package kilim.test.ex;
class ExInts {
int[] intstuff() {
int i = 10;
int[] arr = new int[10];
arr[1] = arr[2] ^ i * 34 - ((arr[3] << 2) / 4);
int j = arr[1];
int k = i;
if (i > j && intr(i) >= k ||
i < j && i != arr[2] && i == arr[3]) {
return null;
}
return arr;
}
int intr(int i) {
if (((i + 5) % 6 > 99) || (-i < 3)) {
return -1;
} else {
char c = '\u33d3';
return (int)c;
}
}
int bits(int i, int j) {
return (~i | j) & (i >>> 2) & (j >> 3);
}
}
class ExLongs {
long[] longstuff() {
long i = 10;
long[] arr = new long[10];
arr[1] = arr[2] ^ i * 34 - ((arr[3] << 2) / 4);
long j = arr[1];
long k = i;
if (i > -j && longr(i) >= k ||
i < j && i != arr[2] - 3L && i == arr[3]) {
return null;
}
return arr;
}
long longr(long i) {
if (((i + 5) % 6 > 99) || (i < 3)) {
return -1;
} else {
char c = '\u33d3';
return (long)c;
}
}
long bits(long i, long j) {
return (~i | j) & (i >>> 2) & (j >> 3);
}
}
class ExDoubles {
double[] doublestuff() {
double i = 0;
double[] arr = new double[10];
arr[1] = (arr[2] * 34)/3;
double j = arr[1];
double k = 1;
if (i > j && doubler(i) >= k % 5 ||
i < j && i != arr[2] && i == arr[3]) {
return null;
}
return arr;
}
double doubler(double i) {
if (((i + 5) % 6 > 99) || (i - 2.0 < 3)) {
return -1;
} else {
char c = '\u33d3';
return (double)c;
}
}
}
class ExFloats {
float[] floatstuff() {
float i = 0;
float[] arr = new float[10];
arr[1] = (arr[2] * 34)/3;
float j = arr[1];
float k = 1;
if (i > j && floatr(i) >= k % 5 ||
i < j && i - 3 != arr[2] && i == arr[3]) {
return null;
}
return arr;
}
float floatr(float i) {
if (((i + 5) % 6 > 99) || (i - 1.0f < 3)) {
return -1;
} else {
char c = '\u33d3';
return (float)c;
}
}
}