType: \"GlobalSettings\" {");
                fbx.Append("\n\t\tCount: 1");
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Model\" {");
                //fbx.AppendFormat("\n\t\tCount: {0}", ModelCount);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Geometry\" {");
                //fbx.AppendFormat("\n\t\tCount: {0}", GeometryCount);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Material\" {");
                //fbx.AppendFormat("\n\t\tCount: {0}", MaterialCount);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Texture\" {");
                //fbx.AppendFormat("\n\t\tCount: {0}", TextureCount);
                fbx.Append("\n\t}");

                fbx.Append("\n\tObjectType: \"Video\" {");
                //fbx.AppendFormat("\n\t\tCount: {0}", TextureCount);
                fbx.Append("\n\t}");
                fbx.Append("\n}\n");
                fbx.Append("\nObjects:  {");

                FBXwriter.Write(fbx);
                fbx.Length = 0;
                #endregion

                #region write Models, collect Mesh & Material objects
                foreach (var assetsFile in assetsfileList)
                {
                    foreach (var m_GameObject in assetsFile.GameObjectList)
                    {
                        if (m_GameObject.Checked || allNodes)
                        {
                            #region write Model and Transform
                            ob.AppendFormat("\n\tModel: {0}, \"Model::{1}\"", m_GameObject.uniqueID, m_GameObject.m_Name);

                            if (m_GameObject.m_MeshFilter != null || m_GameObject.m_SkinnedMeshRenderer != null)
                            {
                                ob.Append(", \"Mesh\" {");
                            }
                            else { ob.Append(", \"Null\" {"); }

                            ob.Append("\n\t\tVersion: 232");
                            ob.Append("\n\t\tProperties70:  {");
                            ob.Append("\n\t\t\tP: \"InheritType\", \"enum\", \"\", \"\",1");
                            ob.Append("\n\t\t\tP: \"ScalingMax\", \"Vector3D\", \"Vector\", \"\",0,0,0");
                            ob.Append("\n\t\t\tP: \"DefaultAttributeIndex\", \"int\", \"Integer\", \"\",0");

                            //connect model to parent
                            GameObject parentObject = (GameObject)m_GameObject.Parent;
                            if (parentObject.Checked || allNodes)
                            {
                                cb.AppendFormat("\n\tC: \"OO\",{0},{1}", m_GameObject.uniqueID, parentObject.uniqueID);
                                //if parentObject is a file or folder node, it will have uniqueID 0
                            }
                            else { cb.AppendFormat("\n\tC: \"OO\",{0},0", m_GameObject.uniqueID); }//connect to scene

                            Transform m_Transform;
                            if (assetsfileList.TryGetTransform(m_GameObject.m_Transform, out m_Transform))
                            {
                                float[] m_EulerRotation = QuatToEuler(new float[] { m_Transform.m_LocalRotation[0], -m_Transform.m_LocalRotation[1], -m_Transform.m_LocalRotation[2], m_Transform.m_LocalRotation[3] });

                                ob.AppendFormat("\n\t\t\tP: \"Lcl Translation\", \"Lcl Translation\", \"\", \"A\",{0},{1},{2}", -m_Transform.m_LocalPosition[0], m_Transform.m_LocalPosition[1], m_Transform.m_LocalPosition[2]);
                                ob.AppendFormat("\n\t\t\tP: \"Lcl Rotation\", \"Lcl Rotation\", \"\", \"A\",{0},{1},{2}", m_EulerRotation[0], m_EulerRotation[1], m_EulerRotation[2]);//handedness is switched in quat
                                ob.AppendFormat("\n\t\t\tP: \"Lcl Scaling\", \"Lcl Scaling\", \"\", \"A\",{0},{1},{2}", m_Transform.m_LocalScale[0], m_Transform.m_LocalScale[1], m_Transform.m_LocalScale[2]);
                            }

                            //mb.Append("\n\t\t\tP: \"UDP3DSMAX\", \"KString\", \"\", \"U\", \"MapChannel:1 = UVChannel_1&cr;&lf;MapChannel:2 = UVChannel_2&cr;&lf;\"");
                            //mb.Append("\n\t\t\tP: \"MaxHandle\", \"int\", \"Integer\", \"UH\",24");
                            ob.Append("\n\t\t}");
                            ob.Append("\n\t\tShading: T");
                            ob.Append("\n\t\tCulling: \"CullingOff\"\n\t}");
                            #endregion

                            #region get MeshFilter
                            AssetPreloadData MeshFilterPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_MeshFilter, out MeshFilterPD))
                            {
                                MeshFilter m_MeshFilter = new MeshFilter(MeshFilterPD);

                                AssetPreloadData MeshPD;
                                if (assetsfileList.TryGetPD(m_MeshFilter.m_Mesh, out MeshPD))
                                {
                                    MeshList.Add(MeshPD);//first collect meshes in unique list to use instances and avoid duplicate geometry
                                    cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                                }
                            }

                            /*if (m_GameObject.m_MeshFilter != null && m_GameObject.m_MeshFilter.m_FileID >= 0)
                            {
                                var MeshFilterAF = assetsfileList[m_GameObject.m_MeshFilter.m_FileID];
                                AssetPreloadData MeshFilterPD;
                                if (MeshFilterAF.preloadTable.TryGetValue(m_GameObject.m_MeshFilter.m_PathID, out MeshFilterPD))
                                {
                                    MeshFilter m_MeshFilter = new MeshFilter(MeshFilterPD);

                                    if (m_MeshFilter.m_Mesh.m_FileID >= 0)
                                    {
                                        var MeshAF = assetsfileList[m_MeshFilter.m_Mesh.m_FileID];
                                        AssetPreloadData MeshPD;
                                        if (MeshAF.preloadTable.TryGetValue(m_MeshFilter.m_Mesh.m_PathID, out MeshPD))
                                        {
                                            MeshList.Add(MeshPD);//first collect meshes in unique list to use instances and avoid duplicate geometry
                                            cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                                        }
                                    }
                                }
                            }*/
                            #endregion

                            #region get Renderer
                            AssetPreloadData RendererPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_Renderer, out RendererPD))
                            {
                                Renderer m_Renderer = new Renderer(RendererPD);

