**NOTE** I'm just trying to understand what's happening in this particular piece of code shown below. I know this might not be the best way to solve the problem.

I'm trying to use the lazy `Writer`

monad with a memozied fibonacci function to count the number of times the function is called. The function returns the correct value fast but the `Writer`

environment never returns and doesn't use any CPU or memory.

```
import Control.Monad.Writer.Lazy as W
fib :: Int -> Writer (Sum Int) Int
fib = let fibs = mapM fib' [0..]
fib' 0 = return 0
fib' 1 = return 1
fib' n = liftM2 (+) (fib $ n-1) (fib $ n-2)
in \n -> tell (Sum 1) >> fibs >>= return . (!!n)
Prelude W> runWriter $ fib 51
(20365011074,Sum {getSum = Interrupted.
```

Can someone explain what's going on? Why doesn't the environment return a value?

**EDIT**

The infinite list `[0..]`

is not the problem here. I've tried replacing it by a limited list such as `[0..10]`

or `[0..n]`

but the problem still persists.
**If the infinite list was the problem it would've been a very memory-intensive computation** and that's why I mentioned above that it doesn't consume any CPU or memory which is what confuses me.

I believe that, due to laziness, there's a deadlock occurring somewhere somehow when evaluating the nodes of the `fib`

function.

`fib`

tries to execute the monadic action`fibs`

, which eventually tries to evaluate itself so it gets stuck. And because this is done using graph reduction, no actual computation is taking place just a node is being blocked on itself. Due to purity the compiler doesn't need to keep traversing this infinite cycle in the graph, so it doesn't, which explains the cpu/memory usage thing. – is7s Mar 2 '14 at 21:38