deep-c-rsc/mudclient204-threadless/BZLib.java
2021-07-18 21:51:38 -05:00

514 lines
18 KiB
Java

public class BZLib {
public static int decompress(byte out[], int outSize, byte in[], int inSize, int offset) {
BZState block = new BZState();
block.input = in;
block.nextIn = offset;
block.output = out;
block.availOut = 0;
block.availIn = inSize;
block.decompressedSize = outSize;
block.bsLive = 0;
block.bsBuff = 0;
block.totalInLo32 = 0;
block.totalInHi32 = 0;
block.totalOutLo32 = 0;
block.totalOutHi32 = 0;
block.blockNo = 0;
decompress(block);
outSize -= block.decompressedSize;
return outSize;
}
private static void nextHeader(BZState state) {
byte cStateOutCh = state.stateOutCh;
int cStateOutLen = state.stateOutLen;
int cNblockUsed = state.nblockUsed;
int cK0 = state.k0;
int cTt[] = state.tt;
int cTpos = state.tpos;
byte output[] = state.output;
int csNextOut = state.availOut;
int csAvailOut = state.decompressedSize;
int asdasdasd = csAvailOut;
int sSaveNblockPP = state.saveNblock + 1;
returnNotr:
do {
if (cStateOutLen > 0) {
do {
if (csAvailOut == 0)
break returnNotr;
if (cStateOutLen == 1)
break;
output[csNextOut] = cStateOutCh;
cStateOutLen--;
csNextOut++;
csAvailOut--;
} while (true);
if (csAvailOut == 0) {
cStateOutLen = 1;
break;
}
output[csNextOut] = cStateOutCh;
csNextOut++;
csAvailOut--;
}
boolean flag = true;
while (flag) {
flag = false;
if (cNblockUsed == sSaveNblockPP) {
cStateOutLen = 0;
break returnNotr;
}
cStateOutCh = (byte) cK0;
cTpos = cTt[cTpos];
byte k1 = (byte) (cTpos & 0xff);
cTpos >>= 8;
cNblockUsed++;
if (k1 != cK0) {
cK0 = k1;
if (csAvailOut == 0) {
cStateOutLen = 1;
} else {
output[csNextOut] = cStateOutCh;
csNextOut++;
csAvailOut--;
flag = true;
continue;
}
break returnNotr;
}
if (cNblockUsed != sSaveNblockPP)
continue;
if (csAvailOut == 0) {
cStateOutLen = 1;
break returnNotr;
}
output[csNextOut] = cStateOutCh;
csNextOut++;
csAvailOut--;
flag = true;
}
cStateOutLen = 2;
cTpos = cTt[cTpos];
byte k2 = (byte) (cTpos & 0xff);
cTpos >>= 8;
if (++cNblockUsed != sSaveNblockPP)
if (k2 != cK0) {
cK0 = k2;
} else {
cStateOutLen = 3;
cTpos = cTt[cTpos];
byte k3 = (byte) (cTpos & 0xff);
cTpos >>= 8;
if (++cNblockUsed != sSaveNblockPP)
if (k3 != cK0) {
cK0 = k3;
} else {
cTpos = cTt[cTpos];
byte byte3 = (byte) (cTpos & 0xff);
cTpos >>= 8;
cNblockUsed++;
cStateOutLen = (byte3 & 0xff) + 4;
cTpos = cTt[cTpos];
cK0 = (byte) (cTpos & 0xff);
cTpos >>= 8;
cNblockUsed++;
}
}
} while (true);
int i2 = state.totalOutLo32;
state.totalOutLo32 += asdasdasd - csAvailOut;
if (state.totalOutLo32 < i2)
state.totalOutHi32++;
state.stateOutCh = cStateOutCh;
state.stateOutLen = cStateOutLen;
state.nblockUsed = cNblockUsed;
state.k0 = cK0;
state.tt = cTt;
state.tpos = cTpos;
state.output = output;
state.availOut = csNextOut;
state.decompressedSize = csAvailOut;
}
private static void decompress(BZState state) {
/*boolean flag = false;
boolean flag1 = false;
boolean flag2 = false;
boolean flag3 = false;
boolean flag4 = false;
boolean flag5 = false;
boolean flag6 = false;
boolean flag7 = false;
boolean flag8 = false;
boolean flag9 = false;
boolean flag10 = false;
boolean flag11 = false;
boolean flag12 = false;
boolean flag13 = false;
boolean flag14 = false;
boolean flag15 = false;
boolean flag16 = false;
boolean flag17 = false;
boolean flag18 = false;*/
int gMinLen = 0;
int gLimit[] = null;
int gBase[] = null;
int gPerm[] = null;
state.blocksize100k = 1;
if (state.tt == null)
state.tt = new int[state.blocksize100k * 100000];
boolean goingandshit = true;
while (goingandshit) {
byte uc = getUchar(state);
if (uc == 23)
return;
uc = getUchar(state);