                                foreach (var MaterialPPtr in m_Renderer.m_Materials)
                                {
                                    AssetPreloadData MaterialPD;
                                    if (assetsfileList.TryGetPD(MaterialPPtr, out MaterialPD))
                                    {
                                        MaterialList.Add(MaterialPD);
                                        cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                    }
                                }
                            }

                            /*if (m_GameObject.m_Renderer != null && m_GameObject.m_Renderer.m_FileID >= 0)
                            {
                                var RendererAF = assetsfileList[m_GameObject.m_Renderer.m_FileID];
                                AssetPreloadData RendererPD;
                                if (RendererAF.preloadTable.TryGetValue(m_GameObject.m_Renderer.m_PathID, out RendererPD))
                                {
                                    Renderer m_Renderer = new Renderer(RendererPD);
                                    foreach (var MaterialPPtr in m_Renderer.m_Materials)
                                    {
                                        if (MaterialPPtr.m_FileID >= 0)
                                        {
                                            var MaterialAF = assetsfileList[MaterialPPtr.m_FileID];
                                            AssetPreloadData MaterialPD;
                                            if (MaterialAF.preloadTable.TryGetValue(MaterialPPtr.m_PathID, out MaterialPD))
                                            {
                                                MaterialList.Add(MaterialPD);
                                                cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                            }
                                        }
                                    }
                                }
                            }*/
                            #endregion

                            #region get SkinnedMeshRenderer
                            AssetPreloadData SkinnedMeshPD;
                            if (assetsfileList.TryGetPD(m_GameObject.m_SkinnedMeshRenderer, out SkinnedMeshPD))
                            {
                                SkinnedMeshRenderer m_SkinnedMeshRenderer = new SkinnedMeshRenderer(SkinnedMeshPD);

                                foreach (var MaterialPPtr in m_SkinnedMeshRenderer.m_Materials)
                                {
                                    AssetPreloadData MaterialPD;
                                    if (assetsfileList.TryGetPD(MaterialPPtr, out MaterialPD))
                                    {
                                        MaterialList.Add(MaterialPD);
                                        cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                    }
                                }

                                AssetPreloadData MeshPD;
                                if (assetsfileList.TryGetPD(m_SkinnedMeshRenderer.m_Mesh, out MeshPD))
                                {
                                    MeshList.Add(MeshPD);//first collect meshes in unique list to use instances and avoid duplicate geometry
                                    cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                                }
                            }

                            /*if (m_GameObject.m_SkinnedMeshRenderer != null && m_GameObject.m_SkinnedMeshRenderer.m_FileID >= 0)
                            {
                                var SkinnedMeshAF = assetsfileList[m_GameObject.m_SkinnedMeshRenderer.m_FileID];
                                AssetPreloadData SkinnedMeshPD;
                                if (SkinnedMeshAF.preloadTable.TryGetValue(m_GameObject.m_SkinnedMeshRenderer.m_PathID, out SkinnedMeshPD))
                                {
                                    SkinnedMeshRenderer m_SkinnedMeshRenderer = new SkinnedMeshRenderer(SkinnedMeshPD);

                                    foreach (var MaterialPPtr in m_SkinnedMeshRenderer.m_Materials)
                                    {
                                        if (MaterialPPtr.m_FileID >= 0)
                                        {
                                            var MaterialAF = assetsfileList[MaterialPPtr.m_FileID];
                                            AssetPreloadData MaterialPD;
                                            if (MaterialAF.preloadTable.TryGetValue(MaterialPPtr.m_PathID, out MaterialPD))
                                            {
                                                MaterialList.Add(MaterialPD);
                                                cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MaterialPD.uniqueID, m_GameObject.uniqueID);
                                            }
                                        }
                                    }

                                    if (m_SkinnedMeshRenderer.m_Mesh.m_FileID >= 0)
                                    {
                                        var MeshAF = assetsfileList[m_SkinnedMeshRenderer.m_Mesh.m_FileID];
                                        AssetPreloadData MeshPD;
                                        if (MeshAF.preloadTable.TryGetValue(m_SkinnedMeshRenderer.m_Mesh.m_PathID, out MeshPD))
                                        {
                                            MeshList.Add(MeshPD);
                                            cb.AppendFormat("\n\tC: \"OO\",{0},{1}", MeshPD.uniqueID, m_GameObject.uniqueID);
                                        }
                                    }
                                }
                            }*/
                            #endregion

                            //write data 8MB at a time
                            if (ob.Length > (8 * 0x100000))
                            {
                                FBXwriter.Write(ob);
                                ob.Length = 0;
                            }
                        }
                    }
                }
                #endregion

                #region write Geometry
                foreach (var MeshPD in MeshList)
                {
                    Mesh m_Mesh = new Mesh(MeshPD);

                    if (m_Mesh.m_VertexCount > 0)//general failsafe
                    {
                        StatusStripUpdate("Writing Geometry: " + m_Mesh.m_Name);

                        ob.AppendFormat("\n\tGeometry: {0}, \"Geometry::\", \"Mesh\" {{", MeshPD.uniqueID);
                        ob.Append("\n\t\tProperties70:  {");
                        var randomColor = RandomColorGenerator(MeshPD.uniqueID);
                        ob.AppendFormat("\n\t\t\tP: \"Color\", \"ColorRGB\", \"Color\", \"\",{0},{1},{2}", ((float)randomColor[0] / 255), ((float)randomColor[1] / 255), ((float)randomColor[2] / 255));
                        ob.Append("\n\t\t}");

                        #region Vertices
                        ob.AppendFormat("\n\t\tVertices: *{0} {{\n\t\t\ta: ", m_Mesh.m_VertexCount * 3);

                        int c = 3;//vertex components
                        //skip last value in half4 components
                        if (m_Mesh.m_Vertices.Length == m_Mesh.m_VertexCount * 4) { c++; } //haha

                        //split arrays in groups of 2040 chars
                        uint f3Lines = m_Mesh.m_VertexCount / 40;//40 verts * 3 components * 17 max chars per float including comma
                        uint remf3Verts = m_Mesh.m_VertexCount % 40;

