scummvm/sky/rnc_deco.cpp
Paweł Kołodziejski b99af18bd5 cleanup whitespaces
svn-id: r11213
2003-11-08 20:27:27 +00:00

261 lines
6.0 KiB
C++

/* ScummVM - Scumm Interpreter
* Copyright (C) 2003 The ScummVM project
*
* 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* $Header$
*
*/
#include "stdafx.h"
#include "common/scummsys.h"
#include "sky/rnc_deco.h"
//return codes
#define NOT_PACKED 0
#define PACKED_CRC -1
#define UNPACKED_CRC -2
//other defines
#define TABLE_SIZE (16 * 8)
#define MIN_LENGTH 2
#define HEADER_LEN 18
RncDecoder::RncDecoder() {
_bitBuffl = 0;
_bitBuffh = 0;
_bitCount = 0;
}
RncDecoder::~RncDecoder() {
}
void RncDecoder::initCrc() {
uint16 cnt = 0;
uint16 tmp1 = 0;
uint16 tmp2 = 0;
for (tmp2 = 0; tmp2 < 0x100; tmp2++) {
tmp1 = tmp2;
for (cnt = 8; cnt > 0; cnt--) {
if (tmp1 % 2) {
tmp1 /= 2;
tmp1 ^= 0x0a001;
} else
tmp1 /= 2;
}
_crcTable[tmp2] = tmp1;
}
}
//calculate 16 bit crc of a block of memory
uint16 RncDecoder::crcBlock(const uint8 *block, uint32 size) {
uint16 crc = 0;
uint8 *crcTable8 = (uint8 *)_crcTable; //make a uint8* to crc_table
uint8 tmp;
uint32 i;
for (i = 0; i < size; i++) {
tmp = *block++;
crc ^= tmp;
tmp = (uint8)((crc >> 8) & 0x00FF);
crc &= 0x00FF;
crc = crc << 1;
crc = *(uint16 *)&crcTable8[crc];
crc ^= tmp;
}
return crc;
}
uint16 RncDecoder::inputBits(uint8 amount) {
uint16 newBitBuffh = _bitBuffh;
uint16 newBitBuffl = _bitBuffl;
int16 newBitCount = _bitCount;
uint16 remBits, returnVal;
returnVal = ((1 << amount) - 1) & newBitBuffl;
newBitCount -= amount;
if (newBitCount < 0) {
newBitCount += amount;
remBits = (newBitBuffh << (16 - newBitCount));
newBitBuffh >>= newBitCount;
newBitBuffl >>= newBitCount;
newBitBuffl |= remBits;
_srcPtr += 2;
newBitBuffh = READ_LE_UINT16(_srcPtr);
amount -= newBitCount;
newBitCount = 16 - amount;
}
remBits = (newBitBuffh << (16 - amount));
_bitBuffh = newBitBuffh >> amount;
_bitBuffl = (newBitBuffl >> amount) | remBits;
_bitCount = (uint8)newBitCount;
return returnVal;
}
void RncDecoder::makeHufftable(uint16 *table) {
uint16 bitLength, i, j;
uint16 numCodes = inputBits(5);
if (!numCodes)
return;
uint8 huffLength[16];
for (i = 0; i < numCodes; i++)
huffLength[i] = (uint8)(inputBits(4) & 0x00FF);
uint16 huffCode = 0;
for (bitLength = 1; bitLength < 17; bitLength++) {
for (i = 0; i < numCodes; i++) {
if (huffLength[i] == bitLength) {
*table++ = (1 << bitLength) - 1;
uint16 b = huffCode >> (16 - bitLength);
uint16 a = 0;
for (j = 0; j < bitLength; j++)
a |= ((b >> j) & 1) << (bitLength - j - 1);
*table++ = a;
*(table + 0x1e) = (huffLength[i] << 8) | (i & 0x00FF);
huffCode += 1 << (16 - bitLength);
}
}
}
}
uint16 RncDecoder::inputValue(uint16 *table) {
uint16 valOne, valTwo, value = _bitBuffl;
do {
valTwo = (*table++) & value;
valOne = *table++;
} while (valOne != valTwo);
value = *(table + 0x1e);
inputBits((uint8)((value>>8) & 0x00FF));
value &= 0x00FF;
if (value >= 2) {
value--;
valOne = inputBits((uint8)value & 0x00FF);
valOne |= (1 << value);
value = valOne;
}
return value;
}
int32 RncDecoder::unpackM1(const void *input, void *output, uint16 key) {
uint8 *outputLow, *outputHigh;
const uint8 *inputHigh, *inputptr = (const uint8 *)input;
uint32 unpackLen = 0;
uint32 packLen = 0;
uint16 counts = 0;
uint16 crcUnpacked = 0;
uint16 crcPacked = 0;
initCrc();
//Check for "RNC "
if (READ_BE_UINT32(inputptr) != 0x524e4301)
return NOT_PACKED;
inputptr += 4;
// read unpacked/packed file length
unpackLen = READ_BE_UINT32(inputptr); inputptr += 4;
packLen = READ_BE_UINT32(inputptr); inputptr += 4;
uint8 blocks = *(inputptr + 5);
//read CRC's
crcUnpacked = READ_BE_UINT16(inputptr); inputptr += 2;
crcPacked = READ_BE_UINT16(inputptr); inputptr += 2;
inputptr = (inputptr + HEADER_LEN - 16);
if (crcBlock(inputptr, packLen) != crcPacked)
return PACKED_CRC;
inputptr = (((const uint8 *)input) + HEADER_LEN);
_srcPtr = inputptr;
inputHigh = ((const uint8 *)input) + packLen + HEADER_LEN;;
outputLow = (uint8 *)output;
outputHigh = *(((const uint8 *)input) + 16) + unpackLen + outputLow;
if (! ((inputHigh <= outputLow) || (outputHigh <= inputHigh)) ) {
_srcPtr = inputHigh;
_dstPtr = outputHigh;
memcpy((_dstPtr-packLen), (_srcPtr-packLen), packLen);
_srcPtr = (_dstPtr-packLen);
}
_dstPtr = (uint8 *)output;
_bitCount = 0;
_bitBuffl = READ_LE_UINT16(_srcPtr);
inputBits(2);
do {
makeHufftable(_rawTable);
makeHufftable(_posTable);
makeHufftable(_lenTable);
counts = inputBits(16);
do {
uint32 inputLength = inputValue(_rawTable);
uint32 inputOffset;
if (inputLength) {
memcpy(_dstPtr, _srcPtr, inputLength); //memcpy is allowed here
_dstPtr += inputLength;
_srcPtr += inputLength;
uint16 a = READ_LE_UINT16(_srcPtr);
uint16 b = READ_LE_UINT16(_srcPtr + 2);
_bitBuffl &= ((1 << _bitCount) - 1);
_bitBuffl |= (a << _bitCount);
_bitBuffh = (a >> (16 - _bitCount)) | (b << _bitCount);
}
if (counts > 1) {
inputOffset = inputValue(_posTable) + 1;
inputLength = inputValue(_lenTable) + MIN_LENGTH;
// Don't use memcpy here! because input and output overlap.
uint8 *tmpPtr = (_dstPtr-inputOffset);
while (inputLength--)
*_dstPtr++ = *tmpPtr++;
}
} while (--counts);
} while (--blocks);
if (crcBlock((uint8 *)output, unpackLen) != crcUnpacked)
return UNPACKED_CRC;
// all is done..return the amount of unpacked bytes
return unpackLen;
}