/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ // Resource library #include "common/util.h" #include "common/endian.h" #include "common/debug.h" #include "sci/decompressor.h" #include "sci/sci.h" namespace Sci { int Decompressor::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { uint32 chunk; while (nPacked && !src->ioFailed()) { chunk = MIN(1024, nPacked); src->read(dest, chunk); nPacked -= chunk; dest += chunk; } return src->ioFailed() ? 1 : 0; } void Decompressor::init(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { _src = src; _dest = dest; _szPacked = nPacked; _szUnpacked = nUnpacked; _nBits = 0; _dwRead = _dwWrote = 0; _dwBits = 0; } void Decompressor::fetchBitsMSB() { while (_nBits <= 24) { _dwBits |= ((uint32)_src->readByte()) << (24 - _nBits); _nBits += 8; _dwRead++; } } uint32 Decompressor::getBitsMSB(int n) { // fetching more data to buffer if needed if (_nBits < n) fetchBitsMSB(); uint32 ret = _dwBits >> (32 - n); _dwBits <<= n; _nBits -= n; return ret; } byte Decompressor::getByteMSB() { return getBitsMSB(8); } void Decompressor::fetchBitsLSB() { while (_nBits <= 24) { _dwBits |= ((uint32)_src->readByte()) << _nBits; _nBits += 8; _dwRead++; } } uint32 Decompressor::getBitsLSB(int n) { // fetching more data to buffer if needed if (_nBits < n) fetchBitsLSB(); uint32 ret = (_dwBits & ~((~0) << n)); _dwBits >>= n; _nBits -= n; return ret; } byte Decompressor::getByteLSB() { return getBitsLSB(8); } void Decompressor::putByte(byte b) { _dest[_dwWrote++] = b; } //------------------------------- // Huffman decompressor //------------------------------- int DecompressorHuffman::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { init(src, dest, nPacked, nUnpacked); byte numnodes; int16 c; uint16 terminator; numnodes = _src->readByte(); terminator = _src->readByte() | 0x100; _nodes = new byte [numnodes << 1]; _src->read(_nodes, numnodes << 1); while ((c = getc2()) != terminator && (c >= 0) && !isFinished()) putByte(c); delete[] _nodes; return _dwWrote == _szUnpacked ? 0 : 1; } int16 DecompressorHuffman::getc2() { byte *node = _nodes; int16 next; while (node[1]) { if (getBitsMSB(1)) { next = node[1] & 0x0F; // use lower 4 bits if (next == 0) return getByteMSB() | 0x100; } else next = node[1] >> 4; // use higher 4 bits node += next << 1; } return (int16)(*node | (node[1] << 8)); } //------------------------------- // LZW Decompressor for SCI0/01/1 //------------------------------- void DecompressorLZW::init(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { Decompressor::init(src, dest, nPacked, nUnpacked); _numbits = 9; _curtoken = 0x102; _endtoken = 0x1ff; } int DecompressorLZW::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { byte *buffer = NULL; switch (_compression) { case kCompLZW: // SCI0 LZW compression return unpackLZW(src, dest, nPacked, nUnpacked); break; case kCompLZW1: // SCI01/1 LZW compression return unpackLZW1(src, dest, nPacked, nUnpacked); break; case kCompLZW1View: buffer = new byte[nUnpacked]; unpackLZW1(src, buffer, nPacked, nUnpacked); reorderView(buffer, dest); break; case kCompLZW1Pic: buffer = new byte[nUnpacked]; unpackLZW1(src, buffer, nPacked, nUnpacked); reorderPic(buffer, dest, nUnpacked); break; } delete[] buffer; return 0; } int DecompressorLZW::unpackLZW(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { