public List <CNode> FindNodes(string name, string attributeName = null, string attributeValue = null) { if (rootNode == null) { return(new List <CNode>()); } return(rootNode.FindNodes(name, attributeName, attributeValue)); }
public void Write(CNode node) { node.attributes["height"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.height); node.attributes["width"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.width); if (node.attributes.ContainsKey("numberMipMapLevels") == true) { if ((int)header.mipMapCount - 1 >= 0) { node.attributes["numberMipMapLevels"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.mipMapCount - 1); } else { node.attributes["numberMipMapLevels"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(0); } } if (header.ddspf.rGBBitCount == 32) { node.attributes["texelFormat"].data = "ui8x4"; } else if (header.ddspf.rGBBitCount == 8) { node.attributes["texelFormat"].data = "u8"; } else { node.attributes["texelFormat"].data = Encoding.UTF8.GetString(BitConverter.GetBytes(header.ddspf.fourCC)).ToLower(); } List<CNode> textureImageBlocks = node.FindNodes("TEXTUREIMAGEBLOCK"); if (bdata2 != null && bdata2.Count > 0) { for (int i = 0; i < textureImageBlocks.Count; i++) { switch (textureImageBlocks[i].attributes["typename"].ToString()) { case "Raw": if (bdata2.ContainsKey(0) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[0]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[0].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeX": if (bdata2.ContainsKey(1) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[1]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[1].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawPositiveY": if (bdata2.ContainsKey(2) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[2]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[2].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeY": if (bdata2.ContainsKey(3) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[3]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[3].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawPositiveZ": if (bdata2.ContainsKey(4) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[4]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[4].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeZ": if (bdata2.ContainsKey(5) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[5]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[5].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; } } } else { if ((uint)node.attributes["imageBlockCount"].Value > 1) { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } textureImageBlocks[0].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata; textureImageBlocks[0].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata.Length); } }
public DDS(CNode node, bool cubePreview) { magic = 0x20534444; header.size = 124; header.flags |= DDS_HEADER.Flags.DDSD_CAPS | DDS_HEADER.Flags.DDSD_HEIGHT | DDS_HEADER.Flags.DDSD_WIDTH | DDS_HEADER.Flags.DDSD_PIXELFORMAT; header.height = (uint)(node.attributes["height"].Value); header.width = (uint)(node.attributes["width"].Value); switch ((string)node.attributes["texelFormat"].Value) { case "dxt1": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 8); header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_FOURCC; header.ddspf.fourCC = BitConverter.ToUInt32(Encoding.UTF8.GetBytes(((string)node.attributes["texelFormat"].Value).ToUpper()), 0); break; case "dxt2": case "dxt3": case "dxt4": case "dxt5": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_FOURCC; header.ddspf.fourCC = BitConverter.ToUInt32(Encoding.UTF8.GetBytes(((string)node.attributes["texelFormat"].Value).ToUpper()), 0); break; case "ui8x4": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); // is this right? header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_ALPHAPIXELS | DDS_PIXELFORMAT.Flags.DDPF_RGB; header.ddspf.fourCC = 0; header.ddspf.rGBBitCount = 32; header.ddspf.rBitMask = 0xFF0000; header.ddspf.gBitMask = 0xFF00; header.ddspf.bBitMask = 0xFF; header.ddspf.aBitMask = 0xFF000000; break; case "u8": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); // is this right? // Interchanging the commented values will both work, not sure which is better header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_LUMINANCE; //header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_ALPHA; header.ddspf.fourCC = 0; header.ddspf.rGBBitCount = 8; header.ddspf.rBitMask = 0xFF; //header.ddspf.aBitMask = 0xFF; break; } if (node.attributes.ContainsKey("automipmap") == true && node.attributes.ContainsKey("numberMipMapLevels") == true) { if ((uint)node.attributes["automipmap"].Value == 0 && (uint)node.attributes["numberMipMapLevels"].Value > 0) { header.flags |= DDS_HEADER.Flags.DDSD_MIPMAPCOUNT; header.mipMapCount = (uint)((uint)node.attributes["numberMipMapLevels"].Value + 1); header.caps |= DDS_HEADER.Caps.DDSCAPS_MIPMAP | DDS_HEADER.Caps.DDSCAPS_COMPLEX; } } header.reserved1 = new uint[11]; header.ddspf.size = 32; header.caps |= DDS_HEADER.Caps.DDSCAPS_TEXTURE; List<CNode> textureImageBlocks = node.FindNodes("TEXTUREIMAGEBLOCK"); if ((uint)node.attributes["imageBlockCount"].Value > 1) { bdata2 = new Dictionary<int, byte[]>(); for (int i = 0; i < textureImageBlocks.Count; i++) { switch (textureImageBlocks[i].attributes["typename"].ToString()) { case "Raw": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEX; bdata2.Add(0, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeX": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEX; bdata2.Add(1, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawPositiveY": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEY; bdata2.Add(2, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeY": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEY; bdata2.Add(3, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawPositiveZ": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEZ; bdata2.Add(4, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeZ": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEZ; bdata2.Add(5, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; } } if (cubePreview == true) { header.caps2 = 0; } else if (bdata2.Count == (uint)node.attributes["imageBlockCount"].Value) { header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP; header.flags = header.flags ^ DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = 0; header.caps |= DDS_HEADER.Caps.DDSCAPS_COMPLEX; } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Read)"); } } else { bdata = textureImageBlocks[0].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data; } }
