// ========================================================== // Apple Macintosh QuickDraw/PICT Loader // // Design and implementation by // - Amir Ebrahimi (amir@unity3d.com) // // Based on PICT loading code from paintlib (http://www.paintlib.de/paintlib/). // // Paintlib License: // The paintlib source code and all documentation are copyright (c) 1996-2002 // Ulrich von Zadow and other contributors. // // The paintlib source code is supplied "AS IS". Ulrich von Zadow and other // contributors disclaim all warranties, expressed or implied, including, without // limitation, the warranties of merchantability and of fitness for any purpose. // The authors assume no liability for direct, indirect, incidental, special, // exemplary, or consequential damages, which may result from the use of paintlib, // even if advised of the possibility of such damage. // // Permission is hereby granted to use, copy, modify, and distribute this source // code, or portions hereof, for any purpose, without fee, subject to the following // restrictions: // // 1. The origin of this source code must not be misrepresented. // 2. Altered versions must be plainly marked as such and must not be misrepresented // as being the original source. // 3. This Copyright notice may not be removed or altered from any source or altered // source distribution. // 4. Executables containing paintlib or parts of it must state that the software // "contains paintlib code. paintlib is copyright (c) 1996-2002 Ulrich von Zadow // and other contributors.". This notice must be displayed in at least one place // where the copyright for the software itself is displayed. The documentation must // also contain this notice. // // Bug fixes were made to the original code to support version 2 PICT files // properly. // // Additional resources: // http://developer.apple.com/documentation/mac/QuickDraw/QuickDraw-458.html // http://www.fileformat.info/format/macpict/egff.htm // // Notes (http://lists.apple.com/archives/java-dev/2006/Apr/msg00588.html): // There are three main types of PICT files: // - Version 1 // - Version 2 // - Extended Version 2 // // Some things to look out for: // - The bounds and target DPI are stored in a different place in all three. // - Some of the values are fixed-point shorts ( short / 65536f ) // - Values are big endian // - All of this may be *preceded* by a 512 byte header--sometimes it is // there, and sometimes it isn't. You just have to check for the magic // values in both places. // // This file is part of FreeImage 3 // // COVERED CODE IS PROVIDED UNDER THIS LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTY // OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, WARRANTIES // THAT THE COVERED CODE IS FREE OF DEFECTS, MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE // OR NON-INFRINGING. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE COVERED // CODE IS WITH YOU. SHOULD ANY COVERED CODE PROVE DEFECTIVE IN ANY RESPECT, YOU (NOT // THE INITIAL DEVELOPER OR ANY OTHER CONTRIBUTOR) ASSUME THE COST OF ANY NECESSARY // SERVICING, REPAIR OR CORRECTION. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL // PART OF THIS LICENSE. NO USE OF ANY COVERED CODE IS AUTHORIZED HEREUNDER EXCEPT UNDER // THIS DISCLAIMER. // // Use at your own risk! // ========================================================== #include "FreeImage.h" #include "Utilities.h" // ========================================================== // Plugin Interface // ========================================================== static int s_format_id; static const int outputMessageSize = 256; // ========================================================== // Internal functions // ========================================================== static unsigned Read8(FreeImageIO *io, fi_handle handle) { unsigned char i = 0; io->read_proc(&i, 1, 1, handle); return i; } static unsigned Read16(FreeImageIO *io, fi_handle handle) { // reads a two-byte big-endian integer from the given file and returns its value. // assumes unsigned. unsigned hi = Read8(io, handle); unsigned lo = Read8(io, handle); return lo + (hi << 8); } static unsigned Read32(FreeImageIO *io, fi_handle handle) { // reads a four-byte big-endian integer from the given file and returns its value. // assumes unsigned. unsigned b3 = Read8(io, handle); unsigned b2 = Read8(io, handle); unsigned b1 = Read8(io, handle); unsigned