Rename & Repackage

This commit is contained in:
dark98
2021-03-11 00:21:56 +00:00
parent caa4625efa
commit 3bf473129d
1921 changed files with 2017 additions and 2010 deletions
+532
View File
@@ -0,0 +1,532 @@
// Decompiled by Jad v1.5.8f. Copyright 2001 Pavel Kouznetsov.
// Jad home page: http://www.kpdus.com/jad.html
// Decompiler options: packimports(3)
final class Class13 {
public static int method225(byte abyte0[], int i, byte abyte1[], int j, int k) {
synchronized (aClass32_305) {
aClass32_305.aByteArray563 = abyte1;
aClass32_305.anInt564 = k;
aClass32_305.aByteArray568 = abyte0;
aClass32_305.anInt569 = 0;
aClass32_305.anInt565 = j;
aClass32_305.anInt570 = i;
aClass32_305.anInt577 = 0;
aClass32_305.anInt576 = 0;
aClass32_305.anInt566 = 0;
aClass32_305.anInt567 = 0;
aClass32_305.anInt571 = 0;
aClass32_305.anInt572 = 0;
aClass32_305.anInt579 = 0;
method227(aClass32_305);
i -= aClass32_305.anInt570;
return i;
}
}
private static void method226(Class32 class32) {
byte byte4 = class32.aByte573;
int i = class32.anInt574;
int j = class32.anInt584;
int k = class32.anInt582;
int ai[] = Class32.anIntArray587;
int l = class32.anInt581;
byte abyte0[] = class32.aByteArray568;
int i1 = class32.anInt569;
int j1 = class32.anInt570;
int k1 = j1;
int l1 = class32.anInt601 + 1;
label0 : do {
if (i > 0) {
do {
if (j1 == 0) {
break label0;
}
if (i == 1) {
break;
}
abyte0[i1] = byte4;
i--;
i1++;
j1--;
} while (true);
if (j1 == 0) {
i = 1;
break;
}
abyte0[i1] = byte4;
i1++;
j1--;
}
boolean flag = true;
while (flag) {
flag = false;
if (j == l1) {
i = 0;
break label0;
}
byte4 = (byte) k;
l = ai[l];
byte byte0 = (byte) (l & 0xff);
l >>= 8;
j++;
if (byte0 != k) {
k = byte0;
if (j1 == 0) {
i = 1;
} else {
abyte0[i1] = byte4;
i1++;
j1--;
flag = true;
continue;
}
break label0;
}
if (j != l1) {
continue;
}
if (j1 == 0) {
i = 1;
break label0;
}
abyte0[i1] = byte4;
i1++;
j1--;
flag = true;
}
i = 2;
l = ai[l];
byte byte1 = (byte) (l & 0xff);
l >>= 8;
if (++j != l1) {
if (byte1 != k) {
k = byte1;
} else {
i = 3;
l = ai[l];
byte byte2 = (byte) (l & 0xff);
l >>= 8;
if (++j != l1) {
if (byte2 != k) {
k = byte2;
} else {
l = ai[l];
byte byte3 = (byte) (l & 0xff);
l >>= 8;
j++;
i = (byte3 & 0xff) + 4;
l = ai[l];
k = (byte) (l & 0xff);
l >>= 8;
j++;
}
}
}
}
} while (true);
int i2 = class32.anInt571;
class32.anInt571 += k1 - j1;
if (class32.anInt571 < i2) {
class32.anInt572++;
}
class32.aByte573 = byte4;
class32.anInt574 = i;
class32.anInt584 = j;
class32.anInt582 = k;
Class32.anIntArray587 = ai;
class32.anInt581 = l;
class32.aByteArray568 = abyte0;
class32.anInt569 = i1;
class32.anInt570 = j1;
}
private static void method227(Class32 class32) {
int k8 = 0;
int ai[] = null;
int ai1[] = null;
int ai2[] = null;
class32.anInt578 = 1;
if (Class32.anIntArray587 == null) {
