////////////////////////////////////////////////////////////////// public ImageResource(BinaryReverseReader reader) { m_osType = new string(reader.ReadChars(4)); if (m_osType != "8BIM" && m_osType != "MeSa") { throw new InvalidOperationException("Could not read an image resource"); } m_id = reader.ReadInt16(); m_name = reader.ReadPascalString(); uint settingLength = reader.ReadUInt32(); m_data = reader.ReadBytes((int)settingLength); if (reader.BaseStream.Position % 2 == 1) reader.ReadByte(); }
/////////////////////////////////////////////////////////////////////////// private void LoadLayerAndMaskInfo(BinaryReverseReader reader) { Debug.WriteLine("LoadLayerAndMaskInfo started at " + reader.BaseStream.Position.ToString()); uint layersAndMaskLength = reader.ReadUInt32(); if (layersAndMaskLength <= 0) return; long startPosition = reader.BaseStream.Position; LoadLayers(reader); LoadGlobalLayerMask(reader); //----------------------------------------------------------------------- //Debug.Assert(reader.BaseStream.Position == startPosition + layersAndMaskLength, "LoadLayerAndMaskInfo"); //----------------------------------------------------------------------- // make shure we are not on a wrong offset, so set the stream position // manually reader.BaseStream.Position = startPosition + layersAndMaskLength; }
/////////////////////////////////////////////////////////////////////////// private void LoadLayers(BinaryReverseReader reader) { Debug.WriteLine("LoadLayers started at " + reader.BaseStream.Position.ToString()); uint layersInfoSectionLength = reader.ReadUInt32(); if (layersInfoSectionLength <= 0) return; long startPosition = reader.BaseStream.Position; short numberOfLayers = reader.ReadInt16(); // If <0, then number of layers is absolute value, // and the first alpha channel contains the transparency data for // the merged result. if (numberOfLayers < 0) { AbsoluteAlpha = true; numberOfLayers = Math.Abs(numberOfLayers); } m_layers.Clear(); if (numberOfLayers == 0) return; for (int i = 0; i < numberOfLayers; i++) { m_layers.Add(new Layer(reader, this)); } foreach (Layer layer in m_layers) { foreach (Layer.Channel channel in layer.Channels) { if (channel.Id != -2) channel.LoadPixelData(reader); } layer.MaskData.LoadPixelData(reader); } //----------------------------------------------------------------------- if (reader.BaseStream.Position % 2 == 1) reader.ReadByte(); //----------------------------------------------------------------------- // make shure we are not on a wrong offset, so set the stream position // manually reader.BaseStream.Position = startPosition + layersInfoSectionLength; }
/////////////////////////////////////////////////////////////////////////// private void LoadImage(BinaryReverseReader reader) { Debug.WriteLine("LoadImage started at " + reader.BaseStream.Position.ToString()); m_imageCompression = (ImageCompression)reader.ReadInt16(); m_imageData = new byte[m_channels][]; //--------------------------------------------------------------- if (m_imageCompression == ImageCompression.Rle) { // The RLE-compressed data is proceeded by a 2-byte data count for each row in the data, // which we're going to just skip. reader.BaseStream.Position += m_rows * m_channels * 2; } //--------------------------------------------------------------- int bytesPerRow = 0; switch (m_depth) { case 1: bytesPerRow = m_columns;//NOT Shure break; case 8: bytesPerRow = m_columns; break; case 16: bytesPerRow = m_columns * 2; break; } //--------------------------------------------------------------- for (int ch = 0; ch < m_channels; ch++) { m_imageData[ch] = new byte[m_rows * bytesPerRow]; switch (m_imageCompression) { case ImageCompression.Raw: reader.Read(m_imageData[ch], 0, m_imageData[ch].Length); break; case ImageCompression.Rle: { for (int i = 0; i < m_rows; i++) { int rowIndex = i * m_columns; RleHelper.DecodedRow(reader.BaseStream, m_imageData[ch], rowIndex, bytesPerRow); } } break; default: break; } } }
/////////////////////////////////////////////////////////////////////////// private void LoadImageResources(BinaryReverseReader reader) { Debug.WriteLine("LoadImageResources started at " + reader.BaseStream.Position.ToString()); m_imageResources.Clear(); uint imgResLength = reader.ReadUInt32(); if (imgResLength <= 0) return; long startPosition = reader.BaseStream.Position; while ((reader.BaseStream.Position - startPosition) < imgResLength) { ImageResource imgRes = new ImageResource(reader); ResourceIDs resID = (ResourceIDs)imgRes.ID; switch (resID) { case ResourceIDs.ResolutionInfo: imgRes = new ResolutionInfo(imgRes); break; case ResourceIDs.Thumbnail1: case ResourceIDs.Thumbnail2: imgRes = new Thumbnail(imgRes); break; case ResourceIDs.AlphaChannelNames: imgRes = new AlphaChannels(imgRes); break; } m_imageResources.Add(imgRes); } //----------------------------------------------------------------------- // make shure we are not on a wrong offset, so set the stream position // manually reader.BaseStream.Position = startPosition + imgResLength; }
