scummvm/engines/kyra/resource_intern.cpp
2011-12-13 17:55:57 +01:00

1349 lines
32 KiB
C++

/* 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.
*
*/
#include "kyra/resource_intern.h"
#include "kyra/resource.h"
#include "common/endian.h"
#include "common/memstream.h"
#include "common/substream.h"
namespace Kyra {
// Implementation of various Archive subclasses
// -> PlainArchive implementation
PlainArchive::PlainArchive(Common::ArchiveMemberPtr file)
: _file(file), _files() {
}
bool PlainArchive::hasFile(const Common::String &name) const {
return (_files.find(name) != _files.end());
}
int PlainArchive::listMembers(Common::ArchiveMemberList &list) const {
int count = 0;
for (FileMap::const_iterator i = _files.begin(); i != _files.end(); ++i) {
list.push_back(Common::ArchiveMemberList::value_type(new Common::GenericArchiveMember(i->_key, this)));
++count;
}
return count;
}
const Common::ArchiveMemberPtr PlainArchive::getMember(const Common::String &name) const {
if (!hasFile(name))
return Common::ArchiveMemberPtr();
return Common::ArchiveMemberPtr(new Common::GenericArchiveMember(name, this));
}
Common::SeekableReadStream *PlainArchive::createReadStreamForMember(const Common::String &name) const {
FileMap::const_iterator fDesc = _files.find(name);
if (fDesc == _files.end())
return 0;
Common::SeekableReadStream *parent = _file->createReadStream();
if (!parent)
return 0;
return new Common::SeekableSubReadStream(parent, fDesc->_value.offset, fDesc->_value.offset + fDesc->_value.size, DisposeAfterUse::YES);
}
void PlainArchive::addFileEntry(const Common::String &name, const Entry entry) {
_files[name] = entry;
}
PlainArchive::Entry PlainArchive::getFileEntry(const Common::String &name) const {
FileMap::const_iterator fDesc = _files.find(name);
if (fDesc == _files.end())
return Entry();
return fDesc->_value;
}
// -> TlkArchive implementation
TlkArchive::TlkArchive(Common::ArchiveMemberPtr file, uint16 entryCount, const uint32 *fileEntries)
: _file(file), _entryCount(entryCount), _fileEntries(fileEntries) {
}
TlkArchive::~TlkArchive() {
delete[] _fileEntries;
}
bool TlkArchive::hasFile(const Common::String &name) const {
return (findFile(name) != 0);
}
int TlkArchive::listMembers(Common::ArchiveMemberList &list) const {
uint count = 0;
for (; count < _entryCount; ++count) {
const Common::String name = Common::String::format("%08u.AUD", _fileEntries[count * 2 + 0]);
list.push_back(Common::ArchiveMemberList::value_type(new Common::GenericArchiveMember(name, this)));
}
return count;
}
const Common::ArchiveMemberPtr TlkArchive::getMember(const Common::String &name) const {
if (!hasFile(name))
return Common::ArchiveMemberPtr();
return Common::ArchiveMemberPtr(new Common::GenericArchiveMember(name, this));
}
Common::SeekableReadStream *TlkArchive::createReadStreamForMember(const Common::String &name) const {
const uint32 *fileDesc = findFile(name);
if (!fileDesc)
return 0;
Common::SeekableReadStream *parent = _file->createReadStream();
if (!parent)
return 0;
parent->seek(fileDesc[1], SEEK_SET);
const uint32 size = parent->readUint32LE();
const uint32 fileStart = fileDesc[1] + 4;
return new Common::SeekableSubReadStream(parent, fileStart, fileStart + size, DisposeAfterUse::YES);
}
const uint32 *TlkArchive::findFile(const Common::String &name) const {
Common::String uppercaseName = name;
uppercaseName.toUppercase();
if (!uppercaseName.hasSuffix(".AUD"))
return 0;
uint32 id;
if (sscanf(uppercaseName.c_str(), "%08u.AUD", &id) != 1)
return 0;
// Binary search for the file entry
int leftIndex = 0;
int rightIndex = _entryCount - 1;
while (leftIndex <= rightIndex) {
int mid = (leftIndex + rightIndex) / 2;
const uint32 key = _fileEntries[mid * 2];