Class32.anIntArray587 = new int[class32.anInt578 * 0x186a0];
}
boolean flag19 = true;
while (flag19) {
byte byte0 = method228(class32);
if (byte0 == 23) {
return;
}
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method228(class32);
class32.anInt579++;
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method228(class32);
byte0 = method229(class32);
class32.aBoolean575 = byte0 != 0;
if (class32.aBoolean575) {
System.out.println("PANIC! RANDOMISED BLOCK!");
}
class32.anInt580 = 0;
byte0 = method228(class32);
class32.anInt580 = class32.anInt580 << 8 | byte0 & 0xff;
byte0 = method228(class32);
class32.anInt580 = class32.anInt580 << 8 | byte0 & 0xff;
byte0 = method228(class32);
class32.anInt580 = class32.anInt580 << 8 | byte0 & 0xff;
for (int j = 0; j < 16; j++) {
byte byte1 = method229(class32);
class32.aBooleanArray590[j] = byte1 == 1;
}
for (int k = 0; k < 256; k++) {
class32.aBooleanArray589[k] = false;
}
for (int l = 0; l < 16; l++) {
if (class32.aBooleanArray590[l]) {
for (int i3 = 0; i3 < 16; i3++) {
byte byte2 = method229(class32);
if (byte2 == 1) {
class32.aBooleanArray589[l * 16 + i3] = true;
}
}
}
}
method231(class32);
int i4 = class32.anInt588 + 2;
int j4 = method230(3, class32);
int k4 = method230(15, class32);
for (int i1 = 0; i1 < k4; i1++) {
int j3 = 0;
do {
byte byte3 = method229(class32);
if (byte3 == 0) {
break;
}
j3++;
} while (true);
class32.aByteArray595[i1] = (byte) j3;
}
byte abyte0[] = new byte[6];
for (byte byte16 = 0; byte16 < j4; byte16++) {
abyte0[byte16] = byte16;
}
for (int j1 = 0; j1 < k4; j1++) {
byte byte17 = class32.aByteArray595[j1];
byte byte15 = abyte0[byte17];
for (; byte17 > 0; byte17--) {
abyte0[byte17] = abyte0[byte17 - 1];
}
abyte0[0] = byte15;
class32.aByteArray594[j1] = byte15;
}
for (int k3 = 0; k3 < j4; k3++) {
int l6 = method230(5, class32);
for (int k1 = 0; k1 < i4; k1++) {
do {
byte byte4 = method229(class32);
if (byte4 == 0) {
break;
}
byte4 = method229(class32);
if (byte4 == 0) {
l6++;
} else {
l6--;
}
} while (true);
class32.aByteArrayArray596[k3][k1] = (byte) l6;
}
}
for (int l3 = 0; l3 < j4; l3++) {
byte byte8 = 32;
int i = 0;
for (int l1 = 0; l1 < i4; l1++) {
if (class32.aByteArrayArray596[l3][l1] > i) {
i = class32.aByteArrayArray596[l3][l1];
}
if (class32.aByteArrayArray596[l3][l1] < byte8) {
byte8 = class32.aByteArrayArray596[l3][l1];
}
}
method232(class32.anIntArrayArray597[l3], class32.anIntArrayArray598[l3], class32.anIntArrayArray599[l3], class32.aByteArrayArray596[l3], byte8, i, i4);
class32.anIntArray600[l3] = byte8;
}
int l4 = class32.anInt588 + 1;
int i5 = -1;
int j5 = 0;
for (int i2 = 0; i2 <= 255; i2++) {
class32.anIntArray583[i2] = 0;
}
int j9 = 4095;
for (int l8 = 15; l8 >= 0; l8--) {
for (int i9 = 15; i9 >= 0; i9--) {
class32.aByteArray592[j9] = (byte) (l8 * 16 + i9);