b0 = Read8(io, handle); return (b3 << 24) + (b2 << 16) + (b1 << 8) + b0; } // ---------------------------------------------------------- struct OpDef { const char * name; int len; const char * description; }; // for reserved opcodes #define res(length) { "reserved", (length), "reserved for Apple use" } #define RGB_LEN 6 #define WORD_LEN -1 #define NA 0 static OpDef optable[] = { /* 0x00 */ { "NOP", 0, "nop" }, /* 0x01 */ { "Clip", NA, "clip" }, /* 0x02 */ { "BkPat", 8, "background pattern" }, /* 0x03 */ { "TxFont", 2, "text font (word)" }, /* 0x04 */ { "TxFace", 1, "text face (byte)" }, /* 0x05 */ { "TxMode", 2, "text mode (word)" }, /* 0x06 */ { "SpExtra", 4, "space extra (fixed point)" }, /* 0x07 */ { "PnSize", 4, "pen size (point)" }, /* 0x08 */ { "PnMode", 2, "pen mode (word)" }, /* 0x09 */ { "PnPat", 8, "pen pattern" }, /* 0x0a */ { "FillPat", 8, "fill pattern" }, /* 0x0b */ { "OvSize", 4, "oval size (point)" }, /* 0x0c */ { "Origin", 4, "dh, dv (word)" }, /* 0x0d */ { "TxSize", 2, "text size (word)" }, /* 0x0e */ { "FgColor", 4, "foreground color (longword)" }, /* 0x0f */ { "BkColor", 4, "background color (longword)" }, /* 0x10 */ { "TxRatio", 8, "numerator (point), denominator (point)" }, /* 0x11 */ { "Version", 1, "version (byte)" }, /* 0x12 */ { "BkPixPat", NA, "color background pattern" }, /* 0x13 */ { "PnPixPat", NA, "color pen pattern" }, /* 0x14 */ { "FillPixPat", NA, "color fill pattern" }, /* 0x15 */ { "PnLocHFrac", 2, "fractional pen position" }, /* 0x16 */ { "ChExtra", 2, "extra for each character" }, /* 0x17 */ res(0), /* 0x18 */ res(0), /* 0x19 */ res(0), /* 0x1a */ { "RGBFgCol", RGB_LEN, "RGB foreColor" }, /* 0x1b */ { "RGBBkCol", RGB_LEN, "RGB backColor" }, /* 0x1c */ { "HiliteMode", 0, "hilite mode flag" }, /* 0x1d */ { "HiliteColor", RGB_LEN, "RGB hilite color" }, /* 0x1e */ { "DefHilite", 0, "Use default hilite color" }, /* 0x1f */ { "OpColor", 6, "RGB OpColor for arithmetic modes" }, /* 0x20 */ { "Line", 8, "pnLoc (point), newPt (point)" }, /* 0x21 */ { "LineFrom", 4, "newPt (point)" }, /* 0x22 */ { "ShortLine", 6, "pnLoc (point, dh, dv (-128 .. 127))" }, /* 0x23 */ { "ShortLineFrom", 2, "dh, dv (-128 .. 127)" }, /* 0x24 */ res(WORD_LEN), /* 0x25 */ res(WORD_LEN), /* 0x26 */ res(WORD_LEN), /* 0x27 */ res(WORD_LEN), /* 0x28 */ { "LongText", NA, "txLoc (point), count (0..255), text" }, /* 0x29 */ { "DHText", NA, "dh (0..255), count (0..255), text" }, /* 0x2a */ { "DVText", NA, "dv (0..255), count (0..255), text" }, /* 0x2b */ { "DHDVText", NA, "dh, dv (0..255), count (0..255), text" }, /* 0x2c */ res(WORD_LEN), /* 0x2d */ res(WORD_LEN), /* 0x2e */ res(WORD_LEN), /* 0x2f */ res(WORD_LEN), /* 0x30 */ { "frameRect", 8, "rect" }, /* 0x31 */ { "paintRect", 8, "rect" }, /* 0x32 */ { "eraseRect", 8, "rect" }, /* 0x33 */ { "invertRect", 8, "rect" }, /* 0x34 */ { "fillRect", 8, "rect" }, /* 0x35 */ res(8), /* 0x36 */ res(8), /* 0x37 */ res(8), /* 0x38 */ { "frameSameRect", 0, "rect" }, /* 0x39 */ { "paintSameRect", 0, "rect" }, /* 0x3a */ { "eraseSameRect", 0, "rect" }, /* 0x3b */ { "invertSameRect", 0, "rect" }, /* 0x3c */ { "fillSameRect", 0, "rect" }, /* 0x3d */ res(0), /* 0x3e */ res(0), /* 0x3f */ res(0), /* 0x40 */ { "frameRRect", 8, "rect" }, /* 0x41 */ { "paintRRect", 8, "rect" }, /* 0x42 */ { "eraseRRect", 8, "rect" }, /* 0x43 */ { "invertRRect", 8, "rect" }, /* 0x44 */ { "fillRRrect", 8, "rect" }, /* 0x45 */ res(8), /* 0x46 */ res(8), /* 0x47 */ res(8), /* 0x48 */ { "frameSameRRect", 0, "rect" }, /* 0x49 */ { "paintSameRRect", 0, "rect" }, /* 0x4a */ { "eraseSameRRect", 0, "rect" }, /* 0x4b */ { "invertSameRRect", 0, "rect" }, /* 0x4c */ { "fillSameRRect", 0, "rect" }, /* 0x4d */ res(0), /* 0x4e */ res(0), /* 0x4f */ res(0), /* 0x50 */ { "frameOval", 8, "rect" }, /* 0x51 */ { "paintOval", 8, "rect" }, /* 0x52 */ { "eraseOval", 8, "rect" }, /* 0x53 */ { "invertOval", 8, "rect" }, /* 0x54 */ { "fillOval", 8, "rect" }, /* 0x55 */ res(8), /* 0x56 */ res(8), /* 0x57 */ res(8), /* 0x58 */ { "frameSameOval", 0, "rect" }, /* 0x59 */ { "paintSameOval", 0, "rect" }, /* 0x5a */ { "eraseSameOval", 0, "rect" }, /* 0x5b */ { "invertSameOval", 0, "rect" }, /* 0x5c */ { "fillSameOval", 0, "rect" }, /* 0x5d */ res(0), /* 0x5e */ res(0), /* 0x5f */ res(0), /* 0x60 */ { "frameArc", 12, "rect, startAngle, arcAngle" }, /* 0x61 */ { "paintArc", 12, "rect, startAngle, arcAngle" }, /* 0x62 */ { "eraseArc", 12, "rect, startAngle, arcAngle" }, /* 0x63 */ { "invertArc", 12, "rect, startAngle, arcAngle" }, /* 0x64 */ { "fillArc", 12, "rect, startAngle, arcAngle" }, /* 0x65 */ res(12), /* 0x66 */ res(12), /* 0x67 */ res(12), /* 0x68 */ { "frameSameArc", 4, "rect, startAngle, arcAngle" }, /* 0x69 */ { "paintSameArc", 4, "rect, startAngle, arcAngle" }, /* 0x6a */ { "eraseSameArc", 4, "rect, startAngle, arcAngle" }, /* 0x6b */ { "invertSameArc", 4, "rect, startAngle, arcAngle" }, /* 0x6c */ { "fillSameArc", 4, "rect, startAngle, arcAngle" }, /* 0x6d */ res(4), /* 0x6e */ res(4), /* 0x6f */ res(4), /* 0x70 */ { "framePoly", NA, "poly" }, /* 0x71 */ { "paintPoly", NA, "poly" }, /* 0x72 */ { "erasePoly", NA, "poly" }, /* 0x73 */ { "invertPoly", NA, "poly" }, /* 0x74 */ { "fillPoly", NA, "poly" }, /* 0x75 */ res(NA), /* 0x76 */ res(NA), /* 0x77 */ res(NA), /* 0x78 */ { "frameSamePoly", 0, "poly (NYI)" }, /* 0x79 */ { "paintSamePoly", 0, "poly (NYI)" }, /* 0x7a */ { "eraseSamePoly", 0, "poly (NYI)" }, /* 0x7b */ { "invertSamePoly", 0, "poly (NYI)" }, /* 0x7c */ { "fillSamePoly", 0, "poly (NYI)" }, /* 0x7d */ res(0), /* 0x7e */ res(0), /* 0x7f */ res(0), /* 0x80 */ { "frameRgn", NA, "region" }, /* 0x81 */ { "paintRgn", NA, "region" }, /* 0x82 */ { "eraseRgn", NA, "region" }, /* 0x83 */ { "invertRgn", NA, "region" }, /* 0x84 */ { "fillRgn", NA, "region" }, /* 0x85 */ res(NA), /* 0x86 */ res(NA), /* 0x87 */ res(NA), /* 0x88 */ { "frameSameRgn", 0, "region (NYI)" }, /* 0x89 */ { "paintSameRgn", 0, "region (NYI)" }, /* 0x8a */ { "eraseSameRgn", 0, "region (NYI)" }, /* 0x8b */ { "invertSameRgn", 0, "region (NYI)" }, /* 0x8c */ { "fillSameRgn", 0, "region (NYI)" }, /* 0x8d */ res(0), /* 0x8e */ res(0), /* 0x8f */ res(0), /* 0x90 */ { "BitsRect", NA, "copybits, rect clipped" }, /* 0x91 */ { "BitsRgn", NA, "copybits, rgn clipped" }, /* 0x92 */ res(WORD_LEN), /* 0x93 */ res(WORD_LEN), /* 0x94 */ res(WORD_LEN), /* 0x95 */ res(WORD_LEN), /* 0x96 */ res(WORD_LEN), /* 0x97 */ res(WORD_LEN), /* 0x98 */ { "PackBitsRect", NA, "packed copybits, rect clipped" }, /* 0x99 */ { "PackBitsRgn", NA, "packed copybits, rgn clipped" }, /* 0x9a */ { "Opcode_9A", NA, "the mysterious opcode 9A" }, /* 0x9b */ res(WORD_LEN), /* 0x9c */ res(WORD_LEN), /* 0x9d */ res(WORD_LEN), /* 0x9e */ res(WORD_LEN), /* 0x9f */ res(WORD_LEN), /* 0xa0 */ { "ShortComment", 2, "kind (word)" }, /* 0xa1 */ { "LongComment", NA, "kind (word), size (word), data" } }; // ---------------------------------------------------------- struct MacRect { WORD top; WORD left; WORD bottom; WORD right; }; struct MacpixMap { // Ptr baseAddr // Not used in file. // short rowBytes // read in seperatly. struct MacRect Bounds; WORD version; WORD packType; LONG packSize; LONG hRes; LONG vRes; WORD pixelType; WORD pixelSize; WORD cmpCount; WORD cmpSize; LONG planeBytes; LONG pmTable; LONG pmReserved; }; struct MacRGBColour { WORD red; WORD green; WORD blue; }; struct MacPoint { WORD x; WORD y; }; struct MacPattern // Klaube { BYTE pix[64]; }; // ---------------------------------------------------------- static void ReadRect( FreeImageIO *io, fi_handle handle, MacRect* rect ) { rect->top = Read16( io, handle ); rect->left = Read16( io, handle ); rect->bottom = Read16( io, handle ); rect->right = Read16( io, handle ); } static void ReadPixmap( FreeImageIO *io, fi_handle handle, MacpixMap* pPixMap ) { pPixMap->version = Read16( io, handle ); pPixMap->packType = Read16( io, handle ); pPixMap->packSize = Read32( io, handle ); pPixMap->hRes = Read16( io, handle ); Read16( io, handle ); pPixMap->vRes = Read16( io, handle ); Read16( io, handle ); pPixMap->pixelType = Read16( io, handle ); pPixMap->pixelSize = Read16( io, handle ); pPixMap->cmpCount = Read16( io, handle ); pPixMap->cmpSize = Read16( io, handle ); pPixMap->planeBytes = Read32( io, handle ); pPixMap->pmTable = Read32( io, handle ); pPixMap->pmReserved = Read32( io, handle ); } /** Reads a mac color table into a bitmap palette. */ static void ReadColorTable( FreeImageIO *io, fi_handle handle, WORD* pNumColors, RGBQUAD* pPal ) { LONG ctSeed; WORD ctFlags; WORD val; int i; ctSeed = Read32( io, handle ); ctFlags = Read16( io, handle ); WORD numColors = Read16( io, handle )+1; *pNumColors = numColors; for (i = 0; i < numColors; i++) { val = Read16( io, handle ); if (ctFlags & 0x8000) { // The indicies in a device colour table are bogus and // usually == 0, so I assume we allocate up the list of // colours in order. val = i; } if (val >= numColors) { throw "pixel value greater than color table size."; } // Mac colour tables contain 16-bit values for R, G, and B... pPal[val].rgbRed = ((BYTE) (((WORD) (Read16( io, handle )) >> 8) & 0xFF)); pPal[val].rgbGreen = ((BYTE) (((WORD) (Read16( io, handle )) >> 8) & 0xFF)); pPal[val].rgbBlue = ((BYTE) (((WORD) (Read16( io, handle )) >> 8) & 0xFF)); } } /** skips unneeded packbits. pixelSize == Source bits per pixel. */ static void SkipBits( FreeImageIO *io, fi_handle handle, MacRect* bounds, WORD rowBytes, int pixelSize ) { int i; WORD pixwidth; // bytes per row when uncompressed. int height = bounds->bottom - bounds->top; int width = bounds->right - bounds->left; // High bit of rowBytes is flag. if (pixelSize <= 8) { rowBytes &= 0x7fff; } pixwidth = width; if (pixelSize == 16) { pixwidth *= 2; } if (rowBytes == 0) { rowBytes = pixwidth; } if (rowBytes < 8) { io->seek_proc( handle, rowBytes*height, SEEK_CUR ); } else { for (i = 0; i < height; i++) { int lineLen; // length of source line in bytes. if (rowBytes > 250) { lineLen = Read16( io, handle ); } else { lineLen = Read8( io, handle ); } io->seek_proc( handle, lineLen, SEEK_CUR ); } } } /** Skip polygon or region */ static void SkipPolyOrRegion( FreeImageIO *io, fi_handle handle ) { WORD len = Read16( io, handle ) - 2; io->seek_proc(handle, len, SEEK_CUR); } /** Width in bytes for 8 bpp or less. Width in pixels for 16 bpp. Expands Width units to 32-bit pixel data. */ static void expandBuf( FreeImageIO *io, fi_handle handle, int width, int bpp, BYTE* dst ) { switch (bpp) { case 16: for ( int i=0; i> 5) & 31)*8; // Green dst[ FI_RGBA_RED ] = ((src >> 10) & 31)*8; // Red dst[ FI_RGBA_ALPHA ] = 0xFF; // Alpha dst += 4; } break; default: throw "Bad bits per pixel in expandBuf."; } } /** Expands Width units to 8-bit pixel data. Max. 8 bpp source format. */ static void expandBuf8( FreeImageIO *io, fi_handle handle, int width, int bpp, BYTE* dst ) { switch (bpp) { case 8: io->read_proc( dst, width, 1, handle ); break; case 4: for (int i = 0; i < width; i++) { WORD src = Read8( io, handle ); *dst = (src >> 4) & 15; *(dst+1) = (src & 15); dst += 2; } if (width & 1) { // Odd Width? WORD src = Read8( io, handle ); *dst = (src >> 4) & 15; dst++; } break; case 2: for (int i = 0; i < width; i++) { WORD src = Read8( io, handle ); *dst = (src >> 6) & 3; *(dst+1) = (src >> 4) & 3; *(dst+2) = (src >> 2) & 3; *(dst+3) = (src & 3); dst += 4; } if (width & 3) { // Check for leftover pixels for (int i = 6; i > 8 - (width & 3) * 2; i -= 2) { WORD src = Read8( io, handle ); *dst = (src >> i) & 3; dst++; } } break; case 1: for (int i = 0; i < width; i++) { WORD src = Read8( io, handle ); *dst = (src >> 7) & 1; *(dst+1) = (src >> 6) & 1; *(dst+2) = (src >> 5) & 1; *(dst+3) = (src >> 4) & 1; *(dst+4) = (src >> 3) & 1; *(dst+5) = (src >> 2) & 1; *(dst+6) = (src >> 1) & 1; *(dst+7) = (src & 1); dst += 8; } if (width & 7) { // Check for leftover pixels for (int i = 7; i > (8-width & 7); i--) { WORD src = Read8( io, handle ); *dst = (src >> i) & 1; dst++; } } break; default: throw "Bad bits per pixel in expandBuf8."; } } static BYTE* UnpackPictRow( FreeImageIO *io, fi_handle handle, BYTE* pLineBuf, int width, int rowBytes, int srcBytes ) { if (rowBytes < 8) { // Ah-ha! The bits aren't actually packed. This will be easy. io->read_proc( pLineBuf, rowBytes, 1, handle ); } else { BYTE* pCurPixel = pLineBuf; // Unpack RLE. The data is packed bytewise. for (int j = 0; j < srcBytes; ) { BYTE FlagCounter = Read8( io, handle ); if (FlagCounter & 0x80) { if (FlagCounter == 0x80) { // Special case: repeat value of 0. // Apple says ignore. j++; } else { // Packed data. int len = ((FlagCounter ^ 255) & 255) + 2; BYTE p = Read8( io, handle ); memset( pCurPixel, p, len); pCurPixel += len; j += 2; } } else { // Unpacked data int len = (FlagCounter & 255) + 1; io->read_proc( pCurPixel, len, 1, handle ); pCurPixel += len; j += len + 1; } } } return pLineBuf; } /** This routine decompresses BitsRects with a packType of 4 (and 32 bits per pixel). In this format, each line is separated into 8-bit-bitplanes and then compressed via RLE. To decode, the routine decompresses each line & then juggles the bytes around to get pixel-oriented data. NumBitPlanes == 3 if RGB, 4 if RGBA */ static void