if (key == id) {
// Found
return &_fileEntries[mid * 2];
} else if (key > id) {
// Take the left sub-tree
rightIndex = mid - 1;
} else {
// Take the right sub-tree
leftIndex = mid + 1;
}
}
return 0;
}
// -> CachedArchive implementation
CachedArchive::CachedArchive(const FileInputList &files)
: _files() {
for (FileInputList::const_iterator i = files.begin(); i != files.end(); ++i) {
Entry entry;
entry.data = i->data;
entry.size = i->size;
Common::String name = i->name;
name.toLowercase();
_files[name] = entry;
}
}
CachedArchive::~CachedArchive() {
for (FileMap::iterator i = _files.begin(); i != _files.end(); ++i)
delete[] i->_value.data;
_files.clear();
}
bool CachedArchive::hasFile(const Common::String &name) const {
return (_files.find(name) != _files.end());
}
int CachedArchive::listMembers(Common::ArchiveMemberList &list) const {
int count = 0;
for (FileMap::const_iterator i = _files.begin(); i != _files.end(); ++i) {
list.push_back(Common::ArchiveMemberList::value_type(new Common::GenericArchiveMember(i->_key, this)));
++count;
}
return count;
}
const Common::ArchiveMemberPtr CachedArchive::getMember(const Common::String &name) const {
if (!hasFile(name))
return Common::ArchiveMemberPtr();
return Common::ArchiveMemberPtr(new Common::GenericArchiveMember(name, this));
}
Common::SeekableReadStream *CachedArchive::createReadStreamForMember(const Common::String &name) const {
FileMap::const_iterator fDesc = _files.find(name);
if (fDesc == _files.end())
return 0;
return new Common::MemoryReadStream(fDesc->_value.data, fDesc->_value.size, DisposeAfterUse::NO);
}
// ResFileLoader implementations
// -> ResLoaderPak implementation
bool ResLoaderPak::checkFilename(Common::String filename) const {
filename.toUppercase();
return (filename.hasSuffix(".PAK") || filename.hasSuffix(".APK") || filename.hasSuffix(".VRM") || filename.hasSuffix(".CMP") || filename.hasSuffix(".TLK") || filename.equalsIgnoreCase(StaticResource::staticDataFilename()));
}
namespace {
Common::String readString(Common::SeekableReadStream &stream) {
Common::String result;
char c = 0;
while ((c = stream.readByte()) != 0)
result += c;
return result;
}
} // end of anonymous namespace
bool ResLoaderPak::isLoadable(const Common::String &filename, Common::SeekableReadStream &stream) const {
int32 filesize = stream.size();
if (filesize < 0)
return false;
int32 offset = 0;
bool switchEndian = false;
bool firstFile = true;
offset = stream.readUint32LE();
if (offset > filesize || offset < 0) {
switchEndian = true;
offset = SWAP_BYTES_32(offset);
}
Common::String file;
while (!stream.eos()) {
// The start offset of a file should never be in the filelist
if (offset < stream.pos() || offset > filesize || offset < 0)
return false;
file = readString(stream);
if (stream.eos())
return false;
// Quit now if we encounter an empty string
if (file.empty()) {
if (firstFile)
return false;
else
break;
}
firstFile = false;
offset = switchEndian ? stream.readUint32BE() : stream.readUint32LE();
if (!offset || offset == filesize)
break;
}
return true;
}
Common::Archive *ResLoaderPak::load(Common::ArchiveMemberPtr memberFile, Common::SeekableReadStream &stream) const {
int32 filesize = stream.size();
if (filesize < 0)
return 0;
Common::ScopedPtr<PlainArchive> result(new PlainArchive(memberFile));
if (!result)
return 0;
int32 startoffset = 0, endoffset = 0;
bool switchEndian = false;
bool firstFile = true;
startoffset = stream.readUint32LE();
if (startoffset > filesize || startoffset < 0) {
switchEndian = true;
startoffset = SWAP_BYTES_32(startoffset);
}
Common::String file;
while (!stream.eos()) {
// The start offset of a file should never be in the filelist