init(src, dest, nPacked, nUnpacked); uint16 token; // The last received value uint16 tokenlist[4096]; // pointers to dest[] uint16 tokenlengthlist[4096]; // char length of each token uint16 tokenlastlength = 0; while (!isFinished()) { token = getBitsLSB(_numbits); if (token == 0x101) return 0; // terminator if (token == 0x100) { // reset command _numbits = 9; _endtoken = 0x1FF; _curtoken = 0x0102; } else { if (token > 0xff) { if (token >= _curtoken) { warning("unpackLZW: Bad token %x", token); return SCI_ERROR_DECOMPRESSION_ERROR; } tokenlastlength = tokenlengthlist[token] + 1; if (_dwWrote + tokenlastlength > _szUnpacked) { // For me this seems a normal situation, It's necessary to handle it warning("unpackLZW: Trying to write beyond the end of array(len=%d, destctr=%d, tok_len=%d)", _szUnpacked, _dwWrote, tokenlastlength); for (int i = 0; _dwWrote < _szUnpacked; i++) putByte(dest[tokenlist[token] + i]); } else for (int i = 0; i < tokenlastlength; i++) putByte(dest[tokenlist[token] + i]); } else { tokenlastlength = 1; if (_dwWrote >= _szUnpacked) warning("unpackLZW: Try to write single byte beyond end of array"); else putByte(token); } if (_curtoken > _endtoken && _numbits < 12) { _numbits++; _endtoken = (_endtoken << 1) + 1; } if (_curtoken <= _endtoken) { tokenlist[_curtoken] = _dwWrote - tokenlastlength; tokenlengthlist[_curtoken] = tokenlastlength; _curtoken++; } } } return _dwWrote == _szUnpacked ? 0 : SCI_ERROR_DECOMPRESSION_ERROR; } int DecompressorLZW::unpackLZW1(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { init(src, dest, nPacked, nUnpacked); byte stak[0x1014]; byte lastchar = 0; uint16 stakptr = 0, lastbits = 0; Tokenlist tokens[0x1004]; memset(tokens, 0, sizeof(tokens)); byte decryptstart = 0; uint16 bitstring; uint16 token; bool bExit = false; while (!isFinished() && !bExit) { switch (decryptstart) { case 0: bitstring = getBitsMSB(_numbits); if (bitstring == 0x101) {// found end-of-data signal bExit = true; continue; } putByte(bitstring); lastbits = bitstring; lastchar = (bitstring & 0xff); decryptstart = 1; break; case 1: bitstring = getBitsMSB(_numbits); if (bitstring == 0x101) { // found end-of-data signal bExit = true; continue; } if (bitstring == 0x100) { // start-over signal _numbits = 9; _curtoken = 0x102; _endtoken = 0x1ff; decryptstart = 0; continue; } token = bitstring; if (token >= _curtoken) { // index past current point token = lastbits; stak[stakptr++] = lastchar; } while ((token > 0xff) && (token < 0x1004)) { // follow links back in data stak[stakptr++] = tokens[token].data; token = tokens[token].next; } lastchar = stak[stakptr++] = token & 0xff; // put stack in buffer while (stakptr > 0) { putByte(stak[--stakptr]); if (_dwWrote == _szUnpacked) { bExit = true; continue; } } // put token into record if (_curtoken <= _endtoken) { tokens[_curtoken].data = lastchar; tokens[_curtoken].next = lastbits; _curtoken++; if (_curtoken == _endtoken && _numbits < 12) { _numbits++; _endtoken = (_endtoken << 1) + 1; } } lastbits = bitstring; break; } } return _dwWrote == _szUnpacked ? 