Unpack32Bits( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, MacRect* bounds, WORD rowBytes, int numPlanes ) { int height = bounds->bottom - bounds->top; int width = bounds->right - bounds->left; if (rowBytes == 0) { rowBytes = width*4; } BYTE* pLineBuf = (BYTE*)malloc( rowBytes ); // Let's allocate enough for 4 bit planes if ( pLineBuf ) { try { for ( int i = 0; i < height; i++ ) { // for each line do... int linelen; // length of source line in bytes. if (rowBytes > 250) { linelen = Read16( io, handle ); } else { linelen = Read8( io, handle); } BYTE* pBuf = UnpackPictRow( io, handle, pLineBuf, width, rowBytes, linelen ); // Convert plane-oriented data into pixel-oriented data & // copy into destination bitmap. BYTE* dst = (BYTE*)FreeImage_GetScanLine( dib, height - 1 - i); if ( numPlanes == 3 ) { for ( int j = 0; j < width; j++ ) { // For each pixel in line... dst[ FI_RGBA_BLUE ] = (*(pBuf+width*2)); // Blue dst[ FI_RGBA_GREEN ] = (*(pBuf+width)); // Green dst[ FI_RGBA_RED ] = (*pBuf); // Red dst[ FI_RGBA_ALPHA ] = (0xFF); dst += 4; pBuf++; } } else { for ( int j = 0; j < width; j++ ) { // For each pixel in line... dst[ FI_RGBA_BLUE ] = (*(pBuf+width*3)); // Blue dst[ FI_RGBA_GREEN ] = (*(pBuf+width*2)); // Green dst[ FI_RGBA_RED ] = (*(pBuf+width)); // Red dst[ FI_RGBA_ALPHA ] = (*pBuf); dst += 4; pBuf++; } } } } catch( ... ) { free( pLineBuf ); throw; } } free( pLineBuf ); } /** Decompression routine for 8 bpp. rowBytes is the number of bytes each source row would take if it were uncompressed. This _isn't_ equal to the number of pixels in the row - it seems apple pads the data to a word boundary and then compresses it. Of course, we have to decompress the excess data and then throw it away. */ static void Unpack8Bits( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, MacRect* bounds, WORD rowBytes ) { int height = bounds->bottom - bounds->top; int width = bounds->right - bounds->left; // High bit of rowBytes is flag. rowBytes &= 0x7fff; if (rowBytes == 0) { rowBytes = width; } for ( int i = 0; i < height; i++ ) { int linelen; // length of source line in bytes. if (rowBytes > 250) { linelen = Read16( io, handle ); } else { linelen = Read8( io, handle ); } BYTE* dst = (BYTE*)FreeImage_GetScanLine( dib, height - 1 - i); dst = UnpackPictRow( io, handle, dst, width, rowBytes, linelen ); } } /** Decompression routine for everything but 8 & 32 bpp. This routine is slower than the two routines above since it has to deal with a lot of special cases :-(. It's also a bit chaotic because of these special cases... unpack8bits is basically a dumber version of unpackbits. pixelSize == Source bits per pixel. */ static void UnpackBits( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, MacRect* bounds, WORD rowBytes, int pixelSize ) { WORD pixwidth; // bytes per row when uncompressed. int pkpixsize; int PixelPerRLEUnit; char outputMessage[ outputMessageSize ] = ""; int height = bounds->bottom - bounds->top; int width = bounds->right - bounds->left; // High bit of rowBytes is flag. if (pixelSize <= 8) { rowBytes &= 0x7fff; } pixwidth = width; pkpixsize = 1; // RLE unit: one byte for everything... if (pixelSize == 16) { // ...except 16 bpp. pkpixsize = 2; pixwidth *= 2; } if (rowBytes == 0) { rowBytes = pixwidth; } { // I allocate the temporary line buffer here. I allocate too // much memory to compensate for sloppy (& hence fast) decompression. switch (pixelSize) { case 1: PixelPerRLEUnit = 8; break; case 2: PixelPerRLEUnit = 4; break; case 4: PixelPerRLEUnit = 2; break; case 8: PixelPerRLEUnit = 1; break; case 16: PixelPerRLEUnit = 1; break; default: sprintf( outputMessage, "Illegal bpp value in unpackbits: %d\n", pixelSize ); throw outputMessage; } if (rowBytes < 8) { // ah-ha! The bits aren't actually packed. This will be easy. for ( int i = 0; i < height; i++ ) { BYTE* dst = (BYTE*)FreeImage_GetScanLine( dib, height - 1 - i); if (pixelSize == 16) { expandBuf( io, handle, width, pixelSize, dst ); } else { expandBuf8( io, handle, width, pixelSize, dst ); } } } else { for ( int i = 0; i < height; i++ ) { // For each line do... int linelen; // length of source line in bytes. if (rowBytes > 250) { linelen = Read16( io, handle ); } else { linelen = Read8( io, handle ); } BYTE* dst = (BYTE*)FreeImage_GetScanLine( dib, height - 1 - i); BYTE FlagCounter; // Unpack RLE. The data is packed bytewise - except for // 16 bpp data, which is packed