                        uint f2Lines = m_Mesh.m_VertexCount / 60;//60 UVs * 2 components * 17 max chars per float including comma
                        uint remf2Verts = m_Mesh.m_VertexCount % 60;

                        //this is fast but line length is not optimal
                        for (int l = 0; l < f3Lines; l++)
                        {
                            for (int v = 0; v < 40; v++)
                            {
                                ob.AppendFormat("{0},{1},{2},", -m_Mesh.m_Vertices[(l * 40 + v) * c], m_Mesh.m_Vertices[(l * 40 + v) * c + 1], m_Mesh.m_Vertices[(l * 40 + v) * c + 2]);
                            }
                            ob.Append("\n");
                        }

                        if (remf3Verts != 0)
                        {
                            for (int v = 0; v < remf3Verts; v++)
                            {
                                ob.AppendFormat("{0},{1},{2},", -m_Mesh.m_Vertices[(f3Lines * 40 + v) * c], m_Mesh.m_Vertices[(f3Lines * 40 + v) * c + 1], m_Mesh.m_Vertices[(f3Lines * 40 + v) * c + 2]);
                            }
                        }
                        else { ob.Length--; }//remove last newline
                        ob.Length--;//remove last comma

                        ob.Append("\n\t\t}");
                        #endregion

                        #region Indices
                        //in order to test topology for triangles/quads we need to store submeshes and write each one as geometry, then link to Mesh Node
                        ob.AppendFormat("\n\t\tPolygonVertexIndex: *{0} {{\n\t\t\ta: ", m_Mesh.m_Indices.Count);

                        int iLines = m_Mesh.m_Indices.Count / 180;
                        int remTris = (m_Mesh.m_Indices.Count % 180) / 3;

                        for (int l = 0; l < iLines; l++)
                        {
                            for (int f = 0; f < 60; f++)
                            {
                                ob.AppendFormat("{0},{1},{2},", m_Mesh.m_Indices[l * 180 + f * 3], m_Mesh.m_Indices[l * 180 + f * 3 + 2], (-m_Mesh.m_Indices[l * 180 + f * 3 + 1] - 1));
                            }
                            ob.Append("\n");
                        }

                        if (remTris != 0)
                        {
                            for (int f = 0; f < remTris; f++)
                            {
                                ob.AppendFormat("{0},{1},{2},", m_Mesh.m_Indices[iLines * 180 + f * 3], m_Mesh.m_Indices[iLines * 180 + f * 3 + 2], (-m_Mesh.m_Indices[iLines * 180 + f * 3 + 1] - 1));
                            }
                        }
                        else { ob.Length--; }//remove last newline
                        ob.Length--;//remove last comma

                        ob.Append("\n\t\t}");
                        ob.Append("\n\t\tGeometryVersion: 124");
                        #endregion

                        #region Normals
                        if ((bool)Properties.Settings.Default["exportNormals"] && m_Mesh.m_Normals != null && m_Mesh.m_Normals.Length > 0)
                        {
                            ob.Append("\n\t\tLayerElementNormal: 0 {");
                            ob.Append("\n\t\t\tVersion: 101");
                            ob.Append("\n\t\t\tName: \"\"");
                            ob.Append("\n\t\t\tMappingInformationType: \"ByVertice\"");
                            ob.Append("\n\t\t\tReferenceInformationType: \"Direct\"");
                            ob.AppendFormat("\n\t\t\tNormals: *{0} {{\n\t\t\ta: ", (m_Mesh.m_VertexCount * 3));

                            if (m_Mesh.m_Normals.Length == m_Mesh.m_VertexCount * 3) { c = 3; }
                            else if (m_Mesh.m_Normals.Length == m_Mesh.m_VertexCount * 4) { c = 4; }

                            for (int l = 0; l < f3Lines; l++)
                            {
                                for (int v = 0; v < 40; v++)
                                {
                                    ob.AppendFormat("{0},{1},{2},", -m_Mesh.m_Normals[(l * 40 + v) * c], m_Mesh.m_Normals[(l * 40 + v) * c + 1], m_Mesh.m_Normals[(l * 40 + v) * c + 2]);
                                }
                                ob.Append("\n");
                            }

                            if (remf3Verts != 0)
                            {
                                for (int v = 0; v < remf3Verts; v++)
                                {
                                    ob.AppendFormat("{0},{1},{2},", -m_Mesh.m_Normals[(f3Lines * 40 + v) * c], m_Mesh.m_Normals[(f3Lines * 40 + v) * c + 1], m_Mesh.m_Normals[(f3Lines * 40 + v) * c + 2]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma

                            ob.Append("\n\t\t\t}\n\t\t}");
                        }
                        #endregion

                        #region Colors

                        if ((bool)Properties.Settings.Default["exportColors"] && m_Mesh.m_Colors != null && m_Mesh.m_Colors.Length > 0)
                        {
                            ob.Append("\n\t\tLayerElementColor: 0 {");
                            ob.Append("\n\t\t\tVersion: 101");
                            ob.Append("\n\t\t\tName: \"\"");
                            //ob.Append("\n\t\t\tMappingInformationType: \"ByVertice\"");
                            //ob.Append("\n\t\t\tReferenceInformationType: \"Direct\"");
                            ob.Append("\n\t\t\tMappingInformationType: \"ByPolygonVertex\"");
                            ob.Append("\n\t\t\tReferenceInformationType: \"IndexToDirect\"");
                            ob.AppendFormat("\n\t\t\tColors: *{0} {{\n\t\t\ta: ", m_Mesh.m_Colors.Length);
                            //ob.Append(string.Join(",", m_Mesh.m_Colors));

                            int cLines = m_Mesh.m_Colors.Length / 120;
                            int remCols = m_Mesh.m_Colors.Length % 120;

                            for (int l = 0; l < cLines; l++)
                            {
                                for (int i = 0; i < 120; i++)
                                {
                                    ob.AppendFormat("{0},", m_Mesh.m_Colors[l * 120 + i]);
                                }
                                ob.Append("\n");
                            }

                            if (remCols > 0)
                            {
                                for (int i = 0; i < remCols; i++)
                                {
                                    ob.AppendFormat("{0},", m_Mesh.m_Colors[cLines * 120 + i]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma

