The problem seems indeed to be generating the set of possible subsets of a given set. which sometimes is referred to as the powerset of a set.

Basically there are 3 possible solutions:
1) Binomial coefficients. See http://en.wikipedia.org/wiki/Binomial_coefficient
An implementation can be found in Pyton's itertools. Binomial coefficients give you subsets of a certain length. If you combine the subsets from length 0 upto the length of your original set you are done.

2) A recursive algorithm that "grows" subsets in generations. See kyoto's answer. See my more verbose version below.the wikipedia article mentions Pascal's triangle which is a hint for such an algorithm

3) An element is in a subset or not. This means there are 2^(length of the set) subsets.
Each subset can be in encoded as a binary number with length of the subsets digits.
this is done in NT3RP's answer. You could also use an array of booleans for this instead of a string. I post my C# version below.

My recursive version of Powerset in coffeescript based on an implementation in Miranda.
(I was wondering whether I could code it in Coffeescript as compact as in Miranda and then I found this question)

powerset in Miranda

```
powerset [] = [[]]
powerset (x:xs) = [[x] ++ y | y <- ys] ++ ys
where ys = powerset xs
```

powerset in coffeescript:

```
powerset = (zs) ->
if zs.length is 0
[[]]
else
[x,xs...]=zs
ys=powerset xs
result=([x].concat y for y in ys).concat ys
# number of elements in powerset is 2^length of the powerset
res=powerset [1,2,3,4,5,6,7,8,9,10]
console.log res
console.log "length:" +res.length
```

My interests in all this:

I wrote a C# implementation of the binary number approach for generating
subsets a while ago. For fun I also wanted to write a version that "grows" the subsets.

I knew Miranda a very succinct functional programming language. I wondered whether coffeescript allowed the same level as succinctnes.I was not able to achieve this in Scala, F# or Clojure. I was not able to do it in coffeescript but "kyoto" showed how it is done.

Below the C# version as IEnumerable. It generates tuples of elements that are in the subset and all other elements.

```
...
//imports and house keeping removed
private static IEnumerable<Tuple<IList<T>,IList<T>>> SubsetImpl<T>(this IList<T> argList){
int elementCount=argList.Count;
int bits=(1<<elementCount);//2 to the power of elementCount
List<Tuple<IList<T>,IList<T>>> subsets=new List<Tuple<IList<T>, IList<T>>>(bits);
for(int i=0;i<bits;i++){
int[] mask={i};
BitArray flags=new BitArray(mask);
IList<T> incomb=new List<T>();
IList<T> outcomb=new List<T>();
for(int j=0;j<argList.Count;j++){
if( flags[j]){
incomb.Add(argList[j]);
}else{
outcomb.Add(argList[j]);
}
}
Tuple<IList<T>,IList<T>> t=new Tuple<IList<T>,IList<T>>(incomb,outcomb);
subsets.Add(t);
}
return subsets;
}
...
```

`do (i) ->`

and`do (y) ->`

is unnecessary. You only need to use capture values in that way if you're defining an inner function in the loop that references`i`

or`y`

, and which will be called asynchronously (for instance,`setTimeout ((i) -> console.log i), 100`

). – Trevor Burnham Aug 16 '11 at 0:19