j9--;
}
class32.anIntArray593[l8] = j9 + 1;
}
int i6 = 0;
if (j5 == 0) {
i5++;
j5 = 50;
byte byte12 = class32.aByteArray594[i5];
k8 = class32.anIntArray600[byte12];
ai = class32.anIntArrayArray597[byte12];
ai2 = class32.anIntArrayArray599[byte12];
ai1 = class32.anIntArrayArray598[byte12];
}
j5--;
int i7 = k8;
int l7;
byte byte9;
for (l7 = method230(i7, class32); l7 > ai[i7]; l7 = l7 << 1 | byte9) {
i7++;
byte9 = method229(class32);
}
for (int k5 = ai2[l7 - ai1[i7]]; k5 != l4;) {
if (k5 == 0 || k5 == 1) {
int j6 = -1;
int k6 = 1;
do {
if (k5 == 0) {
j6 += k6;
} else if (k5 == 1) {
j6 += 2 * k6;
}
k6 *= 2;
if (j5 == 0) {
i5++;
j5 = 50;
byte byte13 = class32.aByteArray594[i5];
k8 = class32.anIntArray600[byte13];
ai = class32.anIntArrayArray597[byte13];
ai2 = class32.anIntArrayArray599[byte13];
ai1 = class32.anIntArrayArray598[byte13];
}
j5--;
int j7 = k8;
int i8;
byte byte10;
for (i8 = method230(j7, class32); i8 > ai[j7]; i8 = i8 << 1 | byte10) {
j7++;
byte10 = method229(class32);
}
k5 = ai2[i8 - ai1[j7]];
} while (k5 == 0 || k5 == 1);
j6++;
byte byte5 = class32.aByteArray591[class32.aByteArray592[class32.anIntArray593[0]] & 0xff];
class32.anIntArray583[byte5 & 0xff] += j6;
for (; j6 > 0; j6--) {
Class32.anIntArray587[i6] = byte5 & 0xff;
i6++;
}
} else {
int j11 = k5 - 1;
byte byte6;
if (j11 < 16) {
int j10 = class32.anIntArray593[0];
byte6 = class32.aByteArray592[j10 + j11];
for (; j11 > 3; j11 -= 4) {
int k11 = j10 + j11;
class32.aByteArray592[k11] = class32.aByteArray592[k11 - 1];
class32.aByteArray592[k11 - 1] = class32.aByteArray592[k11 - 2];
class32.aByteArray592[k11 - 2] = class32.aByteArray592[k11 - 3];
class32.aByteArray592[k11 - 3] = class32.aByteArray592[k11 - 4];
}
for (; j11 > 0; j11--) {
class32.aByteArray592[j10 + j11] = class32.aByteArray592[j10 + j11 - 1];
}
class32.aByteArray592[j10] = byte6;
} else {
int l10 = j11 / 16;
int i11 = j11 % 16;
int k10 = class32.anIntArray593[l10] + i11;
byte6 = class32.aByteArray592[k10];
for (; k10 > class32.anIntArray593[l10]; k10--) {
class32.aByteArray592[k10] = class32.aByteArray592[k10 - 1];
}
class32.anIntArray593[l10]++;
for (; l10 > 0; l10--) {
class32.anIntArray593[l10]--;
class32.aByteArray592[class32.anIntArray593[l10]] = class32.aByteArray592[class32.anIntArray593[l10 - 1] + 16 - 1];
}
class32.anIntArray593[0]--;
class32.aByteArray592[class32.anIntArray593[0]] = byte6;
if (class32.anIntArray593[0] == 0) {
int i10 = 4095;
for (int k9 = 15; k9 >= 0; k9--) {
for (int l9 = 15; l9 >= 0; l9--) {
class32.aByteArray592[i10] = class32.aByteArray592[class32.anIntArray593[k9] + l9];
i10--;
}
class32.anIntArray593[k9] = i10 + 1;
}
}
}
class32.anIntArray583[class32.aByteArray591[byte6 & 0xff] & 0xff]++;
Class32.anIntArray587[i6] = class32.aByteArray591[byte6 & 0xff] & 0xff;
i6++;