if (startoffset < stream.pos() || startoffset > filesize || startoffset < 0) {
warning("PAK file '%s' is corrupted", memberFile->getDisplayName().c_str());
return 0;
}
file = readString(stream);
if (stream.eos()) {
warning("PAK file '%s' is corrupted", memberFile->getDisplayName().c_str());
return 0;
}
// Quit now if we encounter an empty string
if (file.empty()) {
if (firstFile) {
warning("PAK file '%s' is corrupted", memberFile->getDisplayName().c_str());
return 0;
} else {
break;
}
}
firstFile = false;
endoffset = switchEndian ? stream.readUint32BE() : stream.readUint32LE();
if (endoffset < 0) {
warning("PAK file '%s' is corrupted", memberFile->getDisplayName().c_str());
return 0;
}
if (!endoffset)
endoffset = filesize;
if (startoffset != endoffset)
result->addFileEntry(file, PlainArchive::Entry(startoffset, endoffset - startoffset));
if (endoffset == filesize)
break;
startoffset = endoffset;
}
PlainArchive::Entry linklistFile = result->getFileEntry("LINKLIST");
if (linklistFile.size != 0) {
stream.seek(linklistFile.offset, SEEK_SET);
const uint32 magic = stream.readUint32BE();
if (magic != MKTAG('S','C','V','M'))
error("LINKLIST file does not contain 'SCVM' header");
const uint32 links = stream.readUint32BE();
for (uint32 i = 0; i < links; ++i) {
const Common::String linksTo = readString(stream);
const uint32 sources = stream.readUint32BE();
PlainArchive::Entry destination = result->getFileEntry(linksTo);
if (destination.size == 0)
error("PAK file link destination '%s' not found", linksTo.c_str());
for (uint32 j = 0; j < sources; ++j) {
const Common::String dest = readString(stream);
result->addFileEntry(dest, destination);
}
}
}
return result.release();
}
// -> ResLoaderInsMalcolm implementation
bool ResLoaderInsMalcolm::checkFilename(Common::String filename) const {
filename.toUppercase();
if (!filename.hasSuffix(".001"))
return false;
return true;
}
bool ResLoaderInsMalcolm::isLoadable(const Common::String &filename, Common::SeekableReadStream &stream) const {
stream.seek(3, SEEK_SET);
int32 size = stream.readUint32LE();
if (size+7 > stream.size())
return false;
stream.seek(size+5, SEEK_SET);
uint8 buffer[2];
stream.read(&buffer, 2);
return (buffer[0] == 0x0D && buffer[1] == 0x0A);
}
Common::Archive *ResLoaderInsMalcolm::load(Common::ArchiveMemberPtr memberFile, Common::SeekableReadStream &stream) const {
Common::List<Common::String> filenames;
Common::ScopedPtr<PlainArchive> result(new PlainArchive(memberFile));
if (!result)
return 0;
// thanks to eriktorbjorn for this code (a bit modified though)
stream.seek(3, SEEK_SET);
// first file is the index table
uint32 size = stream.readUint32LE();
Common::String temp;
for (uint32 i = 0; i < size; ++i) {
byte c = stream.readByte();
if (c == '\\') {
temp.clear();
} else if (c == 0x0D) {
// line endings are CRLF
c = stream.readByte();
assert(c == 0x0A);
++i;
filenames.push_back(temp);
} else {
temp += (char)c;
}
}
stream.seek(3, SEEK_SET);
for (Common::List<Common::String>::iterator file = filenames.begin(); file != filenames.end(); ++file) {
const uint32 fileSize = stream.readUint32LE();
const uint32 fileOffset = stream.pos();
result->addFileEntry(*file, PlainArchive::Entry(fileOffset, fileSize));
stream.seek(fileSize, SEEK_CUR);
}
return result.release();
}
bool ResLoaderTlk::checkFilename(Common::String filename) const {
filename.toUppercase();
return (filename.hasSuffix(".TLK"));
}
bool ResLoaderTlk::isLoadable(const Common::String &filename, Common::SeekableReadStream &stream) const {
uint16 entries = stream.readUint16LE();
int32 entryTableSize = (entries * 8);
if (entryTableSize + 2 > stream.size())
return false;
int32 offset = 0;
for (uint i = 0; i < entries; ++i) {