public DDS(CNode node, bool cubePreview) { magic = 0x20534444; header.size = 124; header.flags |= DDS_HEADER.Flags.DDSD_CAPS | DDS_HEADER.Flags.DDSD_HEIGHT | DDS_HEADER.Flags.DDSD_WIDTH | DDS_HEADER.Flags.DDSD_PIXELFORMAT; header.height = (uint)(node.attributes["height"].Value); header.width = (uint)(node.attributes["width"].Value); switch ((string)node.attributes["texelFormat"].Value) { case "dxt1": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 8); header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_FOURCC; header.ddspf.fourCC = BitConverter.ToUInt32(Encoding.UTF8.GetBytes(((string)node.attributes["texelFormat"].Value).ToUpper()), 0); break; case "dxt2": case "dxt3": case "dxt4": case "dxt5": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_FOURCC; header.ddspf.fourCC = BitConverter.ToUInt32(Encoding.UTF8.GetBytes(((string)node.attributes["texelFormat"].Value).ToUpper()), 0); break; case "ui8x4": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); // is this right? header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_ALPHAPIXELS | DDS_PIXELFORMAT.Flags.DDPF_RGB; header.ddspf.fourCC = 0; header.ddspf.rGBBitCount = 32; header.ddspf.rBitMask = 0xFF0000; header.ddspf.gBitMask = 0xFF00; header.ddspf.bBitMask = 0xFF; header.ddspf.aBitMask = 0xFF000000; break; case "u8": header.flags |= DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = (uint)(Math.Max(1, (((uint)node.attributes["width"].Value) + 3) / 4) * 16); // is this right? // Interchanging the commented values will both work, not sure which is better header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_LUMINANCE; //header.ddspf.flags |= DDS_PIXELFORMAT.Flags.DDPF_ALPHA; header.ddspf.fourCC = 0; header.ddspf.rGBBitCount = 8; header.ddspf.rBitMask = 0xFF; //header.ddspf.aBitMask = 0xFF; break; } if (node.attributes.ContainsKey("automipmap") == true && node.attributes.ContainsKey("numberMipMapLevels") == true) { if ((uint)node.attributes["automipmap"].Value == 0 && (uint)node.attributes["numberMipMapLevels"].Value > 0) { header.flags |= DDS_HEADER.Flags.DDSD_MIPMAPCOUNT; header.mipMapCount = (uint)((uint)node.attributes["numberMipMapLevels"].Value + 1); header.caps |= DDS_HEADER.Caps.DDSCAPS_MIPMAP | DDS_HEADER.Caps.DDSCAPS_COMPLEX; } } header.reserved1 = new uint[11]; header.ddspf.size = 32; header.caps |= DDS_HEADER.Caps.DDSCAPS_TEXTURE; List <CNode> textureImageBlocks = node.FindNodes("TEXTUREIMAGEBLOCK"); if ((uint)node.attributes["imageBlockCount"].Value > 1) { bdata2 = new Dictionary <int, byte[]>(); for (int i = 0; i < textureImageBlocks.Count; i++) { switch (textureImageBlocks[i].attributes["typename"].ToString()) { case "Raw": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEX; bdata2.Add(0, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeX": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEX; bdata2.Add(1, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawPositiveY": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEY; bdata2.Add(2, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeY": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEY; bdata2.Add(3, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawPositiveZ": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_POSITIVEZ; bdata2.Add(4, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; case "RawNegativeZ": header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP_NEGATIVEZ; bdata2.Add(5, textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data); break; } } if (cubePreview == true) { header.caps2 = 0; } else if (bdata2.Count == (uint)node.attributes["imageBlockCount"].Value) { header.caps2 |= DDS_HEADER.Caps2.DDSCAPS2_CUBEMAP; header.flags = header.flags ^ DDS_HEADER.Flags.DDSD_LINEARSIZE; header.pitchOrLinearSize = 0; header.caps |= DDS_HEADER.Caps.DDSCAPS_COMPLEX; } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Read)"); } } else { bdata = textureImageBlocks[0].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data; } }
public void Write(CNode node) { node.attributes["height"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.height); node.attributes["width"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.width); if (node.attributes.ContainsKey("numberMipMapLevels") == true) { if ((int)header.mipMapCount - 1 >= 0) { node.attributes["numberMipMapLevels"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(header.mipMapCount - 1); } else { node.attributes["numberMipMapLevels"].data = MiscUtil.Conversion.EndianBitConverter.Big.GetBytes(0); } } if (header.ddspf.rGBBitCount == 32) { node.attributes["texelFormat"].data = "ui8x4"; } else if (header.ddspf.rGBBitCount == 8) { node.attributes["texelFormat"].data = "u8"; } else { node.attributes["texelFormat"].data = Encoding.UTF8.GetString(BitConverter.GetBytes(header.ddspf.fourCC)).ToLower(); } List <CNode> textureImageBlocks = node.FindNodes("TEXTUREIMAGEBLOCK"); if (bdata2 != null && bdata2.Count > 0) { for (int i = 0; i < textureImageBlocks.Count; i++) { switch (textureImageBlocks[i].attributes["typename"].ToString()) { case "Raw": if (bdata2.ContainsKey(0) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[0]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[0].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeX": if (bdata2.ContainsKey(1) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[1]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[1].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawPositiveY": if (bdata2.ContainsKey(2) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[2]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[2].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeY": if (bdata2.ContainsKey(3) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[3]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[3].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawPositiveZ": if (bdata2.ContainsKey(4) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[4]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[4].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; case "RawNegativeZ": if (bdata2.ContainsKey(5) == true) { textureImageBlocks[i].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata2[5]; textureImageBlocks[i].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata2[5].Length); } else { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } break; } } } else { if ((uint)node.attributes["imageBlockCount"].Value > 1) { throw new Exception("Loading cubemap failed because not all blocks were found. (Write)"); } textureImageBlocks[0].FindNodes("TEXTUREIMAGEBLOCKDATA")[0].data = bdata; textureImageBlocks[0].attributes["size"].data = EndianBitConverter.Big.GetBytes(bdata.Length); } }