0 : SCI_ERROR_DECOMPRESSION_ERROR; } #define PAL_SIZE 1284 #define EXTRA_MAGIC_SIZE 15 #define VIEW_HEADER_COLORS_8BIT 0x80 void DecompressorLZW::decodeRLE(byte **rledata, byte **pixeldata, byte *outbuffer, int size) { int pos = 0; byte nextbyte; byte *rd = *rledata; byte *ob = outbuffer; byte *pd = *pixeldata; while (pos < size) { nextbyte = *rd++; *ob++ = nextbyte; pos++; switch (nextbyte & 0xC0) { case 0x40: case 0x00: memcpy(ob, pd, nextbyte); pd += nextbyte; ob += nextbyte; pos += nextbyte; break; case 0xC0: break; case 0x80: nextbyte = *pd++; *ob++ = nextbyte; pos++; break; } } *rledata = rd; *pixeldata = pd; } /** * Does the same this as decodeRLE, only to determine the length of the * compressed source data. */ int DecompressorLZW::getRLEsize(byte *rledata, int dsize) { int pos = 0; byte nextbyte; int size = 0; while (pos < dsize) { nextbyte = *(rledata++); pos++; size++; switch (nextbyte & 0xC0) { case 0x40: case 0x00: pos += nextbyte; break; case 0xC0: break; case 0x80: pos++; break; } } return size; } void DecompressorLZW::reorderPic(byte *src, byte *dest, int dsize) { uint16 view_size, view_start, cdata_size; int i; byte *seeker = src; byte *writer = dest; char viewdata[7]; byte *cdata, *cdata_start; *writer++ = PIC_OP_OPX; *writer++ = PIC_OPX_SET_PALETTE; for (i = 0; i < 256; i++) /* Palette translation map */ *writer++ = i; WRITE_LE_UINT32(writer, 0); /* Palette stamp */ writer += 4; view_size = READ_LE_UINT16(seeker); seeker += 2; view_start = READ_LE_UINT16(seeker); seeker += 2; cdata_size = READ_LE_UINT16(seeker); seeker += 2; memcpy(viewdata, seeker, sizeof(viewdata)); seeker += sizeof(viewdata); memcpy(writer, seeker, 4*256); /* Palette */ seeker += 4*256; writer += 4*256; if (view_start != PAL_SIZE + 2) { /* +2 for the opcode */ memcpy(writer, seeker, view_start-PAL_SIZE-2); seeker += view_start - PAL_SIZE - 2; writer += view_start - PAL_SIZE - 2; } if (dsize != view_start + EXTRA_MAGIC_SIZE + view_size) { memcpy(dest + view_size + view_start + EXTRA_MAGIC_SIZE, seeker, dsize - view_size - view_start - EXTRA_MAGIC_SIZE); seeker += dsize - view_size - view_start - EXTRA_MAGIC_SIZE; } cdata_start = cdata = (byte *)malloc(cdata_size); memcpy(cdata, seeker, cdata_size); seeker += cdata_size; writer = dest + view_start; *writer++ = PIC_OP_OPX; *writer++ = PIC_OPX_EMBEDDED_VIEW; *writer++ = 0; *writer++ = 0; *writer++ = 0; WRITE_LE_UINT16(writer, view_size + 8); writer += 2; memcpy(writer, viewdata, sizeof(viewdata)); writer += sizeof(viewdata); *writer++ = 0; decodeRLE(&seeker, &cdata, writer, view_size); free(cdata_start); } void DecompressorLZW::buildCelHeaders(byte **seeker, byte **writer, int celindex, int *cc_lengths, int max) { for (int c = 0; c < max; c++) { memcpy(*writer, *seeker, 6); *seeker += 6; *writer += 6; int w = *((*seeker)++); WRITE_LE_UINT16(*writer, w); /* Zero extension */ *writer += 2; *writer += cc_lengths[celindex]; celindex++; } } void DecompressorLZW::reorderView(byte *src, byte *dest) { byte *cellengths; int loopheaders; int lh_present; int lh_mask; int pal_offset; int cel_total; int unknown; byte *seeker = src; char celcounts[100]; byte *writer = dest; byte *lh_ptr; byte *rle_ptr, *pix_ptr; int l, lb, c, celindex, lh_last = -1; int chptr; int w; int *cc_lengths; byte **cc_pos; /* Parse the main header */ cellengths = src + READ_LE_UINT16(seeker) + 2; seeker += 2; loopheaders = *seeker++; lh_present = *seeker++; lh_mask = READ_LE_UINT16(seeker); seeker += 2; unknown = READ_LE_UINT16(seeker); seeker += 2; pal_offset = READ_LE_UINT16(seeker); seeker += 2; cel_total = READ_LE_UINT16(seeker); seeker += 2; cc_pos = (byte **) malloc(sizeof(byte *) * cel_total); cc_lengths = (int *) malloc(sizeof(int) * cel_total); for (c = 0; c < cel_total; c++) cc_lengths[c] = READ_LE_UINT16(cellengths + 2 * c); *writer++ = loopheaders; *writer++ = VIEW_HEADER_COLORS_8BIT; WRITE_LE_UINT16(writer, lh_mask); writer += 2; WRITE_LE_UINT16(writer, unknown); writer += 2; WRITE_LE_UINT16(writer, pal_offset); writer += 2; lh_ptr = writer; writer += 2 * loopheaders; /* Make room for the loop offset table */ pix_ptr = writer; memcpy(celcounts, seeker, lh_present); seeker += lh_present; lb = 1; celindex = 0; rle_ptr = pix_ptr = cellengths + (2 * cel_total); w = 0; for (l = 0; l < loopheaders; l++) { if (lh_mask & lb) { /* The loop is _not_ present */ if (lh_last == -1) { warning("Error: While reordering view: Loop not present, but can't re-use last loop"); lh_last = 0; } WRITE_LE_UINT16(lh_ptr, lh_last); lh_ptr += 2; } else { lh_last = writer - dest; WRITE_LE_UINT16(lh_ptr, lh_last); lh_ptr += 2; WRITE_LE_UINT16(writer, celcounts[w]); writer += 2; WRITE_LE_UINT16(writer, 0); writer += 2; /* Now, build the cel offset table */ chptr = (writer - dest) + (2 * celcounts[w]); for (c = 0; c < celcounts[w]; c++) { WRITE_LE_UINT16(writer, chptr); writer += 2; cc_pos[celindex+c] = dest + chptr; chptr += 8 + READ_LE_UINT16(cellengths + 2 * (celindex + c)); } buildCelHeaders(&seeker, &writer, celindex, cc_lengths, celcounts[w]); celindex += celcounts[w]; w++; } lb = lb << 1; } if (celindex < cel_total) { warning("View decompression generated too few (%d / %d) headers", celindex, cel_total); return; } /* Figure out where the pixel data begins. */ for (c = 0; c < cel_total; c++) pix_ptr += getRLEsize(pix_ptr, cc_lengths[c]); rle_ptr = cellengths + (2 * cel_total); for (c = 0; c < cel_total; c++) decodeRLE(&rle_ptr, &pix_ptr, cc_pos[c] + 8, cc_lengths[c]); *writer++ = 'P'; *writer++ = 'A'; *writer++ = 'L'; for (c = 0; c < 256; c++) *writer++ = c; seeker -= 4; /* The missing four. Don't ask why. */ memcpy(writer, seeker, 4*256 + 4); free(cc_pos); free(cc_lengths); } //---------------------------------------------- // DCL decompressor for SCI1.1 //---------------------------------------------- #define HUFFMAN_LEAF 0x40000000 // Branch node #define BN(pos, left, right) ((left << 12) | (right)), // Leaf node #define LN(pos, value) ((value) | HUFFMAN_LEAF), static const int length_tree[] = { BN(0, 1, 2) BN(1, 3, 4) BN(2, 5, 6) BN(3, 7, 8) BN(4, 9, 10) BN(5, 11, 12) LN(6, 1) BN(7, 13, 14) BN(8, 15, 16) BN(9, 17, 18) LN(10, 3) LN(11, 2) LN(12, 0) BN(13, 19, 20) BN(14, 21, 22) BN(15, 23, 24) LN(16, 6) LN(17, 5) LN(18, 4) BN(19, 25, 26) BN(20, 27, 28) LN(21, 10) LN(22, 9) LN(23, 8) LN(24, 7) BN(25, 29, 30) LN(26, 13) LN(27, 12) LN(28, 11) LN(29, 15) LN(30, 14) 0 // We need something witout a comma at the end }; static const int distance_tree[] = { BN(0, 1, 2) BN(1, 3, 4) BN(2, 5, 6) // BN(3, 7, 8) BN(4, 9, 10) BN(5, 11, 12) LN(6, 0) BN(7, 13, 14) BN(8, 15, 16) BN(9, 17, 18) BN(10, 19, 20) BN(11, 21, 22) BN(12, 23, 24) // BN(13, 25, 26) BN(14, 27, 28) BN(15, 29, 30) BN(16, 31, 32) BN(17, 33, 34) BN(18, 35, 36) BN(19, 37, 38) BN(20, 39, 40) BN(21, 41, 42) BN(22, 43, 44) LN(23, 2) LN(24, 1) // BN(25, 45, 46) BN(26, 47, 48) BN(27, 49, 50) BN(28, 51, 52) BN(29, 53, 54) BN(30, 55, 