stream.readUint32LE();
offset = stream.readUint32LE();
if (offset > stream.size())
return false;
}
return true;
}
Common::Archive *ResLoaderTlk::load(Common::ArchiveMemberPtr file, Common::SeekableReadStream &stream) const {
const uint16 entryCount = stream.readUint16LE();
uint32 *fileEntries = new uint32[entryCount * 2];
assert(fileEntries);
stream.read(fileEntries, sizeof(uint32) * entryCount * 2);
for (uint i = 0; i < entryCount; ++i) {
fileEntries[i * 2 + 0] = READ_LE_UINT32(&fileEntries[i * 2 + 0]);
fileEntries[i * 2 + 1] = READ_LE_UINT32(&fileEntries[i * 2 + 1]);
}
return new TlkArchive(file, entryCount, fileEntries);
}
// InstallerLoader implementation
class FileExpanderSource {
public:
FileExpanderSource(const uint8 *data, int dataSize) : _dataPtr(data), _endofBuffer(data + dataSize), _bitsLeft(8), _key(0), _index(0) {}
~FileExpanderSource() {}
void advSrcRefresh();
void advSrcBitsBy1();
void advSrcBitsByIndex(uint8 newIndex);
uint8 getKeyLower() { return _key & 0xff; }
void setIndex(uint8 index) { _index = index; }
uint16 getKeyMasked(uint8 newIndex);
uint16 keyMaskedAlign(uint16 val);
void copyBytes(uint8 *& dst);
private:
const uint8 *_dataPtr;
const uint8 *_endofBuffer;
uint16 _key;
int8 _bitsLeft;
uint8 _index;
};
void FileExpanderSource::advSrcBitsBy1() {
_key >>= 1;
if (!--_bitsLeft) {
if (_dataPtr < _endofBuffer)
_key = ((*_dataPtr++) << 8) | (_key & 0xff);
_bitsLeft = 8;
}
}
void FileExpanderSource::advSrcBitsByIndex(uint8 newIndex) {
_index = newIndex;
_bitsLeft -= _index;
if (_bitsLeft <= 0) {
_key >>= (_index + _bitsLeft);
_index = -_bitsLeft;
_bitsLeft = 8 - _index;
if (_dataPtr < _endofBuffer)
_key = (*_dataPtr++ << 8) | (_key & 0xff);
}
_key >>= _index;
}
uint16 FileExpanderSource::getKeyMasked(uint8 newIndex) {
static const uint8 mskTable[] = { 0x0F, 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F, 0xFF };
_index = newIndex;
uint16 res = 0;
if (_index > 8) {
newIndex = _index - 8;
res = (_key & 0xff) & mskTable[8];
advSrcBitsByIndex(8);
_index = newIndex;
res |= (((_key & 0xff) & mskTable[_index]) << 8);
advSrcBitsByIndex(_index);
} else {
res = (_key & 0xff) & mskTable[_index];
advSrcBitsByIndex(_index);
}
return res;
}
void FileExpanderSource::copyBytes(uint8 *& dst) {
advSrcBitsByIndex(_bitsLeft);
uint16 r = (READ_LE_UINT16(_dataPtr) ^ _key) + 1;
_dataPtr += 2;
if (r)
error("decompression failure");
memcpy(dst, _dataPtr, _key);
_dataPtr += _key;
dst += _key;
}
uint16 FileExpanderSource::keyMaskedAlign(uint16 val) {
val -= 0x101;
_index = (val & 0xff) >> 2;
int16 b = ((_bitsLeft << 8) | _index) - 1;
_bitsLeft = b >> 8;
_index = b & 0xff;
uint16 res = (((val & 3) + 4) << _index) + 0x101;
return res + getKeyMasked(_index);
}
void FileExpanderSource::advSrcRefresh() {
_key = READ_LE_UINT16(_dataPtr);
if (_dataPtr < _endofBuffer - 1)
_dataPtr += 2;
_bitsLeft = 8;
}
class FileExpander {
public:
FileExpander();
~FileExpander();
bool process(uint8 *dst, const uint8 *src, uint32 outsize, uint32 insize);
private:
void generateTables(uint8 srcIndex, uint8 dstIndex, uint8 dstIndex2, int cnt);
uint8 calcCmdAndIndex(const uint8 *tbl, int16 &para);
FileExpanderSource *_src;
uint8 *_tables[9];
uint16 *_tables16[3];
};
FileExpander::FileExpander() : _src(0) {
_tables[0] = new uint8[3914];
assert(_tables[0]);
_tables[1] = _tables[0] + 320;
_tables[2] = _tables[0] + 352;
_tables[3] = _tables[0] + 864;
_tables[4] = _tables[0] + 2016;
_tables[5] = _tables[0] + 2528;
_tables[6] = _tables[0] + 2656;
_tables[7] = _tables[0] + 2736;
_tables[8] = _tables[0] + 2756;
_tables16[0] = (uint16 *)(_tables[0] + 3268);
_tables16[1] = (uint16 *)(_tables[0] + 3302);
_tables16[2] = (uint16 *)(_tables[0] + 3338);
}
