static Hues() { string path = Client.GetFilePath("hues.mul"); int index = 0; m_List = new Hue[3000]; if (path != null) { using (FileStream fs = new FileStream(path, FileMode.Open, FileAccess.Read, FileShare.Read)) { BinaryReader bin = new BinaryReader(fs); int blockCount = (int)fs.Length / 708; if (blockCount > 375) { blockCount = 375; } for (int i = 0; i < blockCount; ++i) { bin.ReadInt32(); for (int j = 0; j < 8; ++j, ++index) { m_List[index] = new Hue(index, bin); } } } } for ( ; index < 3000; ++index) { m_List[index] = new Hue(index); } }
public static unsafe Bitmap GetGump( int index, Hue hue, bool onlyHueGrayPixels ) { int length, extra; bool patched; Stream stream = m_FileIndex.Seek( index, out length, out extra, out patched ); if ( stream == null ) return null; int width = (extra >> 16) & 0xFFFF; int height = extra & 0xFFFF; if ( width <= 0 || height <= 0 ) return null; int bytesPerLine = width << 1; int bytesPerStride = (bytesPerLine + 3) & ~3; int bytesForImage = height * bytesPerStride; int pixelsPerStride = (width + 1) & ~1; int pixelsPerStrideDelta = pixelsPerStride - width; byte[] pixelBuffer = m_PixelBuffer; if ( pixelBuffer == null || pixelBuffer.Length < bytesForImage ) m_PixelBuffer = pixelBuffer = new byte[(bytesForImage + 2047) & ~2047]; byte[] streamBuffer = m_StreamBuffer; if ( streamBuffer == null || streamBuffer.Length < length ) m_StreamBuffer = streamBuffer = new byte[(length + 2047) & ~2047]; byte[] colorTable = m_ColorTable; if ( colorTable == null ) m_ColorTable = colorTable = new byte[128]; stream.Read( streamBuffer, 0, length ); fixed ( short *psHueColors = hue.Colors ) { fixed ( byte *pbStream = streamBuffer ) { fixed ( byte *pbPixels = pixelBuffer ) { fixed ( byte *pbColorTable = colorTable ) { ushort *pHueColors = (ushort *)psHueColors; ushort *pHueColorsEnd = pHueColors + 32; ushort *pColorTable = (ushort *)pbColorTable; ushort *pColorTableOpaque = pColorTable; while ( pHueColors < pHueColorsEnd ) *pColorTableOpaque++ = *pHueColors++; ushort *pPixelDataStart = (ushort *)pbPixels; int *pLookup = (int *)pbStream; int *pLookupEnd = pLookup + height; int *pPixelRleStart = pLookup; int *pPixelRle; ushort *pPixel = pPixelDataStart; ushort *pRleEnd = pPixel; ushort *pPixelEnd = pPixel + width; ushort color, count; if ( onlyHueGrayPixels ) { while ( pLookup < pLookupEnd ) { pPixelRle = pPixelRleStart + *pLookup++; pRleEnd = pPixel; while ( pPixel < pPixelEnd ) { color = *(ushort *)pPixelRle; count = *(1 + (ushort *)pPixelRle); ++pPixelRle; pRleEnd += count; if ( color != 0 && (color & 0x1F) == ((color >> 5) & 0x1F) && (color & 0x1F) == ((color >> 10) & 0x1F) ) color = pColorTable[color >> 10]; else if ( color != 0 ) color ^= 0x8000; while ( pPixel < pRleEnd ) *pPixel++ = color; } pPixel += pixelsPerStrideDelta; pPixelEnd += pixelsPerStride; } } else { while ( pLookup < pLookupEnd ) { pPixelRle = pPixelRleStart + *pLookup++; pRleEnd = pPixel; while ( pPixel < pPixelEnd ) { color = *(ushort *)pPixelRle; count = *(1 + (ushort *)pPixelRle); ++pPixelRle; pRleEnd += count; if ( color != 0 ) color = pColorTable[color >> 10]; while ( pPixel < pRleEnd ) *pPixel++ = color; } pPixel += pixelsPerStrideDelta; pPixelEnd += pixelsPerStride; } } return new Bitmap( width, height, bytesPerStride, PixelFormat.Format16bppArgb1555, (IntPtr) pPixelDataStart ); } } } } }
public static Frame[] GetAnimation(int body, int action, int direction, int hue, bool preserveHue) { if (preserveHue) { Translate(ref body); } else { Translate(ref body, ref hue); } int fileType = BodyConverter.Convert(ref body); FileIndex fileIndex; int index; switch (fileType) { default: case 1: { fileIndex = m_FileIndex; if (body < 200) { index = body * 110; } else if (body < 400) { index = 22000 + ((body - 200) * 65); } else { index = 35000 + ((body - 400) * 175); } break; } case 2: { fileIndex = m_FileIndex2; if (body < 200) { index = body * 110; } else { index = 22000 + ((body - 200) * 65); } break; } case 3: { fileIndex = m_FileIndex3; if (body < 300) { index = body * 65; } else if (body < 400) { index = 33000 + ((body - 300) * 110); } else { index = 35000 + ((body - 400) * 175); } break; } case 4: { fileIndex = m_FileIndex4; if (body < 200) { index = body * 110; } else if (body < 400) { index = 22000 + ((body - 200) * 65); } else { index = 35000 + ((body - 400) * 175); } break; } case 5: { fileIndex = m_FileIndex5; if (body < 200 && body != 34) // looks strange, though it works. { index = body * 110; } else { index = 35000 + ((body - 400) * 65); } break; } } index += action * 5; if (direction <= 4) { index += direction; } else { index += direction - (direction - 4) * 2; } int length, extra; bool patched; Stream stream = fileIndex.Seek(index, out length, out extra, out patched); if (stream == null) { return(null); } bool flip = (direction > 4); BinaryReader bin = new BinaryReader(stream); ushort[] palette = new ushort[0x100]; for (int i = 0; i < 0x100; ++i) { palette[i] = (ushort)(bin.ReadUInt16() ^ 0x8000); } int start = (int)bin.BaseStream.Position; int frameCount = bin.ReadInt32(); int[] lookups = new int[frameCount]; for (int i = 0; i < frameCount; ++i) { lookups[i] = start + bin.ReadInt32(); } bool onlyHueGrayPixels = ((hue & 0x8000) == 0); hue = (hue & 0x3FFF) - 1; Hue hueObject = null; if (hue >= 0 && hue < Hues.List.Length) { hueObject = Hues.List[hue]; } Frame[] frames = new Frame[frameCount]; for (int i = 0; i < frameCount; ++i) { bin.BaseStream.Seek(lookups[i], SeekOrigin.Begin); frames[i] = new Frame(palette, bin, flip); if (hueObject != null) { hueObject.ApplyTo(frames[i].Bitmap, onlyHueGrayPixels); } } return(frames); }
public unsafe static Bitmap GetGump(int index, Hue hue, bool onlyHueGrayPixels) { int length, extra; bool patched; Stream stream = m_FileIndex.Seek(index, out length, out extra, out patched); if (stream == null) { return(null); } int width = (extra >> 16) & 0xFFFF; int height = extra & 0xFFFF; if (width <= 0 || height <= 0) { return(null); } int bytesPerLine = width << 1; int bytesPerStride = (bytesPerLine + 3) & ~3; int bytesForImage = height * bytesPerStride; int pixelsPerStride = (width + 1) & ~1; int pixelsPerStrideDelta = pixelsPerStride - width; byte[] pixelBuffer = m_PixelBuffer; if (pixelBuffer == null || pixelBuffer.Length < bytesForImage) { m_PixelBuffer = pixelBuffer = new byte[(bytesForImage + 2047) & ~2047]; } byte[] streamBuffer = m_StreamBuffer; if (streamBuffer == null || streamBuffer.Length < length) { m_StreamBuffer = streamBuffer = new byte[(length + 2047) & ~2047]; } byte[] colorTable = m_ColorTable; if (colorTable == null) { m_ColorTable = colorTable = new byte[128]; } stream.Read(streamBuffer, 0, length); fixed(short *psHueColors = hue.Colors) { fixed(byte *pbStream = streamBuffer) { fixed(byte *pbPixels = pixelBuffer) { fixed(byte *pbColorTable = colorTable) { ushort *pHueColors = (ushort *)psHueColors; ushort *pHueColorsEnd = pHueColors + 32; ushort *pColorTable = (ushort *)pbColorTable; ushort *pColorTableOpaque = pColorTable; while (pHueColors < pHueColorsEnd) { *pColorTableOpaque++ = *pHueColors++; } ushort *pPixelDataStart = (ushort *)pbPixels; int *pLookup = (int *)pbStream; int *pLookupEnd = pLookup + height; int *pPixelRleStart = pLookup; int *pPixelRle; ushort *pPixel = pPixelDataStart; ushort *pRleEnd = pPixel; ushort *pPixelEnd = pPixel + width; ushort color, count; if (onlyHueGrayPixels) { while (pLookup < pLookupEnd) { pPixelRle = pPixelRleStart + *pLookup++; pRleEnd = pPixel; while (pPixel < pPixelEnd) { color = *(ushort *)pPixelRle; count = *(1 + (ushort *)pPixelRle); ++pPixelRle; pRleEnd += count; if (color != 0 && (color & 0x1F) == ((color >> 5) & 0x1F) && (color & 0x1F) == ((color >> 10) & 0x1F)) { color = pColorTable[color >> 10]; } else if (color != 0) { color ^= 0x8000; } while (pPixel < pRleEnd) { *pPixel++ = color; } } pPixel += pixelsPerStrideDelta; pPixelEnd += pixelsPerStride; } } else { while (pLookup < pLookupEnd) { pPixelRle = pPixelRleStart + *pLookup++; pRleEnd = pPixel; while (pPixel < pPixelEnd) { color = *(ushort *)pPixelRle; count = *(1 + (ushort *)pPixelRle); ++pPixelRle; pRleEnd += count; if (color != 0) { color = pColorTable[color >> 10]; } while (pPixel < pRleEnd) { *pPixel++ = color; } } pPixel += pixelsPerStrideDelta; pPixelEnd += pixelsPerStride; } } return(new Bitmap(width, height, bytesPerStride, PixelFormat.Format16bppArgb1555, (IntPtr)pPixelDataStart)); } } } } }
static Hues() { string path = Client.GetFilePath( "hues.mul" ); int index = 0; m_List = new Hue[3000]; if ( path != null ) { using ( FileStream fs = new FileStream( path, FileMode.Open, FileAccess.Read, FileShare.Read ) ) { BinaryReader bin = new BinaryReader( fs ); int blockCount = (int)fs.Length / 708; if ( blockCount > 375 ) blockCount = 375; for ( int i = 0; i < blockCount; ++i ) { bin.ReadInt32(); for ( int j = 0; j < 8; ++j, ++index ) m_List[index] = new Hue( index, bin ); } } } for ( ; index < 3000; ++index ) m_List[index] = new Hue( index ); }