Given the expression `a!!i`

, Haskell will infer that `a`

is a list (i.e. `a::[a]`

). Given the expression `a<-[1..3]`

, Haskell will infer that `a`

will have type `Num a => a`

(because you are drawing `a`

from a list of `Num a => a`

values). Trying to unify these types, Haskell concludes that `a`

must actually be of type `Num a => [a]`

.

The bottom line is that it doesn't make sense to treat `a`

as a list in one context and as an element from a list of numbers in another context.

**EDIT**

I'm thinking you could do what you want with something like this:

```
f xs = map fst . filter (uncurry (>)) $ (xs `zip` [0..])
```

The expression `xs `zip` [0..]`

creates a list of pairs, where the first value in each pair is drawn from `xs`

and the second value from `[0..]`

(an infinite list starting from 0). This serves to associate an index to each value in `xs`

. The expression `uncurry (>)`

converts the `<`

operator into a function that works on pairs. So the expression `filter (uncurry (>))`

filters a list of pairs to only those elements where the first value is greater than the second. Finally, `map fst`

applies the `fst`

function to each pair of values and returns the result as a list (the `fst`

function returns the first value of a pair).

**EDIT 2**

Writing pointless code is fun, and so I give you:

```
f = map snd . filter (uncurry (<)) . zip [0..]
```

`[a!!i|i<-[0..2],a<-[[1..3]],a!!i>i]`

. – Will Ness Apr 1 '13 at 14:44`[a|i<-[0..2],a<-[[1..3]!!i],a>i]`

. :) – Will Ness Apr 1 '13 at 14:47