private void LoadGlobalLayerMask(BinaryReverseReader reader) { Debug.WriteLine("LoadGlobalLayerMask started at " + reader.BaseStream.Position.ToString()); uint maskLength = reader.ReadUInt32(); if (maskLength <= 0) return; GlobalLayerMaskData = reader.ReadBytes((int)maskLength); }
/////////////////////////////////////////////////////////////////////////// private void LoadHeader(BinaryReverseReader reader) { Debug.WriteLine("LoadHeader started at " + reader.BaseStream.Position.ToString()); string signature = new string(reader.ReadChars(4)); if (signature != "8BPS") throw new IOException("The given stream is not a valid PSD file"); m_version = reader.ReadInt16(); if (m_version != 1) throw new IOException("The PSD file has an unkown version"); //6 bytes reserved reader.BaseStream.Position += 6; m_channels = reader.ReadInt16(); m_rows = reader.ReadInt32(); m_columns = reader.ReadInt32(); m_depth = reader.ReadInt16(); m_colorMode = (ColorModes)reader.ReadInt16(); }
public void Load(Stream stream) { var reader = new BinaryReverseReader(stream); LoadHeader(reader); LoadColorModeData(reader); LoadImageResources(reader); LoadLayerAndMaskInfo(reader); LoadImage(reader); }
private void LoadColorModeData(BinaryReverseReader reader) { Debug.WriteLine("LoadColorModeData started at " + reader.BaseStream.Position.ToString()); uint paletteLength = reader.ReadUInt32(); if (paletteLength > 0) { ColorModeData = reader.ReadBytes((int)paletteLength); } }
public Layer(BinaryReverseReader reader, PsdFile psdFile) { Debug.WriteLine("Layer started at " + reader.BaseStream.Position.ToString()); PsdFile = psdFile; Rect = new Rectangle { Y = reader.ReadInt32(), X = reader.ReadInt32(), Height = reader.ReadInt32() - Rect.Y, Width = reader.ReadInt32() - Rect.X }; //----------------------------------------------------------------------- int numberOfChannels = reader.ReadUInt16(); _channels.Clear(); for (var channel = 0; channel < numberOfChannels; channel++) { var ch = new Channel(reader, this); _channels.Add(ch); _sortedChannels.Add(ch.Id, ch); } //----------------------------------------------------------------------- var signature = new string(reader.ReadChars(4)); if (signature != "8BIM") throw (new IOException("Layer Channelheader error!")); _blendModeKey = new string(reader.ReadChars(4)); Opacity = reader.ReadByte(); Clipping = reader.ReadByte() > 0; //----------------------------------------------------------------------- byte flags = reader.ReadByte(); _flags = new BitVector32(flags); //----------------------------------------------------------------------- reader.ReadByte(); //padding //----------------------------------------------------------------------- Debug.WriteLine("Layer extraDataSize started at " + reader.BaseStream.Position.ToString()); // this is the total size of the MaskData, the BlendingRangesData, the // Name and the AdjustmenLayerInfo uint extraDataSize = reader.ReadUInt32(); // remember the start position for calculation of the // AdjustmenLayerInfo size long extraDataStartPosition = reader.BaseStream.Position; m_maskData = new Mask(reader, this); m_blendingRangesData = new BlendingRanges(reader, this); //----------------------------------------------------------------------- long namePosition = reader.BaseStream.Position; Name = reader.ReadPascalString(); var paddingBytes = (int)((reader.BaseStream.Position - namePosition) % 4); Debug.Print("Layer {0} padding bytes after name", paddingBytes); reader.ReadBytes(paddingBytes); //----------------------------------------------------------------------- m_adjustmentInfo.Clear(); long adjustmenLayerEndPos = extraDataStartPosition + extraDataSize; while (reader.BaseStream.Position < adjustmenLayerEndPos) { try { m_adjustmentInfo.Add(new AdjusmentLayerInfo(reader, this)); } catch { reader.BaseStream.Position = adjustmenLayerEndPos; } } //----------------------------------------------------------------------- // make shure we are not on a wrong offset, so set the stream position // manually reader.BaseStream.Position = adjustmenLayerEndPos; }
