I have a deeply nested record which I am trying to rebuild from the database. For example,
A contains many
B records have many
C has many
Ds. I have functions to query the children of each type of object (
f0 :: A -> [B] f1 :: B -> [C] f2 :: C -> [D]
I am looking for an elegant way to implement
f3 :: A -> (A, [(B, [(C, [D])])])
I've read a little bit on Arrows and it feels like they might be a good fit. However, I keep hitting a road block when I try to combine them.
I've started with something like this:
f4 :: A -> (A, [B]) f4 = id &&& f0
which gets me to the first level. However, I'm at a loss to find a way to chain that to another arrow which would map
[(B, [C])]and use that as the second element of the original tuple.
I'm a bit new to Haskell, so please let me know if I need to include any additional information.
Modifying sclv's answer slightly, I now have
data A = A data B = B data C = C data D = D f0 :: A -> [B] f0 = undefined f1 :: B -> [C] f1 = undefined f2 :: C -> [D] f2 = undefined pairFun f = id &&& f foo :: A -> (A, [(B, [C])]) foo = fmap (map (pairFun f1)) . pairFun f0
I still can't wrap my mind around how to combine the last function (
Thanks to sclv, it turns out this can be done like this:
foo = (fmap . map) ((fmap . map) (pairFun f2) . pairFun f1) . pairFun f0