56) BN(31, 57, 58) BN(32, 59, 60) BN(33, 61, 62) BN(34, 63, 64) BN(35, 65, 66) BN(36, 67, 68) BN(37, 69, 70) BN(38, 71, 72) BN(39, 73, 74) BN(40, 75, 76) LN(41, 6) LN(42, 5) LN(43, 4) LN(44, 3) // BN(45, 77, 78) BN(46, 79, 80) BN(47, 81, 82) BN(48, 83, 84) BN(49, 85, 86) BN(50, 87, 88) BN(51, 89, 90) BN(52, 91, 92) BN(53, 93, 94) BN(54, 95, 96) BN(55, 97, 98) BN(56, 99, 100) BN(57, 101, 102) BN(58, 103, 104) BN(59, 105, 106) BN(60, 107, 108) BN(61, 109, 110) LN(62, 21) LN(63, 20) LN(64, 19) LN(65, 18) LN(66, 17) LN(67, 16) LN(68, 15) LN(69, 14) LN(70, 13) LN(71, 12) LN(72, 11) LN(73, 10) LN(74, 9) LN(75, 8) LN(76, 7) // BN(77, 111, 112) BN(78, 113, 114) BN(79, 115, 116) BN(80, 117, 118) BN(81, 119, 120) BN(82, 121, 122) BN(83, 123, 124) BN(84, 125, 126) LN(85, 47) LN(86, 46) LN(87, 45) LN(88, 44) LN(89, 43) LN(90, 42) LN(91, 41) LN(92, 40) LN(93, 39) LN(94, 38) LN(95, 37) LN(96, 36) LN(97, 35) LN(98, 34) LN(99, 33) LN(100, 32) LN(101, 31) LN(102, 30) LN(103, 29) LN(104, 28) LN(105, 27) LN(106, 26) LN(107, 25) LN(108, 24) LN(109, 23) LN(110, 22) LN(111, 63) LN(112, 62) LN(113, 61) LN(114, 60) LN(115, 59) LN(116, 58) LN(117, 57) LN(118, 56) LN(119, 55) LN(120, 54) LN(121, 53) LN(122, 52) LN(123, 51) LN(124, 50) LN(125, 49) LN(126, 48) 0 // We need something witout a comma at the end }; static const int ascii_tree[] = { BN(0, 1, 2) BN(1, 3, 4) BN(2, 5, 6) BN(3, 7, 8) BN(4, 9, 10) BN(5, 11, 12) BN(6, 13, 14) BN(7, 15, 16) BN(8, 17, 18) BN(9, 19, 20) BN(10, 21, 22) BN(11, 23, 24) BN(12, 25, 26) BN(13, 27, 28) BN(14, 29, 30) BN(15, 31, 32) BN(16, 33, 34) BN(17, 35, 36) BN(18, 37, 38) BN(19, 39, 40) BN(20, 41, 42) BN(21, 43, 44) BN(22, 45, 46) BN(23, 47, 48) BN(24, 49, 50) BN(25, 51, 52) BN(26, 53, 54) BN(27, 55, 56) BN(28, 57, 58) BN(29, 59, 60) LN(30, 32) // BN(31, 61, 62) BN(32, 63, 64) BN(33, 65, 66) BN(34, 67, 68) BN(35, 69, 70) BN(36, 71, 72) BN(37, 73, 74) BN(38, 75, 76) BN(39, 77, 78) BN(40, 79, 80) BN(41, 81, 82) BN(42, 83, 84) BN(43, 85, 86) BN(44, 87, 88) BN(45, 89, 90) BN(46, 91, 92) BN(47, 93, 94) BN(48, 95, 96) BN(49, 97, 98) LN(50, 117) LN(51, 116) LN(52, 115) LN(53, 114) LN(54, 111) LN(55, 110) LN(56, 108) LN(57, 105) LN(58, 101) LN(59, 97) LN(60, 69) // BN(61, 99, 100) BN(62, 101, 102) BN(63, 103, 104) BN(64, 105, 106) BN(65, 107, 108) BN(66, 109, 110) BN(67, 111, 112) BN(68, 113, 114) BN(69, 115, 116) BN(70, 117, 118) BN(71, 119, 120) BN(72, 121, 122) BN(73, 123, 124) BN(74, 125, 126) BN(75, 127, 128) BN(76, 129, 130) BN(77, 131, 132) BN(78, 133, 134) LN(79, 112) LN(80, 109) LN(81, 104) LN(82, 103) LN(83, 102) LN(84, 100) LN(85, 99) LN(86, 98) LN(87, 84) LN(88, 83) LN(89, 82) LN(90, 79) LN(91, 78) LN(92, 76) LN(93, 73) LN(94, 68) LN(95, 67) LN(96, 65) LN(97, 49) LN(98, 45) // BN(99, 135, 136) BN(100, 137, 138) BN(101, 139, 140) BN(102, 141, 142) BN(103, 143, 144) BN(104, 145, 146) BN(105, 147, 148) BN(106, 149, 150) BN(107, 151, 152) BN(108, 153, 154) BN(109, 155, 156) BN(110, 157, 158) BN(111, 159, 160) BN(112, 161, 162) BN(113, 163, 164) LN(114, 119) LN(115, 107) LN(116, 85) LN(117, 80) LN(118, 77) LN(119, 70) LN(120, 66) LN(121, 61) LN(122, 56) LN(123, 55) LN(124, 53) LN(125, 52) LN(126, 51) LN(127, 50) LN(128, 48) LN(129, 46) LN(130, 44) LN(131, 41) LN(132, 40) LN(133, 13) LN(134, 10) // BN(135, 165, 166) BN(136, 167, 168) BN(137, 169, 170) BN(138, 