if (j5 == 0) {
i5++;
j5 = 50;
byte byte14 = class32.aByteArray594[i5];
k8 = class32.anIntArray600[byte14];
ai = class32.anIntArrayArray597[byte14];
ai2 = class32.anIntArrayArray599[byte14];
ai1 = class32.anIntArrayArray598[byte14];
}
j5--;
int k7 = k8;
int j8;
byte byte11;
for (j8 = method230(k7, class32); j8 > ai[k7]; j8 = j8 << 1 | byte11) {
k7++;
byte11 = method229(class32);
}
k5 = ai2[j8 - ai1[k7]];
}
}
class32.anInt574 = 0;
class32.aByte573 = 0;
class32.anIntArray585[0] = 0;
for (int j2 = 1; j2 <= 256; j2++) {
class32.anIntArray585[j2] = class32.anIntArray583[j2 - 1];
}
for (int k2 = 1; k2 <= 256; k2++) {
class32.anIntArray585[k2] += class32.anIntArray585[k2 - 1];
}
for (int l2 = 0; l2 < i6; l2++) {
byte byte7 = (byte) (Class32.anIntArray587[l2] & 0xff);
Class32.anIntArray587[class32.anIntArray585[byte7 & 0xff]] |= l2 << 8;
class32.anIntArray585[byte7 & 0xff]++;
}
class32.anInt581 = Class32.anIntArray587[class32.anInt580] >> 8;
class32.anInt584 = 0;
class32.anInt581 = Class32.anIntArray587[class32.anInt581];
class32.anInt582 = (byte) (class32.anInt581 & 0xff);
class32.anInt581 >>= 8;
class32.anInt584++;
class32.anInt601 = i6;
method226(class32);
flag19 = class32.anInt584 == class32.anInt601 + 1 && class32.anInt574 == 0;
}
}
private static byte method228(Class32 class32) {
return (byte) method230(8, class32);
}
private static byte method229(Class32 class32) {
return (byte) method230(1, class32);
}
private static int method230(int i, Class32 class32) {
int j;
do {
if (class32.anInt577 >= i) {
int k = class32.anInt576 >> class32.anInt577 - i & (1 << i) - 1;
class32.anInt577 -= i;
j = k;
break;
}
class32.anInt576 = class32.anInt576 << 8 | class32.aByteArray563[class32.anInt564] & 0xff;
class32.anInt577 += 8;
class32.anInt564++;
class32.anInt565--;
class32.anInt566++;
if (class32.anInt566 == 0) {
class32.anInt567++;
}
} while (true);
return j;
}
private static void method231(Class32 class32) {
class32.anInt588 = 0;
for (int i = 0; i < 256; i++) {
if (class32.aBooleanArray589[i]) {
class32.aByteArray591[class32.anInt588] = (byte) i;
class32.anInt588++;
}
}
}
private static void method232(int ai[], int ai1[], int ai2[], byte abyte0[], int i, int j, int k) {
int l = 0;
for (int i1 = i; i1 <= j; i1++) {
for (int l2 = 0; l2 < k; l2++) {
if (abyte0[l2] == i1) {
ai2[l] = l2;
l++;
}
}
}
for (int j1 = 0; j1 < 23; j1++) {
ai1[j1] = 0;
}
for (int k1 = 0; k1 < k; k1++) {
ai1[abyte0[k1] + 1]++;
}
for (int l1 = 1; l1 < 23; l1++) {
ai1[l1] += ai1[l1 - 1];
}
for (int i2 = 0; i2 < 23; i2++) {
ai[i2] = 0;
}
int i3 = 0;
for (int j2 = i; j2 <= j; j2++) {
i3 += ai1[j2 + 1] - ai1[j2];
ai[j2] = i3 - 1;
i3 <<= 1;
}
for (int k2 = i + 1; k2 <= j; k2++) {
ai1[k2] = (ai[k2 - 1] + 1 << 1) - ai1[k2];
}
}
private static final Class32 aClass32_305 = new Class32();
}