Not with that exact type signature, no.
For example, if you choose
type b = Double->Double and your function
foldr (.) id,
then your polymorphic function
q cannot use the value produced there to select from the pairs,
but I think that's misinterpreting your problem as seeking a specific type sig, rather than promoting/lifting
a means of selection from elements to pairs.
Solving the raw selection problem
If your original function is used simply to select an element from a list,
you could tell Haskell how to select between two, instead.
This solution is safe in the sense that it enforces using a selection from the original list or your fallback element,
by using a helper function
b -> b -> Bool, where
True indicates you prefer the first argument.
We can use that to select from a pair:
selectPair :: (a -> a -> Bool) -> (a,c) -> (a,c) -> (a,c)
selectPair f (a,c) (a',c')
| f a a' = (a,c)
| otherwise = (a',c')
And then fold to select from a list:
selectList :: (a -> a -> Bool) -> (a,c) -> [(a,c)] -> (a,c)
selectList f = foldr (selectPair f)
Notice that this doesn't require any instances on the type
a, so might be what you need in a general setting.
Solving the maximum problem
(b -> b -> Bool) feels very like
> from an
Ord instance, and your example used
a function suggesting maximum, but if you've got an Ord instance,
it would would be simplest to use import
Data.Function to do
safePairMaximum :: Ord b => (a, b) -> [(a, b)] -> (a, b)
safePairMaximum m bs = maximumBy (compare `on` snd) $ m:bs
This is a more basic, less cool version of part of hammar's solution.
Maybe you're stuck-with [b]->b, but do have equality on b
This gets as close to your type signature as I think is sensible whilst still solving your stated problem:
If using a selection function
::[b]->b is crucial, then you'll need at least an
chooseLike :: Eq b => (a, b) -> ([b] -> b) -> ([(a, b)] -> (a, b))
chooseLike m selectb pairs = let wanted = selectb $ map snd pairs in
case filter ((==wanted).snd) pairs of
 -> m
(p:_) -> p
(You can of course replace the
Eq context with a
(b -> b -> Bool) argument,
this time indicating equality.)
This isn't ideal, because you traverse the
[b] list seperately to the
[(a,b)] list, which seems inefficient.
Although I believe there's no useful function of exactly the type you specify,
there are various ways of solving the problem you stated. It was an interesting question, thanks.