                            ob.Append("\n\t\t\t}");
                            ob.AppendFormat("\n\t\t\tColorIndex: *{0} {{\n\t\t\ta: ", m_Mesh.m_Indices.Count);

                            for (int l = 0; l < iLines; l++)
                            {
                                for (int f = 0; f < 60; f++)
                                {
                                    ob.AppendFormat("{0},{1},{2},", m_Mesh.m_Indices[l * 180 + f * 3], m_Mesh.m_Indices[l * 180 + f * 3 + 2], m_Mesh.m_Indices[l * 180 + f * 3 + 1]);
                                }
                                ob.Append("\n");
                            }

                            if (remTris != 0)
                            {
                                for (int f = 0; f < remTris; f++)
                                {
                                    ob.AppendFormat("{0},{1},{2},", m_Mesh.m_Indices[iLines * 180 + f * 3], m_Mesh.m_Indices[iLines * 180 + f * 3 + 2], m_Mesh.m_Indices[iLines * 180 + f * 3 + 1]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma

                            ob.Append("\n\t\t\t}\n\t\t}");
                        }
                        #endregion

                        #region UV
                        //does FBX support UVW coordinates?
                        if ((bool)Properties.Settings.Default["exportUVs"] && m_Mesh.m_UV1 != null && m_Mesh.m_UV1.Length > 0)
                        {
                            ob.Append("\n\t\tLayerElementUV: 0 {");
                            ob.Append("\n\t\t\tVersion: 101");
                            ob.Append("\n\t\t\tName: \"UVChannel_1\"");
                            ob.Append("\n\t\t\tMappingInformationType: \"ByVertice\"");
                            ob.Append("\n\t\t\tReferenceInformationType: \"Direct\"");
                            ob.AppendFormat("\n\t\t\tUV: *{0} {{\n\t\t\ta: ", m_Mesh.m_UV1.Length);

                            for (int l = 0; l < f2Lines; l++)
                            {
                                for (int v = 0; v < 60; v++)
                                {
                                    ob.AppendFormat("{0},{1},", m_Mesh.m_UV1[l * 120 + v * 2], 1 - m_Mesh.m_UV1[l * 120 + v * 2 + 1]);
                                }
                                ob.Append("\n");
                            }

                            if (remf2Verts != 0)
                            {
                                for (int v = 0; v < remf2Verts; v++)
                                {
                                    ob.AppendFormat("{0},{1},", m_Mesh.m_UV1[f2Lines * 120 + v * 2], 1 - m_Mesh.m_UV1[f2Lines * 120 + v * 2 + 1]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma

                            ob.Append("\n\t\t\t}\n\t\t}");
                        }

                        if ((bool)Properties.Settings.Default["exportUVs"] && m_Mesh.m_UV2 != null && m_Mesh.m_UV2.Length > 0)
                        {
                            ob.Append("\n\t\tLayerElementUV: 1 {");
                            ob.Append("\n\t\t\tVersion: 101");
                            ob.Append("\n\t\t\tName: \"UVChannel_2\"");
                            ob.Append("\n\t\t\tMappingInformationType: \"ByVertice\"");
                            ob.Append("\n\t\t\tReferenceInformationType: \"Direct\"");
                            ob.AppendFormat("\n\t\t\tUV: *{0} {{\n\t\t\ta: ", m_Mesh.m_UV2.Length);

                            for (int l = 0; l < f2Lines; l++)
                            {
                                for (int v = 0; v < 60; v++)
                                {
                                    ob.AppendFormat("{0},{1},", m_Mesh.m_UV2[l * 120 + v * 2], 1 - m_Mesh.m_UV2[l * 120 + v * 2 + 1]);
                                }
                                ob.Append("\n");
                            }

                            if (remf2Verts != 0)
                            {
                                for (int v = 0; v < remf2Verts; v++)
                                {
                                    ob.AppendFormat("{0},{1},", m_Mesh.m_UV2[f2Lines * 120 + v * 2], 1 - m_Mesh.m_UV2[f2Lines * 120 + v * 2 + 1]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma

                            ob.Append("\n\t\t\t}\n\t\t}");
                        }
                        #endregion

                        #region Material
                        ob.Append("\n\t\tLayerElementMaterial: 0 {");
                        ob.Append("\n\t\t\tVersion: 101");
                        ob.Append("\n\t\t\tName: \"\"");
                        ob.Append("\n\t\t\tMappingInformationType: \"");
                        if (m_Mesh.m_SubMeshes.Count == 1) { ob.Append("AllSame\""); }
                        else { ob.Append("ByPolygon\""); }
                        ob.Append("\n\t\t\tReferenceInformationType: \"IndexToDirect\"");
                        ob.AppendFormat("\n\t\t\tMaterials: *{0} {{", m_Mesh.m_materialIDs.Count);
                        ob.Append("\n\t\t\t\t");
                        if (m_Mesh.m_SubMeshes.Count == 1) { ob.Append("0"); }
                        else
                        {
                            int idLines = m_Mesh.m_materialIDs.Count / 500;
                            int remIds = m_Mesh.m_materialIDs.Count % 500;

                            for (int l = 0; l < idLines; l++)
                            {
                                for (int i = 0; i < 500; i++)
                                {
                                    ob.AppendFormat("{0},", m_Mesh.m_materialIDs[l * 500 + i]);
                                }
                                ob.Append("\n");
                            }

                            if (remIds != 0)
                            {
                                for (int i = 0; i < remIds; i++)
                                {
                                    ob.AppendFormat("{0},", m_Mesh.m_materialIDs[idLines * 500 + i]);
                                }
                            }
                            else { ob.Length--; }//remove last newline
                            ob.Length--;//remove last comma
                        }
                        ob.Append("\n\t\t\t}\n\t\t}");
                        #endregion