internal void LoadPixelData(BinaryReverseReader reader) { Debug.WriteLine("Mask.LoadPixelData started at " + reader.BaseStream.Position.ToString()); if (m_rect.IsEmpty || m_layer.SortedChannels.ContainsKey(-2) == false) return; Channel maskChannel = m_layer.SortedChannels[-2]; maskChannel.Data = reader.ReadBytes((int)maskChannel.Length); using (BinaryReverseReader readerImg = maskChannel.DataReader) { maskChannel.ImageCompression = (ImageCompression)readerImg.ReadInt16(); int bytesPerRow = 0; switch (m_layer.PsdFile.Depth) { case 1: bytesPerRow = m_rect.Width;//NOT Shure break; case 8: bytesPerRow = m_rect.Width; break; case 16: bytesPerRow = m_rect.Width * 2; break; } maskChannel.ImageData = new byte[m_rect.Height * bytesPerRow]; // Fill Array for (int i = 0; i < maskChannel.ImageData.Length; i++) { maskChannel.ImageData[i] = 0xAB; } m_imageData = (byte[])maskChannel.ImageData.Clone(); switch (maskChannel.ImageCompression) { case ImageCompression.Raw: readerImg.Read(maskChannel.ImageData, 0, maskChannel.ImageData.Length); break; case ImageCompression.Rle: { int[] rowLenghtList = new int[m_rect.Height]; for (int i = 0; i < rowLenghtList.Length; i++) rowLenghtList[i] = readerImg.ReadInt16(); for (int i = 0; i < m_rect.Height; i++) { int rowIndex = i * m_rect.Width; RleHelper.DecodedRow(readerImg.BaseStream, maskChannel.ImageData, rowIndex, bytesPerRow); } } break; default: break; } m_imageData = (byte[])maskChannel.ImageData.Clone(); } }
/////////////////////////////////////////////////////////////////////////// internal Mask(BinaryReverseReader reader, Layer layer) { Debug.WriteLine("Mask started at " + reader.BaseStream.Position.ToString()); m_layer = layer; uint maskLength = reader.ReadUInt32(); if (maskLength <= 0) return; long startPosition = reader.BaseStream.Position; //----------------------------------------------------------------------- m_rect = new Rectangle(); m_rect.Y = reader.ReadInt32(); m_rect.X = reader.ReadInt32(); m_rect.Height = reader.ReadInt32() - m_rect.Y; m_rect.Width = reader.ReadInt32() - m_rect.X; m_defaultColor = reader.ReadByte(); //----------------------------------------------------------------------- byte flags = reader.ReadByte(); m_flags = new BitVector32(flags); //----------------------------------------------------------------------- if (maskLength == 36) { BitVector32 realFlags = new BitVector32(reader.ReadByte()); byte realUserMaskBackground = reader.ReadByte(); Rectangle rect = new Rectangle(); rect.Y = reader.ReadInt32(); rect.X = reader.ReadInt32(); rect.Height = reader.ReadInt32() - m_rect.Y; rect.Width = reader.ReadInt32() - m_rect.X; } // there is other stuff following, but we will ignore this. reader.BaseStream.Position = startPosition + maskLength; }
////////////////////////////////////////////////////////////////// internal void LoadPixelData(BinaryReverseReader reader) { Debug.WriteLine("Channel.LoadPixelData started at " + reader.BaseStream.Position.ToString()); Data = reader.ReadBytes(Length); using (var readerImg = DataReader) { ImageCompression = (ImageCompression)readerImg.ReadInt16(); var bytesPerRow = 0; switch (_layer.PsdFile.Depth) { case 1: bytesPerRow = _layer.Rect.Width;//NOT Shure break; case 8: bytesPerRow = _layer.Rect.Width; break; case 16: bytesPerRow = _layer.Rect.Width * 2; break; } ImageData = new byte[_layer.Rect.Height * bytesPerRow]; switch (ImageCompression) { case ImageCompression.Raw: readerImg.Read(ImageData, 0, ImageData.Length); break; case ImageCompression.Rle: { int[] rowLenghtList = new int[_layer.Rect.Height]; for (int i = 0; i < rowLenghtList.Length; i++) rowLenghtList[i] = readerImg.ReadInt16(); for (int i = 0; i < _layer.Rect.Height; i++) { int rowIndex = i * _layer.Rect.Width; RleHelper.DecodedRow(readerImg.BaseStream, ImageData, rowIndex, bytesPerRow); //if (rowLenghtList[i] % 2 == 1) // readerImg.ReadByte(); } } break; default: break; } } }
internal Channel(BinaryReverseReader reader, Layer layer) { Debug.WriteLine("Channel started at " + reader.BaseStream.Position); Id = reader.ReadInt16(); Length = reader.ReadInt32(); _layer = layer; }
/////////////////////////////////////////////////////////////////////////// public BlendingRanges(BinaryReverseReader reader, Layer layer) { Debug.WriteLine("BlendingRanges started at " + reader.BaseStream.Position.ToString()); m_layer = layer; int dataLength = reader.ReadInt32(); if (dataLength <= 0) return; m_data = reader.ReadBytes(dataLength); }
public AdjusmentLayerInfo(BinaryReverseReader reader, Layer layer) { Debug.WriteLine("AdjusmentLayerInfo started at " + reader.BaseStream.Position.ToString()); m_layer = layer; string signature = new string(reader.ReadChars(4)); if (signature != "8BIM") { throw new IOException("Could not read an image resource"); } m_key = new string(reader.ReadChars(4)); uint dataLength = reader.ReadUInt32(); m_data = reader.ReadBytes((int)dataLength); }