per pixel :-(. for ( int j = 0; j < linelen; ) { FlagCounter = Read8( io, handle ); if (FlagCounter & 0x80) { if (FlagCounter == 0x80) { // Special case: repeat value of 0. // Apple says ignore. j++; } else { // Packed data. int len = ((FlagCounter ^ 255) & 255) + 2; // This is slow for some formats... if (pixelSize == 16) { expandBuf( io, handle, 1, pixelSize, dst ); for ( int k = 1; k < len; k++ ) { // Repeat the pixel len times. memcpy( dst+(k*4*PixelPerRLEUnit), dst, 4*PixelPerRLEUnit); } dst += len*4*PixelPerRLEUnit; } else { expandBuf8( io, handle, 1, pixelSize, dst ); for ( int k = 1; k < len; k++ ) { // Repeat the expanded byte len times. memcpy( dst+(k*PixelPerRLEUnit), dst, PixelPerRLEUnit); } dst += len*PixelPerRLEUnit; } j += pkpixsize + 1; } } else { // Unpacked data int len = (FlagCounter & 255) + 1; if (pixelSize == 16) { expandBuf( io, handle, len, pixelSize, dst ); dst += len*4*PixelPerRLEUnit; } else { expandBuf8( io, handle, len, pixelSize, dst ); dst += len*PixelPerRLEUnit; } j += ( len * pkpixsize ) + 1; } } } } } } static void DecodeOp9a( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, MacpixMap* pixMap ) { // Do the actual unpacking. switch ( pixMap->pixelSize ) { case 32: Unpack32Bits( io, handle, dib, &pixMap->Bounds, 0, pixMap->cmpCount ); break; case 8: Unpack8Bits( io, handle, dib, &pixMap->Bounds, 0 ); break; default: UnpackBits( io, handle, dib, &pixMap->Bounds, 0, pixMap->pixelSize ); } } static void DecodeBitmap( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, BOOL isRegion, MacRect* bounds, WORD rowBytes ) { WORD mode = Read16( io, handle ); if ( isRegion ) { SkipPolyOrRegion( io, handle ); } RGBQUAD* pal = FreeImage_GetPalette( dib ); if ( !pal ) { throw "No palette for bitmap!"; } for (int i = 0; i < 2; i++) { unsigned char val = i ? 0xFF : 0x0; pal[i].rgbRed = val; pal[i].rgbGreen = val; pal[i].rgbBlue = val; } UnpackBits( io, handle, dib, bounds, rowBytes, 1 ); } static void DecodePixmap( FreeImageIO *io, fi_handle handle, FIBITMAP* dib, BOOL isRegion, MacpixMap* pixMap, WORD rowBytes ) { // Read mac colour table into windows palette. WORD numColors; // Palette size. RGBQUAD ct[256]; ReadColorTable( io, handle, &numColors, ct ); if ( FreeImage_GetBPP( dib ) == 8 ) { RGBQUAD* pal = FreeImage_GetPalette( dib ); if ( !pal ) { throw "No palette for bitmap!"; } for (int i = 0; i < numColors; i++) { pal[i].rgbRed = ct[ i ].rgbRed; pal[i].rgbGreen = ct[ i ].rgbGreen; pal[i].rgbBlue = ct[ i ].rgbBlue; } } // Ignore source & destination rectangle as well as transfer mode. MacRect tempRect; ReadRect( io, handle, &tempRect ); ReadRect( io, handle, &tempRect ); WORD mode = Read16( io, handle ); if ( isRegion) { SkipPolyOrRegion( io, handle ); } switch ( pixMap->pixelSize ) { case 32: Unpack32Bits( io, handle, dib, &pixMap->Bounds, rowBytes, pixMap->cmpCount ); break; case 8: Unpack8Bits( io, handle, dib, &pixMap->Bounds, rowBytes ); break; default: UnpackBits( io, handle, dib, &pixMap->Bounds, rowBytes, pixMap->pixelSize ); } } // ========================================================== // Plugin Implementation // ========================================================== static const char * DLL_CALLCONV Format() { return "PICT"; } static const char * DLL_CALLCONV Description() { return "Macintosh PICT"; } static const char * DLL_CALLCONV Extension() { return "pct,pict,pic"; } static const char * DLL_CALLCONV MimeType() { return "image/x-pict"; } static BOOL DLL_CALLCONV Validate(FreeImageIO *io, fi_handle handle) { if(io->seek_proc(handle, 522, SEEK_SET) == 0) { BYTE pict_signature[] = { 0x00, 0x11, 0x02, 0xFF, 0x0C, 0X00 }; BYTE signature[6]; if(io->read_proc(signature, 1, sizeof(pict_signature), handle)) { // v1.0 files have 0x11 (version operator) followed by 0x01 (version number) // v2.0 files have 0x0011 (version operator) followed by 0x02ff (version number) // and additionally 0x0c00 as a header opcode // Currently, we are only supporting v2.0 return (memcmp(pict_signature, signature, sizeof(pict_signature)) == 0); } else { return FALSE; } } return FALSE; } static BOOL DLL_CALLCONV SupportsExportDepth(int depth) { return FALSE; } static BOOL DLL_CALLCONV SupportsExportType(FREE_IMAGE_TYPE type) { return FALSE; } static BOOL DLL_CALLCONV SupportsICCProfiles() { return FALSE; } /** This plugin decodes macintosh PICT files with 1,2,4,8,16 and 32 bits per pixel as well