                        #region Layers
                        ob.Append("\n\t\tLayer: 0 {");
                        ob.Append("\n\t\t\tVersion: 100");
                        if ((bool)Properties.Settings.Default["exportNormals"] && m_Mesh.m_Normals != null && m_Mesh.m_Normals.Length > 0)
                        {
                            ob.Append("\n\t\t\tLayerElement:  {");
                            ob.Append("\n\t\t\t\tType: \"LayerElementNormal\"");
                            ob.Append("\n\t\t\t\tTypedIndex: 0");
                            ob.Append("\n\t\t\t}");
                        }
                        ob.Append("\n\t\t\tLayerElement:  {");
                        ob.Append("\n\t\t\t\tType: \"LayerElementMaterial\"");
                        ob.Append("\n\t\t\t\tTypedIndex: 0");
                        ob.Append("\n\t\t\t}");
                        //
                        /*ob.Append("\n\t\t\tLayerElement:  {");
                        ob.Append("\n\t\t\t\tType: \"LayerElementTexture\"");
                        ob.Append("\n\t\t\t\tTypedIndex: 0");
                        ob.Append("\n\t\t\t}");
                        ob.Append("\n\t\t\tLayerElement:  {");
                        ob.Append("\n\t\t\t\tType: \"LayerElementBumpTextures\"");
                        ob.Append("\n\t\t\t\tTypedIndex: 0");
                        ob.Append("\n\t\t\t}");*/
                        if ((bool)Properties.Settings.Default["exportColors"] && m_Mesh.m_Colors != null && m_Mesh.m_Colors.Length > 0)
                        {
                            ob.Append("\n\t\t\tLayerElement:  {");
                            ob.Append("\n\t\t\t\tType: \"LayerElementColor\"");
                            ob.Append("\n\t\t\t\tTypedIndex: 0");
                            ob.Append("\n\t\t\t}");
                        }
                        if ((bool)Properties.Settings.Default["exportUVs"] && m_Mesh.m_UV1 != null && m_Mesh.m_UV1.Length > 0)
                        {
                            ob.Append("\n\t\t\tLayerElement:  {");
                            ob.Append("\n\t\t\t\tType: \"LayerElementUV\"");
                            ob.Append("\n\t\t\t\tTypedIndex: 0");
                            ob.Append("\n\t\t\t}");
                        }
                        ob.Append("\n\t\t}"); //Layer 0 end

                        if ((bool)Properties.Settings.Default["exportUVs"] && m_Mesh.m_UV2 != null && m_Mesh.m_UV2.Length > 0)
                        {
                            ob.Append("\n\t\tLayer: 1 {");
                            ob.Append("\n\t\t\tVersion: 100");
                            ob.Append("\n\t\t\tLayerElement:  {");
                            ob.Append("\n\t\t\t\tType: \"LayerElementUV\"");
                            ob.Append("\n\t\t\t\tTypedIndex: 1");
                            ob.Append("\n\t\t\t}");
                            ob.Append("\n\t\t}"); //Layer 1 end
                        }
                        #endregion

                        ob.Append("\n\t}"); //Geometry end

                        //write data 8MB at a time
                        if (ob.Length > (8 * 0x100000))
                        {
                            FBXwriter.Write(ob);
                            ob.Length = 0;
                        }
                    }
                }
                #endregion

                #region write Materials, collect Texture objects
                StatusStripUpdate("Writing Materials");
                foreach (var MaterialPD in MaterialList)
                {
                    Material m_Material = new Material(MaterialPD);

                    ob.AppendFormat("\n\tMaterial: {0}, \"Material::{1}\", \"\" {{", MaterialPD.uniqueID, m_Material.m_Name);
                    ob.Append("\n\t\tVersion: 102");
                    ob.Append("\n\t\tShadingModel: \"phong\"");
                    ob.Append("\n\t\tMultiLayer: 0");
                    ob.Append("\n\t\tProperties70:  {");
                    ob.Append("\n\t\t\tP: \"ShadingModel\", \"KString\", \"\", \"\", \"phong\"");

                    #region write material colors
                    foreach (var m_Color in m_Material.m_Colors)
                    {
                        switch (m_Color.first)
                        {
                            case "_Color":
                            case "gSurfaceColor":
                                ob.AppendFormat("\n\t\t\tP: \"DiffuseColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            case "_SpecColor":
                                ob.AppendFormat("\n\t\t\tP: \"SpecularColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            case "_ReflectColor":
                                ob.AppendFormat("\n\t\t\tP: \"AmbientColor\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2]);
                                break;
                            default:
                                ob.AppendFormat("\n;\t\t\tP: \"{3}\", \"Color\", \"\", \"A\",{0},{1},{2}", m_Color.second[0], m_Color.second[1], m_Color.second[2], m_Color.first);//commented out
                                break;
                        }
                    }
                    #endregion

                    #region write material parameters
                    foreach (var m_Float in m_Material.m_Floats)
                    {
                        switch (m_Float.first)
                        {
                            case "_Shininess":
                                ob.AppendFormat("\n\t\t\tP: \"ShininessExponent\", \"Number\", \"\", \"A\",{0}", m_Float.second);
                                break;
                            default:
                                ob.AppendFormat("\n;\t\t\tP: \"{0}\", \"Number\", \"\", \"A\",{1}", m_Float.first, m_Float.second);
                                break;
                        }
                    }
                    #endregion

                    //ob.Append("\n\t\t\tP: \"SpecularFactor\", \"Number\", \"\", \"A\",0");
                    ob.Append("\n\t\t}");
                    ob.Append("\n\t}");

                    #region write texture connections
                    foreach (var m_TexEnv in m_Material.m_TexEnvs)
                    {
                        AssetPreloadData TexturePD;
                        if (assetsfileList.TryGetPD(m_TexEnv.m_Texture, out TexturePD))
                        {

                        }
                        else if (jsonMats != null)
                        {
                            Dictionary<string, string> matProp;
                            if (jsonMats.TryGetValue(m_Material.m_Name, out matProp))
                            {
                                string texName;
                                if (matProp.TryGetValue(m_TexEnv.name, out texName))
                                {
                                    foreach (var asset in exportableAssets)
                                    {
                                        if (asset.Type2 == 28 && asset.Text == texName)
                                        {
                                            TexturePD = asset;
                                            break;
                                        }
                                    }
                                }
                            }
                        }