171, 172) BN(139, 173, 174) BN(140, 175, 176) BN(141, 177, 178) BN(142, 179, 180) BN(143, 181, 182) BN(144, 183, 184) BN(145, 185, 186) BN(146, 187, 188) BN(147, 189, 190) BN(148, 191, 192) LN(149, 121) LN(150, 120) LN(151, 118) LN(152, 95) LN(153, 91) LN(154, 87) LN(155, 72) LN(156, 71) LN(157, 58) LN(158, 57) LN(159, 54) LN(160, 47) LN(161, 42) LN(162, 39) LN(163, 34) LN(164, 9) // BN(165, 193, 194) BN(166, 195, 196) BN(167, 197, 198) BN(168, 199, 200) BN(169, 201, 202) BN(170, 203, 204) BN(171, 205, 206) BN(172, 207, 208) BN(173, 209, 210) BN(174, 211, 212) BN(175, 213, 214) BN(176, 215, 216) BN(177, 217, 218) BN(178, 219, 220) BN(179, 221, 222) BN(180, 223, 224) BN(181, 225, 226) BN(182, 227, 228) BN(183, 229, 230) BN(184, 231, 232) BN(185, 233, 234) LN(186, 93) LN(187, 89) LN(188, 88) LN(189, 86) LN(190, 75) LN(191, 62) LN(192, 43) // BN(193, 235, 236) BN(194, 237, 238) BN(195, 239, 240) BN(196, 241, 242) BN(197, 243, 244) BN(198, 245, 246) BN(199, 247, 248) BN(200, 249, 250) BN(201, 251, 252) BN(202, 253, 254) BN(203, 255, 256) BN(204, 257, 258) BN(205, 259, 260) BN(206, 261, 262) BN(207, 263, 264) BN(208, 265, 266) BN(209, 267, 268) BN(210, 269, 270) BN(211, 271, 272) BN(212, 273, 274) BN(213, 275, 276) BN(214, 277, 278) BN(215, 279, 280) BN(216, 281, 282) BN(217, 283, 284) BN(218, 285, 286) BN(219, 287, 288) BN(220, 289, 290) BN(221, 291, 292) BN(222, 293, 294) BN(223, 295, 296) BN(224, 297, 298) BN(225, 299, 300) BN(226, 301, 302) BN(227, 303, 304) BN(228, 305, 306) BN(229, 307, 308) LN(230, 122) LN(231, 113) LN(232, 38) LN(233, 36) LN(234, 33) // BN(235, 309, 310) BN(236, 311, 312) BN(237, 313, 314) BN(238, 315, 316) BN(239, 317, 318) BN(240, 319, 320) BN(241, 321, 322) BN(242, 323, 324) BN(243, 325, 326) BN(244, 327, 328) BN(245, 329, 330) BN(246, 331, 332) BN(247, 333, 334) BN(248, 335, 336) BN(249, 337, 338) BN(250, 339, 340) BN(251, 341, 342) BN(252, 343, 344) BN(253, 345, 346) BN(254, 347, 348) BN(255, 349, 350) BN(256, 351, 352) BN(257, 353, 354) BN(258, 355, 356) BN(259, 357, 358) BN(260, 359, 360) BN(261, 361, 362) BN(262, 363, 364) BN(263, 365, 366) BN(264, 367, 368) BN(265, 369, 370) BN(266, 371, 372) BN(267, 373, 374) BN(268, 375, 376) BN(269, 377, 378) BN(270, 379, 380) BN(271, 381, 382) BN(272, 383, 384) BN(273, 385, 386) BN(274, 387, 388) BN(275, 389, 390) BN(276, 391, 392) BN(277, 393, 394) BN(278, 395, 396) BN(279, 397, 398) BN(280, 399, 400) BN(281, 401, 402) BN(282, 403, 404) BN(283, 405, 406) BN(284, 407, 408) BN(285, 409, 410) BN(286, 411, 412) BN(287, 413, 414) BN(288, 415, 416) BN(289, 417, 418) BN(290, 419, 420) BN(291, 421, 422) BN(292, 423, 424) BN(293, 425, 426) BN(294, 427, 428) BN(295, 429, 430) BN(296, 431, 432) BN(297, 433, 434) BN(298, 435, 436) LN(299, 124) LN(300, 123) LN(301, 106) LN(302, 92) LN(303, 90) LN(304, 81) LN(305, 74) LN(306, 63) LN(307, 60) LN(308, 0) // BN(309, 437, 438) BN(310, 439, 440) BN(311, 441, 442) BN(312, 443, 444) BN(313, 445, 446) BN(314, 447, 448) BN(315, 449, 450) BN(316, 451, 452) BN(317, 453, 454) BN(318, 455, 456) BN(319, 457, 458) BN(320, 459, 460) BN(321, 461, 462) BN(322, 463, 464) BN(323, 465, 466) BN(324, 467, 468) BN(325, 469, 470) BN(326, 471, 472) BN(327, 473, 474) BN(328, 475, 476) BN(329, 477, 478) BN(330, 479, 480) BN(331, 481, 482) BN(332, 483, 484) BN(333, 485, 486) BN(334, 487, 