as PICT/JPEG. If an alpha channel is present in a 32-bit-PICT, it is decoded as well. The PICT format is a general picture file format and can contain a lot of other elements besides bitmaps. These elements are ignored. */ static FIBITMAP * DLL_CALLCONV Load(FreeImageIO *io, fi_handle handle, int page, int flags, void *data) { char outputMessage[ outputMessageSize ] = ""; FIBITMAP* dib = NULL; try { // Skip empty 512 byte header. if ( !io->seek_proc(handle, 512, SEEK_CUR) == 0 ) return NULL; // Read PICT header Read16( io, handle ); // Skip version 1 picture size MacRect frame; ReadRect( io, handle, &frame ); BYTE b = 0; while ((b = Read8(io, handle)) == 0); if ( b != 0x11 ) { throw "invalid header: version number missing."; } int version = Read8( io, handle ); if ( version == 2 && Read8( io, handle ) != 0xff ) { throw "invalid header: illegal version number."; } enum PICTType {none, op9a, jpeg, pixmap, bitmap}; PICTType pictType = none; MacRect bounds; MacpixMap pixMap; int hRes = 0x480000; // in pixels/inch (72 by default == 0x480000 in fixed point) int vRes = 0x480000; // in pixels/inch (72 by default == 0x480000 in fixed point) WORD rowBytes = 0; BOOL isRegion = FALSE; BOOL done = FALSE; long currentPos = 0; while ( !done ) { WORD opcode = 0; // get the current stream position (used to avoid infinite loops) currentPos = io->tell_proc(handle); if ((version == 1) || ((io->tell_proc( handle ) % 2) != 0)) { // align to word for version 2 opcode = Read8( io, handle ); } if (version == 2) { opcode = Read16( io, handle ); } if (opcode == 0xFF || opcode == 0xFFFF) { done = TRUE; throw "PICT contained only vector data!"; } else if (opcode < 0xa2) { switch (opcode) { case 0x01: { // skip clipping rectangle MacRect clipRect; WORD len = Read16( io, handle ); if (len == 0x000a) { /* null rgn */ ReadRect( io, handle, &clipRect ); } else { io->seek_proc(handle, len - 2, SEEK_CUR); } break; } case 0x12: case 0x13: case 0x14: { // skip pattern definition WORD patType; WORD rowBytes; MacpixMap p; WORD numColors; patType = Read16( io, handle ); switch( patType ) { case 2: io->seek_proc(handle, 8, SEEK_CUR); io->seek_proc(handle, 5, SEEK_CUR); break; case 1: { io->seek_proc(handle, 8, SEEK_CUR); rowBytes = Read16( io, handle ); ReadRect( io, handle, &p.Bounds ); ReadPixmap( io, handle, &p); RGBQUAD ct[256]; ReadColorTable(io, handle, &numColors, ct ); SkipBits( io, handle, &p.Bounds, rowBytes, p.pixelSize ); break; } default: throw "Unknown pattern type."; } break; } case 0x70: case 0x71: case 0x72: case 0x73: case 0x74: case 0x75: case 0x76: case 0x77: { SkipPolyOrRegion( io, handle ); break; } case 0x90: case 0x98: { // Bitmap/pixmap data clipped by a rectangle. rowBytes = Read16( io, handle ); // Bytes per row in source when uncompressed. isRegion = FALSE; if ( rowBytes & 0x8000) { pictType = pixmap; } else { pictType = bitmap; } done = TRUE; break; } case 0x91: case 0x99: { // Bitmap/pixmap data clipped by a region. rowBytes = Read16( io, handle ); // Bytes per row in source when uncompressed. isRegion = TRUE; if ( rowBytes & 0x8000) { pictType = pixmap; } else { pictType = bitmap; } done = TRUE; break; } case 0x9a: { // DirectBitsRect. Read32( io, handle ); // Skip fake len and fake EOF. Read16( io, handle ); // bogus row bytes. // Read in the PixMap fields. ReadRect( io, handle, &pixMap.Bounds ); ReadPixmap( io, handle, &pixMap ); // Ignore source & destination rectangle as well as transfer mode. MacRect dummy; ReadRect( io, handle, &dummy ); ReadRect( io, handle, &dummy ); WORD mode = Read16( io, handle ); pictType=op9a; done = TRUE; break; } case 0xa1: { // long comment WORD type; WORD len; type = Read16( io, handle ); len = Read16( io, handle); if (len > 0) { io->seek_proc(handle, len, SEEK_CUR); } break; } default: // No function => skip to next opcode if (optable[opcode].len == WORD_LEN) { WORD len = Read16( io, handle ); io->seek_proc(handle, len, SEEK_CUR); } else { io->seek_proc(handle, optable[opcode].len, SEEK_CUR); } break; } } else if (opcode == 0xc00) { // version 2 header (26 bytes) WORD minorVersion = Read16( io, handle ); // always FFFE (-2) for extended version 2 Read16( io, handle ); // reserved hRes = Read32( io, handle ); // original horizontal resolution in pixels/inch vRes = Read32( io, handle ); // original horizontal resolution in pixels/inch MacRect dummy; ReadRect( io, handle, &dummy ); // frame