                        if (TexturePD != null)
                        {
                            TextureList.Add(TexturePD);

                            cb.AppendFormat("\n\tC: \"OP\",{0},{1}, \"", TexturePD.uniqueID, MaterialPD.uniqueID);
                            switch (m_TexEnv.name)
                            {
                                case "_MainTex":
                                case "gDiffuseSampler":
                                    cb.Append("DiffuseColor\"");
                                    break;
                                case "_SpecularMap":
                                case "gSpecularSampler":
                                    cb.Append("SpecularColor\"");
                                    break;
                                case "_NormalMap":
                                case "_BumpMap":
                                case "gNormalSampler":
                                    cb.Append("NormalMap\"");
                                    break;
                                default:
                                    cb.AppendFormat("{0}\"", m_TexEnv.name);
                                    break;
                            }
                        }
                    }
                    #endregion
                }
                #endregion

                #region write & extract Textures
                Directory.CreateDirectory(Path.GetDirectoryName(FBXfile) + "\\Texture2D");

                foreach (var TexturePD in TextureList)
                {
                    Texture2D m_Texture2D = new Texture2D(TexturePD, true);

                    #region extract texture
                    string texPath = Path.GetDirectoryName(FBXfile) + "\\Texture2D\\" + TexturePD.Text;
            //TODO check texture type and set path accordingly; eg. CubeMap, Texture3D
                    if (uniqueNames.Checked) { texPath += " #" + TexturePD.uniqueID; }
                    if (m_Texture2D.m_TextureFormat < 30) { texPath += ".dds"; }
                    else if (m_Texture2D.m_TextureFormat < 35) { texPath += ".pvr"; }
                    else { texPath += "_" + m_Texture2D.m_Width.ToString() + "x" + m_Texture2D.m_Height.ToString() + "." + m_Texture2D.m_TextureFormat.ToString() + ".tex"; }

                    if (File.Exists(texPath))
                    {
                        StatusStripUpdate("Texture file " + Path.GetFileName(texPath) + " already exists");
                    }
                    else
                    {
                        StatusStripUpdate("Exporting Texture2D: " + Path.GetFileName(texPath));

                        switch (m_Texture2D.m_TextureFormat)
                        {
                            case 1: //Alpha8
                            case 2: //A4R4G4B4
                            case 3: //B8G8R8 //confirmed on X360, iOS //PS3 unsure
                            case 4: //G8R8A8B8 //confirmed on X360, iOS
                            case 5: //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
                            case 7: //R5G6B5 //confirmed switched on X360; confirmed on iOS
                            case 10: //DXT1
                            case 12: //DXT5
                            case 13: //R4G4B4A4, iOS (only?)
                                WriteDDS(texPath, m_Texture2D);
                                break;
                            case 30: //PVRTC_RGB2
                            case 31: //PVRTC_RGBA2
                            case 32: //PVRTC_RGB4
                            case 33: //PVRTC_RGBA4
                            case 34: //ETC_RGB4
                                WritePVR(texPath, m_Texture2D);
                                break;
                            default:
                                {
                                    using (BinaryWriter writer = new BinaryWriter(File.Open(texPath, FileMode.Create)))
                                    {
                                        writer.Write(m_Texture2D.image_data);
                                        writer.Close();
                                    }
                                    break;
                                }
                        }
                    }
                    #endregion

                    ob.AppendFormat("\n\tTexture: {0}, \"Texture::{1}\", \"\" {{", TexturePD.uniqueID, TexturePD.Text);
                    ob.Append("\n\t\tType: \"TextureVideoClip\"");
                    ob.Append("\n\t\tVersion: 202");
                    ob.AppendFormat("\n\t\tTextureName: \"Texture::{0}\"", TexturePD.Text);
                    ob.Append("\n\t\tProperties70:  {");
                    ob.Append("\n\t\t\tP: \"UVSet\", \"KString\", \"\", \"\", \"UVChannel_0\"");
                    ob.Append("\n\t\t\tP: \"UseMaterial\", \"bool\", \"\", \"\",1");
                    ob.Append("\n\t\t}");
                    ob.AppendFormat("\n\t\tMedia: \"Video::{0}\"", TexturePD.Text);
                    ob.AppendFormat("\n\t\tFileName: \"{0}\"", texPath);
                    ob.AppendFormat("\n\t\tRelativeFilename: \"Texture2D\\{0}\"", Path.GetFileName(texPath));
                    ob.Append("\n\t}");

                    //Video ID is prefixed by 1
                    ob.AppendFormat("\n\tVideo: 1{0}, \"Video::{1}\", \"Clip\" {{", TexturePD.uniqueID, TexturePD.Text);
                    ob.Append("\n\t\tType: \"Clip\"");
                    ob.Append("\n\t\tProperties70:  {");
                    ob.AppendFormat("\n\t\t\tP: \"Path\", \"KString\", \"XRefUrl\", \"\", \"{0}\"", texPath);
                    ob.Append("\n\t\t}");
                    ob.AppendFormat("\n\t\tFileName: \"{0}\"", texPath);
                    ob.AppendFormat("\n\t\tRelativeFilename: \"Texture2D\\{0}\"", Path.GetFileName(texPath));
                    ob.Append("\n\t}");

                    //connect video to texture
                    cb.AppendFormat("\n\tC: \"OO\",1{0},{1}", TexturePD.uniqueID, TexturePD.uniqueID);
                }
                #endregion

                FBXwriter.Write(ob);
                ob.Clear();

                cb.Append("\n}");//Connections end
                FBXwriter.Write(cb);
                cb.Clear();

                StatusStripUpdate("Finished exporting " + Path.GetFileName(FBXfile));
            }
        }
Exemplo n.º 11
0
        private void BuildAssetStrucutres()
        {
            #region first loop - read asset data & create list
            StatusStripUpdate("Building asset list...");
            assetListView.BeginUpdate();

            string fileIDfmt = "D" + assetsfileList.Count.ToString().Length.ToString();

            foreach (var assetsFile in assetsfileList)
            {
                var a_Stream = assetsFile.a_Stream;
                var fileGen = assetsFile.fileGen;
                //var m_version = assetsFile.m_version;
                var version = assetsFile.version;
                string fileID = "1" + assetsfileList.IndexOf(assetsFile).ToString(fileIDfmt);