FileExpander::~FileExpander() {
delete _src;
delete[] _tables[0];
}
bool FileExpander::process(uint8 *dst, const uint8 *src, uint32 outsize, uint32 compressedSize) {
static const uint8 indexTable[] = {
0x10, 0x11, 0x12, 0x00, 0x08, 0x07, 0x09, 0x06, 0x0A,
0x05, 0x0B, 0x04, 0x0C, 0x03, 0x0D, 0x02, 0x0E, 0x01, 0x0F
};
memset(_tables[0], 0, 3914);
uint8 *d = dst;
uint16 tableSize0 = 0;
uint16 tableSize1 = 0;
bool needrefresh = true;
bool postprocess = false;
_src = new FileExpanderSource(src, compressedSize);
while (d < dst + outsize) {
if (needrefresh) {
needrefresh = false;
_src->advSrcRefresh();
}
_src->advSrcBitsBy1();
int mode = _src->getKeyMasked(2) - 1;
if (mode == 1) {
tableSize0 = _src->getKeyMasked(5) + 257;
tableSize1 = _src->getKeyMasked(5) + 1;
memset(_tables[7], 0, 19);
const uint8 *itbl = indexTable;
int numbytes = _src->getKeyMasked(4) + 4;
while (numbytes--)
_tables[7][*itbl++] = _src->getKeyMasked(3);
generateTables(7, 8, 255, 19);
int cnt = tableSize0 + tableSize1;
uint8 *tmp = _tables[0];
while (cnt) {
uint16 cmd = _src->getKeyLower();
cmd = READ_LE_UINT16(&_tables[8][cmd << 1]);
_src->advSrcBitsByIndex(_tables[7][cmd]);
if (cmd < 16) {
*tmp++ = cmd;
cnt--;
} else {
uint8 tmpI = 0;
if (cmd == 16) {
cmd = _src->getKeyMasked(2) + 3;
tmpI = *(tmp - 1);
} else if (cmd == 17) {
cmd = _src->getKeyMasked(3) + 3;
} else {
cmd = _src->getKeyMasked(7) + 11;
}
_src->setIndex(tmpI);
memset(tmp, tmpI, cmd);
tmp += cmd;
cnt -= cmd;
if (cnt < 0)
error("decompression failure");
}
}
memcpy(_tables[1], _tables[0] + tableSize0, tableSize1);
generateTables(0, 2, 3, tableSize0);
generateTables(1, 4, 5, tableSize1);
postprocess = true;
} else if (mode < 0) {
_src->copyBytes(d);
postprocess = false;
needrefresh = true;
} else if (mode == 0){
uint8 *d2 = _tables[0];
memset(d2, 8, 144);
memset(d2 + 144, 9, 112);
memset(d2 + 256, 7, 24);
memset(d2 + 280, 8, 8);
d2 = _tables[1];
memset(d2, 5, 32);
tableSize0 = 288;
tableSize1 = 32;
generateTables(0, 2, 3, tableSize0);
generateTables(1, 4, 5, tableSize1);
postprocess = true;
} else {
error("decompression failure");
}
if (!postprocess)
continue;
int16 cmd = 0;
do {
cmd = ((int16 *)_tables[2])[_src->getKeyLower()];
_src->advSrcBitsByIndex(cmd < 0 ? calcCmdAndIndex(_tables[3], cmd) : _tables[0][cmd]);
if (cmd == 0x11d) {
cmd = 0x200;
} else if (cmd > 0x108) {
cmd = _src->keyMaskedAlign(cmd);
}
if (!(cmd >> 8)) {
*d++ = cmd & 0xff;
} else if (cmd != 0x100) {
cmd -= 0xfe;
int16 offset = ((int16 *)_tables[4])[_src->getKeyLower()];
_src->advSrcBitsByIndex(offset < 0 ? calcCmdAndIndex(_tables[5], offset) : _tables[1][offset]);
if ((offset & 0xff) >= 4) {
uint8 newIndex = ((offset & 0xff) >> 1) - 1;
offset = (((offset & 1) + 2) << newIndex);
offset += _src->getKeyMasked(newIndex);
}
uint8 *s2 = d - 1 - offset;
if (s2 >= dst) {
while (cmd--)
*d++ = *s2++;
} else {
uint32 pos = dst - s2;
s2 += (d - dst);
if (pos < (uint32) cmd) {
cmd -= pos;
while (pos--)
*d++ = *s2++;
s2 = dst;
}
while (cmd--)
*d++ = *s2++;
}
}
} while (cmd != 0x100);
}
delete _src;
_src = 0;
return true;
}
void FileExpander::generateTables(uint8 srcIndex, uint8 dstIndex, uint8 dstIndex2, int cnt) {
uint8 *tbl1 = _tables[srcIndex];
uint8 *tbl2 = _tables[dstIndex];
uint8 *tbl3 = dstIndex2 == 0xff ? 0 : _tables[dstIndex2];
if (!cnt)
return;
const uint8 *s = tbl1;
memset(_tables16[0], 0, 32);
for (int i = 0; i < cnt; i++)
_tables16[0][(*s++)]++;
_tables16[1][1] = 0;
for (uint16 i = 1, r = 0; i < 16; i++) {
r = (r + _tables16[0][i]) << 1;
_tables16[1][i + 1] = r;
}
if (_tables16[1][16]) {
uint16 r = 0;
for (uint16 i = 1; i < 16; i++)
r += _tables16[0][i];
if (r > 1)
error("decompression failure");
}
s = tbl1;
uint16 *d = _tables16[2];
