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|
/* 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.
*
*/
// Resource library
#include "common/dcl.h"
#include "common/util.h"
#include "common/endian.h"
#include "common/stream.h"
#include "common/textconsole.h"
#include "sci/decompressor.h"
#include "sci/sci.h"
#include "sci/resource.h"
namespace Sci {
int Decompressor::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked, uint32 nUnpacked) {
uint32 chunk;
while (nPacked && !(src->eos() || src->err())) {
chunk = MIN<uint32>(1024, nPacked);
src->read(dest, chunk);
nPacked -= chunk;
dest += chunk;
}
return (src->eos() || src->err()) ? 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 & ~(0xFFFFFFFFU << 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 tokenlastlength = 0;
uint16 *tokenlist = (uint16 *)malloc(4096 * sizeof(uint16)); // pointers to dest[]
uint16* tokenlengthlist = (uint16 *)malloc(4096 * sizeof(uint16)); // char length of each token
if (!tokenlist || !tokenlengthlist) {
free(tokenlist);
free(tokenlengthlist);
error("[DecompressorLZW::unpackLZW] Cannot allocate token memory buffers");
}
while (!isFinished()) {
token = getBitsLSB(_numbits);
if (token == 0x101) {
free(tokenlist);
free(tokenlengthlist);
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);
free(tokenlist);
free(tokenlengthlist);
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++;
}
}
}
free(tokenlist);
free(tokenlengthlist);
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 = (byte *)malloc(0x1014);
uint32 tokensSize = 0x1004 * sizeof(Tokenlist);
Tokenlist *tokens = (Tokenlist *)malloc(tokensSize);
if (!stak || !tokens) {
free(stak);
free(tokens);
error("[DecompressorLZW::unpackLZW1] Cannot allocate decompression buffers");
}
memset(tokens, 0, tokensSize);
byte lastchar = 0;
uint16 stakptr = 0, lastbits = 0;
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;
}
}
free(stak);
free(tokens);
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);
free(cc_pos);
free(cc_lengths);
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]);
if (pal_offset) {
*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
//----------------------------------------------
int DecompressorDCL::unpack(Common::ReadStream *src, byte *dest, uint32 nPacked,
uint32 nUnpacked) {
return Common::decompressDCL(src, dest, nPacked, nUnpacked) ? 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;
uint32 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;
}
uint32 DecompressorLZS::getCompLen() {
uint32 clen;
int 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, uint32 clen) {
int hpos = _dwWrote - offs;
while (clen--)
putByte(_dest[hpos++]);
}
#endif // #ifdef ENABLE_SCI32
} // End of namespace Sci
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