                //ListViewGroup assetGroup = new ListViewGroup(Path.GetFileName(assetsFile.filePath));

                foreach (var asset in assetsFile.preloadTable.Values)
                {
                    asset.uniqueID = fileID + asset.uniqueID;
                    a_Stream.Position = asset.Offset;

                    switch (asset.Type2)
                    {
                        case 1: //GameObject
                            {
                                GameObject m_GameObject = new GameObject(asset);

                                //asset.Text = m_GameObject.m_Name;
                                asset.specificIndex = assetsFile.GameObjectList.Count;
                                assetsFile.GameObjectList.Add(m_GameObject);
                                break;
                            }
                        case 4: //Transform
                            {
                                Transform m_Transform = new Transform(asset);

                                asset.specificIndex = assetsFile.TransformList.Count;
                                assetsFile.TransformList.Add(m_Transform);
                                break;
                            }
                        case 224: //RectTransform
                            {
                                RectTransform m_Rect = new RectTransform(asset);

                                asset.specificIndex = assetsFile.TransformList.Count;
                                assetsFile.TransformList.Add(m_Rect.m_Transform);
                                break;
                            }
                        //case 21: //Material
                        case 28: //Texture2D
                            {
                                Texture2D m_Texture2D = new Texture2D(asset, false);

                                asset.Text = m_Texture2D.m_Name;
                                asset.exportSize = 128 + m_Texture2D.image_data_size;

                                #region Get Info Text
                                asset.InfoText = "Width: " + m_Texture2D.m_Width.ToString() + "\nHeight: " + m_Texture2D.m_Height.ToString() + "\nFormat: ";

                                switch (m_Texture2D.m_TextureFormat)
                                {
                                    case 1: asset.InfoText += "Alpha8"; break;
                                    case 2: asset.InfoText += "ARGB 4.4.4.4"; break;
                                    case 3: asset.InfoText += "BGR 8.8.8"; break;
                                    case 4: asset.InfoText += "GRAB 8.8.8.8"; break;
                                    case 5: asset.InfoText += "BGRA 8.8.8.8"; break;
                                    case 7: asset.InfoText += "RGB 5.6.5"; break;
                                    case 10: asset.InfoText += "RGB DXT1"; break;
                                    case 12: asset.InfoText += "ARGB DXT5"; break;
                                    case 13: asset.InfoText += "RGBA 4.4.4.4"; break;
                                    case 30: asset.InfoText += "PVRTC_RGB2"; asset.exportSize -= 76; break;
                                    case 31: asset.InfoText += "PVRTC_RGBA2"; asset.exportSize -= 76; break;
                                    case 32: asset.InfoText += "PVRTC_RGB4"; asset.exportSize = 52; break;
                                    case 33: asset.InfoText += "PVRTC_RGBA4"; asset.exportSize -= 76; break;
                                    case 34: asset.InfoText += "ETC_RGB4"; asset.exportSize -= 76; break;
                                    default: asset.InfoText += "unknown"; asset.exportSize -= 128; break;
                                }

                                switch (m_Texture2D.m_FilterMode)
                                {
                                    case 0: asset.InfoText += "\nFilter Mode: Point "; break;
                                    case 1: asset.InfoText += "\nFilter Mode: Bilinear "; break;
                                    case 2: asset.InfoText += "\nFilter Mode: Trilinear "; break;

                                }

                                asset.InfoText += "\nAnisotropic level: " + m_Texture2D.m_Aniso.ToString() + "\nMip map bias: " + m_Texture2D.m_MipBias.ToString();

                                switch (m_Texture2D.m_WrapMode)
                                {
                                    case 0: asset.InfoText += "\nWrap mode: Repeat"; break;
                                    case 1: asset.InfoText += "\nWrap mode: Clamp"; break;
                                }
                                #endregion

                                assetsFile.exportableAssets.Add(asset);
                                break;
                            }
                        case 49: //TextAsset
                            {
                                TextAsset m_TextAsset = new TextAsset(asset, false);

                                asset.Text = m_TextAsset.m_Name;
                                asset.exportSize = m_TextAsset.exportSize;
                                assetsFile.exportableAssets.Add(asset);
                                break;
                            }
                        case 83: //AudioClip
                            {
                                AudioClip m_AudioClip = new AudioClip(asset, false);

                                asset.Text = m_AudioClip.m_Name;
                                asset.exportSize = (int)m_AudioClip.m_Size;
                                assetsFile.exportableAssets.Add(asset);
                                break;
                            }
                        case 48: //Shader
                        case 89: //CubeMap
                        case 128: //Font
                            {
                                asset.Text = a_Stream.ReadAlignedString(a_Stream.ReadInt32());
                                assetsFile.exportableAssets.Add(asset);
                                break;
                            }
                        case 129: //PlayerSettings
                            {
                                PlayerSettings plSet = new PlayerSettings(asset);
                                productName = plSet.productName;
                                base.Text = "Unity Studio - " + productName + " - " + assetsFile.m_Version ;
                                break;
                            }

                    }

                    if (asset.Text == "") { asset.Text = asset.TypeString + " #" + asset.uniqueID; }
                    asset.SubItems.AddRange(new string[] { asset.TypeString, asset.exportSize.ToString() });
                }

                exportableAssets.AddRange(assetsFile.exportableAssets);
                //if (assetGroup.Items.Count > 0) { listView1.Groups.Add(assetGroup); }
            }

            visibleAssets = exportableAssets;
            assetListView.VirtualListSize = visibleAssets.Count;

            assetListView.AutoResizeColumn(1, ColumnHeaderAutoResizeStyle.ColumnContent);
            assetListView.AutoResizeColumn(2, ColumnHeaderAutoResizeStyle.ColumnContent);
            resizeNameColumn();

            assetListView.EndUpdate();
            #endregion

            #region second loop - build tree structure
            StatusStripUpdate("Building tree structure...");
            sceneTreeView.BeginUpdate();
            foreach (var assetsFile in assetsfileList)
            {
                GameObject fileNode = new GameObject(null);
                fileNode.Text = Path.GetFileName(assetsFile.filePath);

                foreach (var m_GameObject in assetsFile.GameObjectList)
                {
                    var parentNode = fileNode;

