//! \file ImageTINK.cs //! \date Fri Jun 17 18:49:04 2016 //! \brief Tinker Bell encrypted image file. // // Copyright (C) 2016-2017 by morkt // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. // using System; using System.Collections.Generic; using System.IO; using System.Windows.Media; using System.Windows.Media.Imaging; namespace GameRes.Formats.Cyberworks { public enum AImageHeader { Flags = 0, Field1 = 1, Field2 = 2, Height = 3, Width = 4, UnpackedSize = 5, AlphaSize = 6, BitsSize = 7, Ignored = Field1, } internal sealed class AImageReader : IImageDecoder { readonly ImageMetaData m_info = new ImageMetaData(); IBinaryStream m_input; byte[] m_output; AImageScheme m_scheme; ImageData m_image; int[] m_header; int m_type; public Stream Source { get { m_input.Position = 0; return m_input.AsStream; } } public ImageFormat SourceFormat { get { return null; } } public ImageMetaData Info { get { return m_info; } } public byte[] Baseline { get; set; } public int Type { get { return m_type; } } public ImageData Image { get { if (null == m_image) { Unpack(); int stride = (int)Info.Width * Info.BPP / 8; if (m_scheme.Flipped) m_image = ImageData.CreateFlipped (Info, GetPixelFormat(), null, Data, stride); else m_image = ImageData.Create (Info, GetPixelFormat(), null, Data, stride); } return m_image; } } public byte[] Data { get { return m_output; } } public AImageReader (IBinaryStream input, AImageScheme scheme, int type = 'a') { m_input = input; m_scheme = scheme; m_type = type; } internal int[] ReadHeader () { if (m_header != null) return m_header; int header_length = Math.Max (8, m_scheme.HeaderOrder.Length); m_header = new int[header_length]; for (int i = 0; i < m_scheme.HeaderOrder.Length; ++i) { int b = GetInt(); m_header[m_scheme.HeaderOrder[i]] = b; } Info.Width = (uint)m_header[4]; Info.Height = (uint)m_header[3]; return m_header; } /// /// Search archive for baseline image. /// internal void ReadBaseline (BellArchive arc, Entry entry) { var header = ReadHeader(); if (!((header[0] & 1) == 1 && 'd' == this.Type || header[0] == 1 && 'a' == this.Type)) return; var scheme = arc.Scheme; var dir = (List)arc.Dir; int i = dir.IndexOf (entry); while (--i >= 0 && "image" == dir[i].Type) { using (var input = arc.OpenEntry (dir[i])) { int type = input.ReadByte(); if ('d' == type) continue; if ('a' == type) { int id = input.ReadByte(); if (id != scheme.Value2) break; using (var bin = new BinaryStream (input, dir[i].Name)) using (var base_image = new AImageReader (bin, scheme)) { var base_header = base_image.ReadHeader(); if (1 == base_header[0]) continue; // check if image width/height are the same if (base_header[3] == header[3] && base_header[4] == header[4]) { base_image.Unpack(); Baseline = base_image.Data; } } } else if ('b' == type || 'c' == type) { var size_buf = new byte[4]; input.Read (size_buf, 0 , 4); var decoder = new PngBitmapDecoder (input, BitmapCreateOptions.None, BitmapCacheOption.OnLoad); BitmapSource frame = decoder.Frames[0]; Info.Width = (uint)frame.PixelWidth; Info.Height = (uint)frame.PixelHeight; if (frame.Format.BitsPerPixel != 32) frame = new FormatConvertedBitmap (frame, PixelFormats.Bgra32, null, 0); int stride = frame.PixelWidth * 4; var pixels = new byte[stride * frame.PixelHeight]; frame.CopyPixels (pixels, stride, 0); Baseline = pixels; } break; } } } public void Unpack () { var header = ReadHeader(); if (0 == Info.Width || Info.Width >= 0x8000 || 0 == Info.Height || Info.Height >= 0x8000) throw new InvalidFormatException(); int unpacked_size = header[5]; if (unpacked_size <= 0) throw new InvalidFormatException(); int flags = header[0]; int bits_size = header[7]; int data_offset = bits_size * 2; if (0 == flags) CopyV0 (unpacked_size); else if (2 == (flags & 6)) UnpackV2 (bits_size, data_offset); else if (6 == (flags & 6)) { if (0 == bits_size) CopyV6 (unpacked_size, header[6]); else if (1 == (flags & 1) && 'd' == m_type && Baseline != null) UnpackV6d (bits_size, bits_size + header[6]); else UnpackV6 (bits_size, data_offset, data_offset + header[6]); } else if (0 == bits_size) CopyV0 (unpacked_size); else UnpackV1 (bits_size, unpacked_size); } void CopyV0 (int data_size) { int plane_size = (int)Info.Width * (int)Info.Height; if (plane_size == data_size) { Info.BPP = 8; m_output = m_input.ReadBytes (data_size); } else if (3 * plane_size == data_size) { Info.BPP = 24; m_output = m_input.ReadBytes (data_size); } else if (4 * plane_size == data_size) { Info.BPP = 32; m_output = m_input.ReadBytes (data_size); } else { Info.BPP = 24; int dst_stride = (int)Info.Width * 3; int src_stride = (dst_stride + 3) & ~3; if (src_stride * (int)Info.Height != data_size) throw new InvalidFormatException(); m_output = new byte[dst_stride * (int)Info.Height]; var gap = new byte[src_stride-dst_stride]; int dst = 0; for (uint y = 0; y < Info.Height; ++y) { m_input.Read (m_output, dst, dst_stride); m_input.Read (gap, 0, gap.Length); dst += dst_stride; } } } void UnpackV1 (int alpha_size, int rgb_size) { var alpha_map = m_input.ReadBytes (alpha_size); if (alpha_map.Length != alpha_size) throw new InvalidFormatException(); int plane_size = (int)Info.Width * (int)Info.Height; if (Baseline != null) { Info.BPP = 24; m_output = Baseline; } else { Info.BPP = 32; m_output = new byte[plane_size * 4]; } int pixel_size = Info.BPP / 8; int bit = 1; int bit_src = 0; int dst = 0; for (int i = 0; i < plane_size; ++i) { byte alpha = 0; if ((bit & alpha_map[bit_src]) != 0) { m_input.Read (m_output, dst, 3); alpha = 0xFF; } if (4 == pixel_size) m_output[dst+3] = alpha; dst += pixel_size; if (0x80 == bit) { ++bit_src; bit = 1; } else bit <<= 1; } } void UnpackV2 (int offset1, int rgb_offset) { Info.BPP = 24; var rgb_map = m_input.ReadBytes (offset1); var alpha_map = m_input.ReadBytes (rgb_offset-offset1); int plane_size = (int)Info.Width * (int)Info.Height; m_output = new byte[plane_size * 3]; int bit = 1; int bit_src = 0; int dst = 0; for (int i = 0; i < plane_size; ++i) { if ((bit & alpha_map[bit_src]) == 0 && (bit & rgb_map[bit_src]) != 0) { m_input.Read (m_output, dst, 3); } dst += 3; if (0x80 == bit) { ++bit_src; bit = 1; } else bit <<= 1; } } void CopyV6 (int alpha_size, int rgb_size) { Info.BPP = 32; int plane_size = (int)Info.Width * (int)Info.Height; m_output = new byte[plane_size * 4]; int stride = ((int)Info.Width * 3 + 3) & ~3; var line = new byte[stride]; int dst = 3; for (uint y = 0; y < Info.Height; ++y) { m_input.Read (line, 0, stride); int src = 0; for (uint x = 0; x < Info.Width; ++x) { m_output[dst] = line[src]; dst += 4; src += 3; } } dst = 0; for (uint y = 0; y < Info.Height; ++y) { m_input.Read (line, 0, stride); int src = 0; for (uint x = 0; x < Info.Width; ++x) { m_output[dst ] = line[src++]; m_output[dst+1] = line[src++]; m_output[dst+2] = line[src++]; dst += 4; } } } void UnpackV6 (int offset1, int alpha_offset, int rgb_offset) { Info.BPP = 32; var rgb_map = m_input.ReadBytes (offset1); var alpha_map = m_input.ReadBytes (alpha_offset - offset1); var alpha = m_input.ReadBytes (rgb_offset - alpha_offset); int plane_size = (int)Info.Width * (int)Info.Height; m_output = new byte[plane_size * 4]; int bit = 1; int bit_src = 0; int alpha_src = 0; int dst = 0; for (int i = 0; i < plane_size; ++i) { bool has_alpha = (bit & alpha_map[bit_src]) != 0; if (has_alpha || (bit & rgb_map[bit_src]) != 0) { m_input.Read (m_output, dst, 3); if (has_alpha && alpha_src < alpha.Length) { m_output[dst+3] = alpha[alpha_src]; alpha_src += 3; } else m_output[dst+3] = 0xFF; } dst += 4; if (0x80 == bit) { ++bit_src; bit = 1; } else bit <<= 1; } } void UnpackV6d (int bits_size, int rgb_offset) { Info.BPP = 32; var rgb_map = m_input.ReadBytes (bits_size); var alpha = m_input.ReadBytes (rgb_offset - bits_size); int plane_size = Math.Min (Baseline.Length, bits_size*8); m_output = Baseline; int bit = 1; int bit_src = 0; int alpha_src = 0; int dst = 0; for (int i = 0; i < plane_size; ++i) { if ((bit & rgb_map[bit_src]) != 0) { m_input.Read (m_output, dst, 3); m_output[dst+3] = alpha[alpha_src++]; } dst += 4; bit <<= 1; if (0x100 == bit) { ++bit_src; bit = 1; } } } int GetInt () { byte a = m_input.ReadUInt8(); if (a == m_scheme.Value3) a = 0; int d = 0; int c = 0; for (;;) { byte a1 = m_input.ReadUInt8(); if (a1 == m_scheme.Value2) break; if (a1 != m_scheme.Value1) { c = (a1 == m_scheme.Value3) ? 0 : a1; } else { ++d; } } return a + (c + d * m_scheme.Value1) * m_scheme.Value1; } PixelFormat GetPixelFormat () { switch (Info.BPP) { case 8: return PixelFormats.Gray8; case 24: return PixelFormats.Bgr24; case 32: return PixelFormats.Bgra32; default: throw new InvalidFormatException(); } } #region IDisposable Members bool _disposed = false; public void Dispose () { if (!_disposed) { m_input.Dispose(); _disposed = true; } } #endregion } }