488) BN(335, 489, 490) BN(336, 491, 492) BN(337, 493, 494) BN(338, 495, 496) BN(339, 497, 498) BN(340, 499, 500) BN(341, 501, 502) BN(342, 503, 504) BN(343, 505, 506) BN(344, 507, 508) BN(345, 509, 510) LN(346, 244) LN(347, 243) LN(348, 242) LN(349, 238) LN(350, 233) LN(351, 229) LN(352, 225) LN(353, 223) LN(354, 222) LN(355, 221) LN(356, 220) LN(357, 219) LN(358, 218) LN(359, 217) LN(360, 216) LN(361, 215) LN(362, 214) LN(363, 213) LN(364, 212) LN(365, 211) LN(366, 210) LN(367, 209) LN(368, 208) LN(369, 207) LN(370, 206) LN(371, 205) LN(372, 204) LN(373, 203) LN(374, 202) LN(375, 201) LN(376, 200) LN(377, 199) LN(378, 198) LN(379, 197) LN(380, 196) LN(381, 195) LN(382, 194) LN(383, 193) LN(384, 192) LN(385, 191) LN(386, 190) LN(387, 189) LN(388, 188) LN(389, 187) LN(390, 186) LN(391, 185) LN(392, 184) LN(393, 183) LN(394, 182) LN(395, 181) LN(396, 180) LN(397, 179) LN(398, 178) LN(399, 177) LN(400, 176) LN(401, 127) LN(402, 126) LN(403, 125) LN(404, 96) LN(405, 94) LN(406, 64) LN(407, 59) LN(408, 37) LN(409, 35) LN(410, 31) LN(411, 30) LN(412, 29) LN(413, 28) LN(414, 27) LN(415, 25) LN(416, 24) LN(417, 23) LN(418, 22) LN(419, 21) LN(420, 20) LN(421, 19) LN(422, 18) LN(423, 17) LN(424, 16) LN(425, 15) LN(426, 14) LN(427, 12) LN(428, 11) LN(429, 8) LN(430, 7) LN(431, 6) LN(432, 5) LN(433, 4) LN(434, 3) LN(435, 2) LN(436, 1) LN(437, 255) LN(438, 254) LN(439, 253) LN(440, 252) LN(441, 251) LN(442, 250) LN(443, 249) LN(444, 248) LN(445, 247) LN(446, 246) LN(447, 245) LN(448, 241) LN(449, 240) LN(450, 239) LN(451, 237) LN(452, 236) LN(453, 235) LN(454, 234) LN(455, 232) LN(456, 231) LN(457, 230) LN(458, 228) LN(459, 227) LN(460, 226) LN(461, 224) LN(462, 175) LN(463, 174) LN(464, 173) LN(465, 172) LN(466, 171) LN(467, 170) LN(468, 169) LN(469, 168) LN(470, 167) LN(471, 166) LN(472, 165) LN(473, 164) LN(474, 163) LN(475, 162) LN(476, 161) LN(477, 160) LN(478, 159) LN(479, 158) LN(480, 157) LN(481, 156) LN(482, 155) LN(483, 154) LN(484, 153) LN(485, 152) LN(486, 151) LN(487, 150) LN(488, 149) LN(489, 148) LN(490, 147) LN(491, 146) LN(492, 145) LN(493, 144) LN(494, 143) LN(495, 142) LN(496, 141) LN(497, 140) LN(498, 139) LN(499, 138) LN(500, 137) LN(501, 136) LN(502, 135) LN(503, 134) LN(504, 133) LN(505, 132) LN(506, 131) LN(507, 130) LN(508, 129) LN(509, 128) LN(510, 26) }; int DecompressorDCL::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { init(src, dest, nPacked, nUnpacked); return unpackDCL(dest); } int DecompressorDCL::huffman_lookup(const int *tree) { int pos = 0; int bit; while (!(tree[pos] & HUFFMAN_LEAF)) { bit = getBitsLSB(1); debugC(kDebugLevelDclInflate, "[%d]:%d->", pos, bit); pos = bit ? tree[pos] & 0xFFF : tree[pos] >> 12; } debugC(kDebugLevelDclInflate, "=%02x\n", tree[pos] & 0xffff); return tree[pos] & 0xFFFF; } #define DCL_ASCII_MODE 1 int DecompressorDCL::unpackDCL(byte* dest) { int mode, length_param, value; uint32 val_distance, val_length; mode = getByteLSB(); length_param = getByteLSB(); if (mode == DCL_ASCII_MODE) { //warning("DCL-INFLATE: Decompressing ASCII mode (untested)"); } else if (mode) { warning("DCL-INFLATE: Error: Encountered mode %02x, expected 00 or 01", mode); return -1; } if (length_param < 3 || length_param > 6) warning("Unexpected length_param value %d (expected in [3,6])", length_param); while (_dwWrote < _szUnpacked) { if (getBitsLSB(1)) { // (length,distance) pair value = huffman_lookup(length_tree); if (value < 8) val_length = value + 2; else val_length = 8 + (1 << (value - 7)) + getBitsLSB(value - 7); debugC(kDebugLevelDclInflate, " | "); value = huffman_lookup(distance_tree); if (val_length == 2) val_distance = (value << 2) | getBitsLSB(2); else val_distance = (value << length_param) | getBitsLSB(length_param); val_distance ++; debugC(kDebugLevelDclInflate, "\nCOPY(%d from %d)\n", val_length, val_distance); if (val_length + _dwWrote > _szUnpacked) { warning("DCL-INFLATE Error: Write out of bounds while copying %d bytes", val_length); return SCI_ERROR_DECOMPRESSION_ERROR; } if (_dwWrote < val_distance) { warning("DCL-INFLATE Error: Attempt to copy from before beginning of input stream"); return SCI_ERROR_DECOMPRESSION_ERROR; } while (val_length) { uint32 copy_length = (val_length > val_distance) ? val_distance : val_length; assert(val_distance >= copy_length); uint32 pos = _dwWrote - val_distance; for (uint32 i = 0; i < copy_length; i++) putByte(dest[pos + i]); if (Common::isDebugChannelEnabled(kDebugLevelDclInflate)) { for (uint32 i = 0; i < copy_length; i++) debugC(kDebugLevelDclInflate, "\33[32;31m%02x\33[37;37m ", dest[pos + i]); debugC(kDebugLevelDclInflate, "\n"); } val_length -= copy_length; val_distance += copy_length; } } else { // Copy byte verbatim value = (mode == DCL_ASCII_MODE) ? huffman_lookup(ascii_tree) : getByteLSB(); putByte(value); debugC(kDebugLevelDclInflate, "\33[32;31m%02x \33[37;37m", value); } } return _dwWrote == _szUnpacked ? 0 : SCI_ERROR_DECOMPRESSION_ERROR; } #ifdef ENABLE_SCI32 //---------------------------------------------- // STACpack/LZS decompressor for SCI32 // Based on Andre Beck's code from http://micky.ibh.de/~beck/stuff/lzs4i4l/ //---------------------------------------------- int DecompressorLZS::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) { init(src, dest, nPacked, nUnpacked); return unpackLZS(); } int DecompressorLZS::unpackLZS() { uint16 offs = 0, clen; while (!isFinished()) { if (getBitsMSB(1)) { // Compressed bytes follow if (getBitsMSB(1)) { // Seven bit offset follows offs = getBitsMSB(7); if (!offs) // This is the end marker - a 7 bit offset of zero break; if (!(clen = getCompLen())) { warning("lzsDecomp: length mismatch"); return SCI_ERROR_DECOMPRESSION_ERROR; } copyComp(offs, clen); } else { // Eleven bit offset follows offs = getBitsMSB(11); if (!(clen = getCompLen())) { warning("lzsDecomp: length mismatch"); return SCI_ERROR_DECOMPRESSION_ERROR; } copyComp(offs, clen); } } else // Literal byte follows putByte(getByteMSB()); } // end of while () return _dwWrote == _szUnpacked ? 0 : SCI_ERROR_DECOMPRESSION_ERROR; } uint16 DecompressorLZS::getCompLen() { int clen, nibble; // The most probable cases are hardcoded switch (getBitsMSB(2)) { case 0: return 2; case 1: return 3; case 2: return 4; default: switch (getBitsMSB(2)) { case 0: return 5; case 1: return 6; case 2: return 7; default: // Ok, no shortcuts anymore - just get nibbles and add up clen = 8; do { nibble = getBitsMSB(4); clen += nibble; } while (nibble == 0xf); return clen; } } } void DecompressorLZS::copyComp(int offs, int clen) { int hpos = _dwWrote - offs; while (clen--) putByte(_dest[hpos++]); } #endif // #ifdef ENABLE_SCI32 } // End of namespace Sci