                    Transform m_Transform;
                    if (assetsfileList.TryGetTransform(m_GameObject.m_Transform, out m_Transform))
                    {
                        Transform m_Father;
                        if (assetsfileList.TryGetTransform(m_Transform.m_Father, out m_Father))
                        {
                            //GameObject Parent;
                            if (assetsfileList.TryGetGameObject(m_Father.m_GameObject, out parentNode))
                            {
                                //parentNode = Parent;
                            }
                        }
                    }

                    parentNode.Nodes.Add(m_GameObject);
                }

                if (fileNode.Nodes.Count == 0) { fileNode.Text += " (no children)"; }
                sceneTreeView.Nodes.Add(fileNode);
            }
            sceneTreeView.EndUpdate();
            #endregion

            if (File.Exists(mainPath + "\\materials.json"))
            {
                string matLine = "";
                using (StreamReader reader = File.OpenText(mainPath + "\\materials.json"))
                { matLine = reader.ReadToEnd(); }

                jsonMats = new JavaScriptSerializer().Deserialize<Dictionary<string, Dictionary<string, string>>>(matLine);
                //var jsonMats = new JavaScriptSerializer().DeserializeObject(matLine);
            }

            StatusStripUpdate("Finished loading " + assetsfileList.Count.ToString() + " files with " + (assetListView.Items.Count + sceneTreeView.Nodes.Count).ToString() + " exportable assets.");

            progressBar1.Value = 0;
            treeSearch.Select();
            TexEnv dsd = new TexEnv();
        }
Exemplo n.º 12
0
        private void ExportTexture(Texture2D m_Texture2D, string exportFilename)
        {
            switch (m_Texture2D.m_TextureFormat)
            {
                #region DDS
                case 1: //Alpha8
                case 2: //A4R4G4B4
                case 3: //B8G8R8 //confirmed on X360, iOS //PS3 unsure
                case 4: //G8R8A8B8 //confirmed on X360, iOS
                case 5: //B8G8R8A8 //confirmed on X360, PS3, Web, iOS
                case 7: //R5G6B5 //confirmed switched on X360; confirmed on iOS
                case 10: //DXT1
                case 12: //DXT5
                case 13: //R4G4B4A4, iOS (only?)
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(0x20534444);
                        writer.Write(0x7C);
                        writer.Write(m_Texture2D.dwFlags);
                        writer.Write(m_Texture2D.m_Height);
                        writer.Write(m_Texture2D.m_Width);
                        writer.Write(m_Texture2D.dwPitchOrLinearSize); //should be main tex size without mips);
                        writer.Write((int)0); //dwDepth not implemented
                        writer.Write(m_Texture2D.dwMipMapCount);
                        writer.Write(new byte[44]); //dwReserved1[11]
                        writer.Write(m_Texture2D.dwSize);
                        writer.Write(m_Texture2D.dwFlags2);
                        writer.Write(m_Texture2D.dwFourCC);
                        writer.Write(m_Texture2D.dwRGBBitCount);
                        writer.Write(m_Texture2D.dwRBitMask);
                        writer.Write(m_Texture2D.dwGBitMask);
                        writer.Write(m_Texture2D.dwBBitMask);
                        writer.Write(m_Texture2D.dwABitMask);
                        writer.Write(m_Texture2D.dwCaps);
                        writer.Write(m_Texture2D.dwCaps2);
                        writer.Write(new byte[12]); //dwCaps3&4 & dwReserved2

                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }

                    try
                    {
                        Il.ilInit();
                        Ilu.iluInit();
                        Il.ilLoad(Il.IL_DDS, exportFilename);
                        Ilu.iluFlipImage();
                        Il.ilSave(Il.IL_PNG, exportFilename.Replace(".dds", ".png"));
                        //File.Delete(exportFilename);
                    }
                    catch { }

                    break;
                #endregion
                #region PVR
                case 30: //PVRTC_RGB2
                case 31: //PVRTC_RGBA2
                case 32: //PVRTC_RGB4
                case 33: //PVRTC_RGBA4
                case 34: //ETC_RGB4
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(m_Texture2D.pvrVersion);
                        writer.Write(m_Texture2D.pvrFlags);
                        writer.Write(m_Texture2D.pvrPixelFormat);
                        writer.Write(m_Texture2D.pvrColourSpace);
                        writer.Write(m_Texture2D.pvrChannelType);
                        writer.Write(m_Texture2D.m_Height);
                        writer.Write(m_Texture2D.m_Width);
                        writer.Write(m_Texture2D.pvrDepth);
                        writer.Write(m_Texture2D.pvrNumSurfaces);
                        writer.Write(m_Texture2D.pvrNumFaces);
                        writer.Write(m_Texture2D.dwMipMapCount);
                        writer.Write(m_Texture2D.pvrMetaDataSize);

                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }

                    //PVRTexLibNET.PVRTexture.CreateTexture(exportFilename);
                    pvrtextool.StartInfo.FileName = Path.Combine(Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().Location), "PVRTexToolCLI.exe");
                    pvrtextool.StartInfo.Arguments = "-i " + exportFilename + " -o temp.pvr -f RGBG8888 -d";
                    pvrtextool.StartInfo.UseShellExecute = false;
                    pvrtextool.StartInfo.CreateNoWindow = true;
                    string workingDirectory = Path.GetDirectoryName(exportFilename);
                    pvrtextool.StartInfo.WorkingDirectory = workingDirectory;
                    pvrtextool.Start();
                    pvrtextool.WaitForExit();
                    File.Delete(workingDirectory + Path.DirectorySeparatorChar + "temp.pvr");
                    //File.Delete(exportFilename);

                    break;
                #endregion
                case 28: //DXT1 Crunched
                case 29: //DXT1 Crunched
                default:
                    using (BinaryWriter writer = new BinaryWriter(File.Open(exportFilename, FileMode.Create)))
                    {
                        writer.Write(m_Texture2D.image_data);
                        writer.Close();
                    }
                    break;
            }
        }