uc = getUchar(state);
uc = getUchar(state);
uc = getUchar(state);
uc = getUchar(state);
state.blockNo++;
uc = getUchar(state);
uc = getUchar(state);
uc = getUchar(state);
uc = getUchar(state);
uc = getBit(state);
state.blockRandomised = uc != 0;
if (state.blockRandomised)
System.out.println("PANIC! RANDOMISED BLOCK!");
state.origPtr = 0;
uc = getUchar(state);
state.origPtr = state.origPtr << 8 | uc & 0xff;
uc = getUchar(state);
state.origPtr = state.origPtr << 8 | uc & 0xff;
uc = getUchar(state);
state.origPtr = state.origPtr << 8 | uc & 0xff;
for (int i = 0; i < 16; i++) {
uc = getBit(state);
state.inUse_16[i] = uc == 1;
}
for (int i = 0; i < 256; i++)
state.inUse[i] = false;
for (int i = 0; i < 16; i++)
if (state.inUse_16[i]) {
for (int j = 0; j < 16; j++) {
uc = getBit(state);
if (uc == 1)
state.inUse[i * 16 + j] = true;
}
}
makeMaps(state);
int alphaSize = state.nInUse + 2;
int nGroups = getBits(3, state);
int nSelectors = getBits(15, state);
for (int i = 0; i < nSelectors; i++) {
int j = 0;
do {
uc = getBit(state);
if (uc == 0)
break;
j++;
} while (true);
state.selectorMtf[i] = (byte) j;
}
byte pos[] = new byte[6];
for (byte v = 0; v < nGroups; v++)
pos[v] = v;
for (int i = 0; i < nSelectors; i++) {
byte v = state.selectorMtf[i];
byte tmp = pos[v];
for (; v > 0; v--)
pos[v] = pos[v - 1];
pos[0] = tmp;
state.selector[i] = tmp;
}
for (int t = 0; t < nGroups; t++) {
int curr = getBits(5, state);
for (int i = 0; i < alphaSize; i++) {
do {
uc = getBit(state);
if (uc == 0)
break;
uc = getBit(state);
if (uc == 0)
curr++;
else
curr--;
} while (true);
state.len[t][i] = (byte) curr;
}
}
for (int t = 0; t < nGroups; t++) {
byte minLen = 32;
int maxLen = 0;
for (int l1 = 0; l1 < alphaSize; l1++) {
if (state.len[t][l1] > maxLen)
maxLen = state.len[t][l1];
if (state.len[t][l1] < minLen)
minLen = state.len[t][l1];
}
createDecodeTables(state.limit[t], state.base[t], state.perm[t], state.len[t], minLen, maxLen, alphaSize);
state.minLens[t] = minLen;
}
int eob = state.nInUse + 1;
int nblockMax = 100000 * state.blocksize100k;
int groupNo = -1;
int groupPos = 0;
for (int i = 0; i <= 255; i++)
state.unzftab[i] = 0;
int kk = 4095; // MTFASIZE-1;
for (int ii = 15; ii >= 0; ii--) {
for (int jj = 15; jj >= 0; jj--) {
state.mtfa[kk] = (byte) (ii * 16 + jj);
kk--;
}
state.mtfbase[ii] = kk + 1;
}
int nblock = 0;
// GETMTFVAL
if (groupPos == 0) {
groupNo++;
groupPos = 50; // BZGSIZE
byte gSel = state.selector[groupNo];
gMinLen = state.minLens[gSel];
gLimit = state.limit[gSel];
gPerm = state.perm[gSel];
gBase = state.base[gSel];
}
groupPos--;
int zn = gMinLen;
int zvec;
byte zj;
for (zvec = getBits(zn, state); zvec > gLimit[zn]; zvec = zvec << 1 | zj) {
zn++;
zj = getBit(state);
}
for (int nextSym = gPerm[zvec - gBase[zn]]; nextSym != eob; )
if (nextSym == 0 || nextSym == 1) { // BZRUNA, BZRUNB
int es = -1;
int N = 1;
do {
if (nextSym == 0)
es += N;
else if (nextSym == 1)
es += 2 * N;
N *= 2;
// GETMTFVAL, y da fuk did they not subroutine this
if (groupPos == 0) {
groupNo++;
groupPos = 50;
byte gSel = state.selector[groupNo];
gMinLen = state.minLens[gSel];
gLimit = state.limit[gSel];
gPerm = state.perm[gSel];
gBase = state.base[gSel];
}
groupPos--;
int zn_2 = gMinLen;
int zvec_2;
byte zj_2;
for (zvec_2 = getBits(zn_2, state); zvec_2 > gLimit[zn_2]; zvec_2 = zvec_2 << 1 | zj_2) {
zn_2++;
zj_2 = getBit(state);
}
nextSym = gPerm[zvec_2 - gBase[zn_2]];
} while (nextSym == 0 || nextSym == 1);
es++;
uc = state.setToUnseq[state.mtfa[state.mtfbase[0]] & 0xff];
state.unzftab[uc & 0xff] += es;
for (; es > 0; es--) {
state.tt[nblock] = uc & 0xff;
nblock++;
}
} else {
int nn = nextSym - 1;
