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.
I'm thinking you could do what you want with something like this:
f xs = map fst . filter (uncurry (>)) $ (xs `zip` [0..])
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).
Writing pointless code is fun, and so I give you:
f = map snd . filter (uncurry (<)) . zip [0..]