I've written the following Haskell code to produce a list where the nth element is the number of 1s in writing 1..n as binary numbers (it's related to euler 391, incidentally):

```
buildList :: a -> (a -> a) -> [a]
buildList start f = start : buildList (f start) f
differences :: [[Int]]
differences = buildList [0] (\x -> x ++ map (+1) x)
sequenceK' :: Int -> [Int]
sequenceK' n = tail $ scanl (+) 0 (last $ take n differences)
```

which results in `sequenceK' n`

giving a list of 2^(n-1) elements.

This question has two parts:

a) Why does the time taken to compute `head $ sequenceK' n`

increase with n? -- due to ghc's laziness, I would expect the time to remain more or less constant.

b) Is it possible to define an infinite version of this list so that I can do things like `take`

and `takeWhile`

without having to worry about the value of the parameter passed to `sequenceK'`

?

`buildList`

is just`flip iterate`

. – Antal S-Z Sep 4 '12 at 0:30