bounds at original resolution Read32( io, handle ); // reserved } else if (opcode == 0x8200) { // jpeg long opLen = Read32( io, handle ); BOOL found = FALSE; int i = 0; // skip to JPEG header. while ( !found && i < opLen ) { // io->seek_proc( handle, 24, SEEK_CUR ); // MacRect dummy; // ReadRect( io, handle, &dummy ); // io->seek_proc( handle, 122, SEEK_CUR ); // found = TRUE; BYTE data[ 2 ]; if( io->read_proc( data, 2, 1, handle ) ) { io->seek_proc( handle, -2, SEEK_CUR ); if ( data[0] == 0xFF && data[1] == 0xD8 ) { found = TRUE; } else { Read8( io, handle ); i++; } } } if ( found ) { // Pass the data to the JPEG decoder. pictType = jpeg; } else { throw "PICT file contains unrecognized quicktime data."; } done = TRUE; } else if (opcode >= 0xa2 && opcode <= 0xaf) { // reserved WORD len = Read16( io, handle ); io->seek_proc(handle, len, SEEK_CUR); } else if ((opcode >= 0xb0 && opcode <= 0xcf) || (opcode >= 0x8000 && opcode <= 0x80ff)) { // just a reserved opcode, no data } else if ((opcode >= 0xd0 && opcode <= 0xfe) || opcode >= 8100) { // reserved LONG len = Read32( io, handle ); io->seek_proc(handle, len, SEEK_CUR); } else if (opcode >= 0x100 && opcode <= 0x7fff) { // reserved io->seek_proc(handle, ((opcode >> 7) & 255), SEEK_CUR); } else { sprintf( outputMessage, "Can't handle opcode %x.\n", opcode ); throw outputMessage; } if(currentPos == io->tell_proc(handle)) { // we probaly reached the end of file as we can no longer move forward ... throw "Invalid PICT file"; } } switch ( pictType ) { case op9a: { bounds = pixMap.Bounds; int width = bounds.right - bounds.left; int height = bounds.bottom - bounds.top; if ( pixMap.pixelSize > 8 ) { dib = FreeImage_Allocate( width, height, 32, FI_RGBA_RED_MASK, FI_RGBA_GREEN_MASK, FI_RGBA_BLUE_MASK); } else { dib = FreeImage_Allocate( width, height, 8); } hRes = pixMap.hRes << 16; vRes = pixMap.vRes << 16; break; } case jpeg: { dib = FreeImage_LoadFromHandle( FIF_JPEG, io, handle ); break; } case pixmap: { // Decode version 2 pixmap ReadRect( io, handle, &pixMap.Bounds ); ReadPixmap( io, handle, &pixMap ); bounds = pixMap.Bounds; int width = bounds.right - bounds.left; int height = bounds.bottom - bounds.top; if ( pixMap.pixelSize > 8 ) { dib = FreeImage_Allocate( width, height, 32, FI_RGBA_RED_MASK, FI_RGBA_GREEN_MASK, FI_RGBA_BLUE_MASK); } else { dib = FreeImage_Allocate( width, height, 8); } hRes = pixMap.hRes << 16; vRes = pixMap.vRes << 16; break; } case bitmap: { // Decode version 1 bitmap: 1 bpp. MacRect srcRect; MacRect dstRect; WORD width; // Width in pixels WORD height; // Height in pixels ReadRect( io, handle, &bounds ); ReadRect( io, handle, &srcRect ); ReadRect( io, handle, &dstRect ); width = bounds.right - bounds.left; height = bounds.bottom - bounds.top; dib = FreeImage_Allocate(width, height, 8); break; } } if ( dib ) { // need to convert resolution figures from fixed point, pixels/inch // to floating point, pixels/meter. float hres_ppm = hRes * ((float)39.4 / (float)65536.0); float vres_ppm = vRes * ((float)39.4 / (float)65536.0); FreeImage_SetDotsPerMeterX( dib, (LONG)hres_ppm ); FreeImage_SetDotsPerMeterY( dib, (LONG)vres_ppm ); switch( pictType ) { case op9a: DecodeOp9a( io, handle, dib, &pixMap ); break; case jpeg: // Already decoded if the embedded format was valid. break; case pixmap: DecodePixmap( io, handle, dib, isRegion, &pixMap, rowBytes ); break; case bitmap: DecodeBitmap( io, handle, dib, isRegion, &bounds, rowBytes ); break; default: throw "invalid pict type"; } } return dib; } catch(const char *message) { FreeImage_Unload( dib ); FreeImage_OutputMessageProc(s_format_id, message); } return NULL; } // ========================================================== // Init // ========================================================== void DLL_CALLCONV InitPICT(Plugin *plugin, int format_id) { s_format_id = format_id; plugin->format_proc = Format; plugin->description_proc = Description; plugin->extension_proc = Extension; plugin->regexpr_proc = NULL; plugin->open_proc = NULL; plugin->close_proc = NULL; plugin->pagecount_proc = NULL; plugin->pagecapability_proc = NULL; plugin->load_proc = Load; plugin->save_proc = NULL; plugin->validate_proc = Validate; plugin->mime_proc = MimeType; plugin->supports_export_bpp_proc = SupportsExportDepth; plugin->supports_export_type_proc = SupportsExportType; plugin->supports_icc_profiles_proc = SupportsICCProfiles; }