if (nn < 16) { // MTFLSIZE
int pp = state.mtfbase[0];
uc = state.mtfa[pp + nn];
for (; nn > 3; nn -= 4) {
int z = pp + nn;
state.mtfa[z] = state.mtfa[z - 1];
state.mtfa[z - 1] = state.mtfa[z - 2];
state.mtfa[z - 2] = state.mtfa[z - 3];
state.mtfa[z - 3] = state.mtfa[z - 4];
}
for (; nn > 0; nn--)
state.mtfa[pp + nn] = state.mtfa[(pp + nn) - 1];
state.mtfa[pp] = uc;
} else {
int lno = nn / 16;
int off = nn % 16;
int pp = state.mtfbase[lno] + off;
uc = state.mtfa[pp];
for (; pp > state.mtfbase[lno]; pp--)
state.mtfa[pp] = state.mtfa[pp - 1];
state.mtfbase[lno]++;
for (; lno > 0; lno--) {
state.mtfbase[lno]--;
state.mtfa[state.mtfbase[lno]] = state.mtfa[(state.mtfbase[lno - 1] + 16) - 1];
}
state.mtfbase[0]--;
state.mtfa[state.mtfbase[0]] = uc;
if (state.mtfbase[0] == 0) {
kk = 4095; // MTFASIZE - 1
for (int ii = 15; ii >= 0; ii--) {
for (int jj = 15; jj >= 0; jj--) {
state.mtfa[kk] = state.mtfa[state.mtfbase[ii] + jj];
kk--;
}
state.mtfbase[ii] = kk + 1;
}
}
}
state.unzftab[state.setToUnseq[uc & 0xff] & 0xff]++;
state.tt[nblock] = state.setToUnseq[uc & 0xff] & 0xff;
nblock++;
// GETMTFVAL here we go AGAIN
if (groupPos == 0) {
groupNo++;
groupPos = 50;
byte gSel = state.selector[groupNo];
gMinLen = state.minLens[gSel];
gLimit = state.limit[gSel];
gPerm = state.perm[gSel];
gBase = state.base[gSel];
}
groupPos--;
int zn_2 = gMinLen;
int zvec_2;
byte zj_2;
for (zvec_2 = getBits(zn_2, state); zvec_2 > gLimit[zn_2]; zvec_2 = zvec_2 << 1 | zj_2) {
zn_2++;
zj_2 = getBit(state);
}
nextSym = gPerm[zvec_2 - gBase[zn_2]];
}
state.stateOutLen = 0;
state.stateOutCh = 0;
state.cftab[0] = 0;
for (int i = 1; i <= 256; i++)
state.cftab[i] = state.unzftab[i - 1];
for (int i = 1; i <= 256; i++)
state.cftab[i] += state.cftab[i - 1];
for (int i = 0; i < nblock; i++) {
uc = (byte) (state.tt[i] & 0xff);
state.tt[state.cftab[uc & 0xff]] |= i << 8;
state.cftab[uc & 0xff]++;
}
state.tpos = state.tt[state.origPtr] >> 8;
state.nblockUsed = 0;
state.tpos = state.tt[state.tpos];
state.k0 = (byte) (state.tpos & 0xff);
state.tpos >>= 8;
state.nblockUsed++;
state.saveNblock = nblock;
nextHeader(state);
goingandshit = state.nblockUsed == state.saveNblock + 1 && state.stateOutLen == 0;
}
}
private static byte getUchar(BZState state) {
return (byte) getBits(8, state);
}
private static byte getBit(BZState state) {
return (byte) getBits(1, state);
}
private static int getBits(int i, BZState state) {
int vvv;
do {
if (state.bsLive >= i) {
int v = state.bsBuff >> state.bsLive - i & (1 << i) - 1;
state.bsLive -= i;
vvv = v;
break;
}
state.bsBuff = state.bsBuff << 8 | state.input[state.nextIn] & 0xff;
state.bsLive += 8;
state.nextIn++;
state.availIn--;
state.totalInLo32++;
if (state.totalInLo32 == 0)
state.totalInHi32++;
} while (true);
return vvv;
}
private static void makeMaps(BZState state) {
state.nInUse = 0;
for (int i = 0; i < 256; i++)
if (state.inUse[i]) {
state.setToUnseq[state.nInUse] = (byte) i;
state.nInUse++;
}
}
private static void createDecodeTables(int limit[], int base[], int perm[], byte length[], int minLen, int maxLen, int alphaSize) {
int pp = 0;
for (int i = minLen; i <= maxLen; i++) {
for (int j = 0; j < alphaSize; j++)
if (length[j] == i) {
perm[pp] = j;
pp++;
}
}
for (int i = 0; i < 23; i++)
base[i] = 0;
for (int i = 0; i < alphaSize; i++)
base[length[i] + 1]++;
for (int i = 1; i < 23; i++)
base[i] += base[i - 1];
for (int i = 0; i < 23; i++)
limit[i] = 0;
int vec = 0;
for (int i = minLen; i <= maxLen; i++) {
vec += base[i + 1] - base[i];
limit[i] = vec - 1;
vec <<= 1;
}
for (int i = minLen + 1; i <= maxLen; i++)
base[i] = (limit[i - 1] + 1 << 1) - base[i];
}
}