for (int i = 0; i < cnt; i++) {
uint16 t = *s++;
if (t) {
_tables16[1][t]++;
t = _tables16[1][t] - 1;
}
*d++ = t;
}
s = tbl1;
d = _tables16[2];
for (int i = 0; i < cnt; i++) {
int8 t = ((int8)(*s++)) - 1;
if (t > 0) {
uint16 v1 = *d;
uint16 v2 = 0;
do {
v2 = (v2 << 1) | (v1 & 1);
v1 >>= 1;
} while (--t && v1);
t++;
uint8 c1 = (v1 & 1);
while (t--) {
uint8 c2 = v2 >> 15;
v2 = (v2 << 1) | c1;
c1 = c2;
};
*d++ = v2;
} else {
d++;
}
}
memset(tbl2, 0, 512);
cnt--;
s = tbl1 + cnt;
d = &_tables16[2][cnt];
uint16 * bt = (uint16 *)tbl3;
uint16 inc = 0;
uint16 cnt2 = 0;
do {
uint8 t = *s--;
uint16 *s2 = (uint16 *)tbl2;
if (t && t < 9) {
inc = 1 << t;
uint16 o = *d;
do {
s2[o] = cnt;
o += inc;
} while (!(o & 0xf00));
} else if (t > 8) {
if (!bt)
error("decompression failure");
t -= 8;
uint8 shiftCnt = 1;
uint8 v = (*d) >> 8;
s2 = &((uint16 *)tbl2)[*d & 0xff];
do {
if (!*s2) {
*s2 = (uint16)(~cnt2);
*(uint32 *)&bt[cnt2] = 0;
cnt2 += 2;
}
s2 = &bt[(uint16)(~*s2)];
if (v & shiftCnt)
s2++;
shiftCnt <<= 1;
} while (--t);
*s2 = cnt;
}
d--;
} while (--cnt >= 0);
}
uint8 FileExpander::calcCmdAndIndex(const uint8 *tbl, int16 &para) {
const uint16 *t = (const uint16 *)tbl;
_src->advSrcBitsByIndex(8);
uint8 newIndex = 0;
uint16 v = _src->getKeyLower();
do {
newIndex++;
para = t[((~para) & 0xfffe) | (v & 1)];
v >>= 1;
} while (para < 0);
return newIndex;
}
namespace {
struct InsArchive {
Common::String filename;
uint32 firstFile;
uint32 startOffset;
uint32 lastFile;
uint32 endOffset;
uint32 totalSize;
};
} // end of anonymouse namespace
class CmpVocDecoder {
public:
CmpVocDecoder();
~CmpVocDecoder();
uint8 *process(uint8 *src, uint32 insize, uint32 *outsize, bool disposeInput = true);
private:
void decodeHelper(int p);
int32 *_vtbl;
int32 *_tbl1, *_p1, *_tbl2, *_p2, *_tbl3, *_p3, *_tbl4, *_p4, *_floatArray, *_stTbl;
uint8 *_sndArray;
};
Common::Archive *InstallerLoader::load(Resource *owner, const Common::String &filename, const Common::String &extension, const uint8 containerOffset) {
uint32 pos = 0;
uint32 bytesleft = 0;
bool startFile = true;
Common::String filenameBase = filename;
Common::String filenameTemp;
char filenameExt[4];
if (filenameBase.lastChar() != '.')
filenameBase += '.';
InsArchive newArchive;
Common::List<InsArchive> archives;
Common::SeekableReadStream *tmpFile = 0;
for (int8 currentFile = 1; currentFile; currentFile++) {
sprintf(filenameExt, extension.c_str(), currentFile);
filenameTemp = filenameBase + Common::String(filenameExt);
if (!(tmpFile = owner->createReadStream(filenameTemp))) {
debug(3, "couldn't open file '%s'\n", filenameTemp.c_str());
break;
}
tmpFile->seek(pos, SEEK_SET);
uint8 fileId = tmpFile->readByte();
pos++;
uint32 size = tmpFile->size() - 1;
if (startFile) {
size -= 4;
if (fileId == currentFile) {
size -= containerOffset;
pos += containerOffset;
tmpFile->seek(containerOffset, SEEK_CUR);
} else {
size = size + 1 - pos;
}
newArchive.filename = filenameBase;
bytesleft = newArchive.totalSize = tmpFile->readUint32LE();
pos += 4;
newArchive.firstFile = currentFile;
newArchive.startOffset = pos;
startFile = false;
}
uint32 cs = MIN(size, bytesleft);
bytesleft -= cs;
delete tmpFile;
tmpFile = 0;
pos += cs;
if (cs == size) {
if (!bytesleft) {
newArchive.lastFile = currentFile;
newArchive.endOffset = --pos;
archives.push_back(newArchive);
currentFile = -1;
} else {
pos = 0;
}
} else {
startFile = true;
bytesleft = size - cs;
newArchive.lastFile = currentFile--;
newArchive.endOffset = --pos;
archives.push_back(newArchive);
}
}
FileExpander exp;
CmpVocDecoder cvdec;
CachedArchive::InputEntry newEntry;
uint32 insize = 0;
uint32 outsize = 0;
uint8 *inbuffer = 0;
uint8 *outbuffer = 0;
uint32 inPart1 = 0;
