The following solution is borrowed from my book "Coding Interviews: Questions, Analysis & Solutions":

Some integers in an array are selected that compose a combination. A set of bits is utilized, where each bit stands for an integer in the array. If the *i-th* character is selected for a combination, the *i-th* bit is 1; otherwise, it is 0. For instance, three bits are used for combinations of the array [1, 2, 3]. If the first two integers 1 and 2 are selected to compose a combination [1, 2], the corresponding bits are {1, 1, 0}. Similarly, bits corresponding to another combination [1, 3] are {1, 0, 1}. We are able to get all combinations of an array with length *n* if we can get all possible combinations of *n* bits.

A number is composed of a set of bits. All possible combinations of *n* bits correspond to numbers
from 1 to 2^*n*-1. Therefore, each number in the range between 1 and 2^*n*-1 corresponds to a combination of an array with length *n*. For example, the number 6 is composed of bits {1, 1, 0}, so the first and second characters are selected in the array [1, 2, 3] to generate the combination [1, 2]. Similarly, the number 5 with bits {1, 0, 1} corresponds to the combination [1, 3].

The Java code to implement this solution looks like below:

```
public static ArrayList<ArrayList<Integer>> powerSet(int[] numbers) {
ArrayList<ArrayList<Integer>> combinations = new ArrayList<ArrayList<Integer>>();
BitSet bits = new BitSet(numbers.length);
do{
combinations.add(getCombination(numbers, bits));
}while(increment(bits, numbers.length));
return combinations;
}
private static boolean increment(BitSet bits, int length) {
int index = length - 1;
while(index >= 0 && bits.get(index)) {
bits.clear(index);
--index;
}
if(index < 0)
return false;
bits.set(index);
return true;
}
private static ArrayList<Integer> getCombination(int[] numbers, BitSet bits){
ArrayList<Integer> combination = new ArrayList<Integer>();
for(int i = 0; i < numbers.length; ++i) {
if(bits.get(i))
combination.add(numbers[i]);
}
return combination;
}
```

The method increment increases a number represented in a set of bits. The algorithm clears 1 bits
from the rightmost bit until a 0 bit is found. It then sets the rightmost 0 bit to 1. For example, in order to increase the number 5 with bits {1, 0, 1}, it clears 1 bits from the right side and sets the rightmost 0 bit to 1. The bits become {1, 1, 0} for the number 6, which is the result of increasing 5 by 1.