Here is my failed attempt at the problem any help would be appreciated.

I tried to come up with the best algo for the power set that worked on eager lists. This part seems to be working fine. The part I'm having trouble with is translating it to work with Sequences so it can run it on streaming\infinite lists. I really don't like the yield syntax maybe because I don't understand it well but I would rather have it without using the yield syntax as well.

```
//All Combinations of items in a list
//i.e. the Powerset given each item is unique
//Note: lists are eager so can't be used for infinite
let listCombinations xs =
List.fold (fun acc x ->
List.collect (fun ys -> ys::[x::ys]) acc) [[]] xs
//This works fine (Still interested if it could be faster)
listCombinations [1;2;3;4;5] |> Seq.iter (fun x -> printfn "%A" x)
//All Combinations of items in a sequence
//i.e. the Powerset given each item is unique
//Note: Not working
let seqCombinations xs =
Seq.fold (fun acc x ->
Seq.collect (fun ys ->
seq { yield ys
yield seq { yield x
yield! ys} }) acc) Seq.empty xs
//All Combinations of items in a sequence
//i.e. the Powerset given each item is unique
//Note: Not working (even wrong type signature)
let seqCombinations2 xs =
Seq.fold (fun acc x ->
Seq.collect (fun ys ->
Seq.append ys (Seq.append x ys)) acc) Seq.empty xs
//Sequences to test on
let infiniteSequence = Seq.initInfinite (fun i -> i + 1)
let finiteSequence = Seq.take 5 infiniteSequence
//This should work easy since its in a finite sequence
//But it does not, so their must be a bug in 'seqCombinations' above
for xs in seqCombinations finiteSequence do
for y in xs do
printfn "%A" y
//This one is much more difficult to get to work
//since its the powerset on the infinate sequence
//None the less If someone could help me find a way to make this work
//This is my ultimate goal
let firstFew = Seq.take 20 (seqCombinations infiniteSequence)
for xs in firstFew do
for y in xs do
printfn "%A" y
```