uint32 inPart2 = 0;
uint8 compressionType = 0;
Common::String entryStr;
CachedArchive::FileInputList fileList;
pos = 0;
const uint32 kExecSize = 0x0bba;
const uint32 kHeaderSize = 30;
const uint32 kHeaderSize2 = 46;
for (Common::List<InsArchive>::iterator a = archives.begin(); a != archives.end(); ++a) {
startFile = true;
for (uint32 i = a->firstFile; i != (a->lastFile + 1); i++) {
sprintf(filenameExt, extension.c_str(), i);
filenameTemp = a->filename + Common::String(filenameExt);
if (!(tmpFile = owner->createReadStream(filenameTemp))) {
debug(3, "couldn't open file '%s'\n", filenameTemp.c_str());
break;
}
uint32 size = (i == a->lastFile) ? a->endOffset : tmpFile->size();
if (startFile) {
startFile = false;
pos = a->startOffset + kExecSize;
if (pos > size) {
pos -= size;
delete tmpFile;
tmpFile = 0;
continue;
}
} else {
if (inPart2) {
tmpFile->seek(1, SEEK_SET);
tmpFile->read(inbuffer + inPart1, inPart2);
inPart2 = 0;
if (compressionType > 0)
exp.process(outbuffer, inbuffer, outsize, insize);
else
memcpy(outbuffer, inbuffer, outsize);
delete[] inbuffer;
inbuffer = 0;
newEntry.data = outbuffer;
newEntry.size = outsize;
newEntry.name = entryStr;
entryStr.toUppercase();
if (entryStr.hasSuffix(".CMP")) {
entryStr.deleteLastChar();
entryStr.deleteLastChar();
entryStr.deleteLastChar();
entryStr += "PAK";
newEntry.data = cvdec.process(outbuffer, outsize, &outsize);
newEntry.size = outsize;
newEntry.name = entryStr;
}
fileList.push_back(newEntry);
}
pos++;
}
while (pos < size) {
uint8 hdr[43];
uint32 m = 0;
tmpFile->seek(pos, SEEK_SET);
if (pos + 42 > size) {
m = size - pos;
uint32 b = 42 - m;
if (m >= 4) {
uint32 id = tmpFile->readUint32LE();
if (id == 0x06054B50) {
startFile = true;
break;
} else {
tmpFile->seek(pos, SEEK_SET);
}
}
sprintf(filenameExt, extension.c_str(), i + 1);
filenameTemp = a->filename + Common::String(filenameExt);
Common::SeekableReadStream *tmpFile2 = owner->createReadStream(filenameTemp);
tmpFile->read(hdr, m);
tmpFile2->read(hdr + m, b);
delete tmpFile2;
} else {
tmpFile->read(hdr, 42);
}
uint32 id = READ_LE_UINT32(hdr);
if (id == 0x04034B50) {
compressionType = hdr[8];
insize = READ_LE_UINT32(hdr + 18);
outsize = READ_LE_UINT32(hdr + 22);
uint16 filestrlen = READ_LE_UINT16(hdr + 26);
*(hdr + 30 + filestrlen) = 0;
entryStr = Common::String((const char *)(hdr + 30));
pos += (kHeaderSize + filestrlen - m);
tmpFile->seek(pos, SEEK_SET);
outbuffer = new uint8[outsize];
if (!outbuffer)
error("Out of memory: Can't uncompress installer files");
if (!inbuffer) {
inbuffer = new uint8[insize];
if (!inbuffer)
error("Out of memory: Can't uncompress installer files");
}
if ((pos + insize) > size) {
// this is for files that are split between two archive files
inPart1 = size - pos;
inPart2 = insize - inPart1;
tmpFile->read(inbuffer, inPart1);
} else {
tmpFile->read(inbuffer, insize);
inPart2 = 0;
if (compressionType > 0)
exp.process(outbuffer, inbuffer, outsize, insize);
else
memcpy(outbuffer, inbuffer, outsize);
delete[] inbuffer;
inbuffer = 0;
newEntry.data = outbuffer;
newEntry.size = outsize;
newEntry.name = entryStr;
entryStr.toUppercase();
if (entryStr.hasSuffix(".CMP")) {
entryStr.deleteLastChar();
entryStr.deleteLastChar();
entryStr.deleteLastChar();
entryStr += "PAK";
newEntry.data = cvdec.process(outbuffer, outsize, &outsize);
newEntry.size = outsize;
newEntry.name = entryStr;
}
fileList.push_back(newEntry);
}
pos += insize;
if (pos > size) {
pos -= size;
break;
}
} else {
uint32 filestrlen = READ_LE_UINT32(hdr + 28);
pos += (kHeaderSize2 + filestrlen - m);
}
}
delete tmpFile;
tmpFile = 0;
}
}
archives.clear();
return new CachedArchive(fileList);
}
CmpVocDecoder::CmpVocDecoder() {
_tbl1 = new int32[4000];
_p1 = _tbl1 + 2000;
_tbl2 = new int32[4000];
_p2 = _tbl2 + 2000;
_tbl3 = new int32[4000];
_p3 = _tbl3 + 2000;
_tbl4 = new int32[4000];
_p4 = _tbl4 + 2000;
_vtbl = new int32[8193];
_floatArray = new int32[8193];
_sndArray = new uint8[8192];
_stTbl = new int32[256];
assert(_tbl1);
assert(_tbl2);
assert(_tbl3);
assert(_tbl4);
assert(_vtbl);
assert(_floatArray);
assert(_sndArray);
assert(_stTbl);
for (int32 i = -2000; i < 2000; i++) {
int32 x = i + 2000;
_tbl1[x] = (int32)(0.4829629131445341 * (double)i * 256.0);
_tbl2[x] = (int32)(0.8365163037378079 * (double)i * 256.0);
_tbl3[x] = (int32)(0.2241438680420134 * (double)i * 256.0);
_tbl4[x] = (int32)(-0.1294095225512604 * (double)i * 256.0);
}
}
CmpVocDecoder::~CmpVocDecoder() {
delete[] _stTbl;
delete[] _sndArray;
delete[] _floatArray;
delete[] _vtbl;
delete[] _tbl1;
delete[] _tbl2;
delete[] _tbl3;
delete[] _tbl4;
}
uint8 *CmpVocDecoder::process(uint8 *src, uint32 insize, uint32 *outsize, bool disposeInput) {
*outsize = 0;
uint8 *outTemp = new uint8[insize];
uint8 *inPosH = src;
uint8 *outPosH = outTemp;
uint8 *outPosD = outTemp + READ_LE_UINT32(src);
uint8 *end = outPosD;
while (outPosH < end) {
uint8 *spos = inPosH;
uint32 offset = READ_LE_UINT32(inPosH);
inPosH += 4;
char *name = (char *)inPosH;
inPosH += strlen(name) + 1;
if (!name[0]) {
*outsize = outPosD - outTemp;
WRITE_LE_UINT32(outPosH, *outsize);
memset(outPosH + 4, 0, 5);
break;
}
uint32 fileSize = READ_LE_UINT32(inPosH) - offset;
int headerEntryLen = inPosH - spos;
if (scumm_stricmp(name + strlen(name) - 4, ".voc")) {
memcpy(outPosH, spos, headerEntryLen);
WRITE_LE_UINT32(outPosH, outPosD - outTemp);
outPosH += headerEntryLen;
memcpy(outPosD, src + offset, fileSize);
outPosD += fileSize;
continue;
}
uint8 *vocPtr = src + offset;
uint32 vocLen = (vocPtr[27] | (vocPtr[28] << 8) | (vocPtr[29] << 16)) - 2;
uint8 *vocOutEnd = outPosD + vocLen + 32;
uint8 *vocInEnd = src + offset + fileSize;
memcpy(outPosD, vocPtr, 32);
uint8 *dst = outPosD + 32;
vocPtr += 32;
float t = 0.0f;
while (dst < vocOutEnd) {
memcpy(&t, vocPtr, 4);
vocPtr += 4;
uint32 readSize = MIN<uint32>(8192, vocInEnd - vocPtr);
memcpy(_sndArray, vocPtr, readSize);
vocPtr += readSize;
for (int i = -128; i < 128; i++)
_stTbl[i + 128] = (int32)((float)i / t + 0.5f);
int8 *ps = (int8 *)_sndArray;
for (int i = 0; i < 8192; i++)
_floatArray[i + 1] = _stTbl[128 + *ps++];
for (int i = 4; i <= 8192; i <<= 1)
decodeHelper(i);
for (int i = 1; i <= 8192; i++) {
int32 v = CLIP<int32>(_floatArray[i] + 128, 0, 255);
_sndArray[i - 1] = v;
}
uint32 numBytesOut = MIN<uint32>(vocOutEnd - dst, 8192);
memcpy(dst, _sndArray, numBytesOut);
dst += numBytesOut;
}
*dst++ = 0;
memcpy(outPosH, spos, headerEntryLen);
WRITE_LE_UINT32(outPosH, outPosD - outTemp);
outPosH += headerEntryLen;
outPosD += (vocLen + 33);
}
if (disposeInput)
delete[] src;
uint8 *outFinal = new uint8[*outsize];
memcpy(outFinal, outTemp, *outsize);
delete[] outTemp;
return outFinal;
}
void CmpVocDecoder::decodeHelper(int p1) {
int p2 = p1 >> 1;
int p3 = p2 + 1;
int16 fi1 = _floatArray[1];
int16 fi2 = _floatArray[p2];
int16 fi3 = _floatArray[p3];
int16 fi4 = _floatArray[p1];
_vtbl[1] = (*(_p3 + fi2) + *(_p2 + fi4) + *(_p1 + fi1) + *(_p4 + fi3)) >> 8;
_vtbl[2] = (*(_p4 + fi2) - *(_p1 + fi4) + *(_p2 + fi1) - *(_p3 + fi3)) >> 8;
int d = 3;
int s = 1;
while (s < p2) {
fi2 = _floatArray[s];
fi1 = _floatArray[s + 1];
fi4 = _floatArray[s + p2];
fi3 = _floatArray[s + p3];
_vtbl[d++] = (*(_p3 + fi2) + *(_p2 + fi4) + *(_p1 + fi1) + *(_p4 + fi3)) >> 8;
_vtbl[d++] = (*(_p4 + fi2) - *(_p1 + fi4) + *(_p2 + fi1) - *(_p3 + fi3)) >> 8;
s++;
}
memcpy(&_floatArray[1], &_vtbl[1], p1 * sizeof(int32));
}
} // End of namespace Kyra