I've always found it awkward to have a function or expression that requires use of the values, as well as indices, of a list (or array, applies just the same) in Haskell.
validQueens below while experimenting with the N-queens problem here ...
validQueens x = and [abs (x!!i - x!!j) /= j-i | i<-[0..length x - 2], j<-[i+1..length x - 1]]
I didn't care for the use of indexing, all the plus and minuses, etc. It feels sloppy. I came up with the following:
enumerate x = zip [0..length x - 1] x validQueens' :: [Int] -> Bool validQueens' x = and [abs (snd j - snd i) /= fst j - fst i | i<-l, j<-l, fst j > fst i] where l = enumerate x
being inspired by Python's
enumerate (not that borrowing imperative concepts is necessarily a great idea). Seems better in concept, but
fst all over the place kinda sucks. It's also, at least at first glance, costlier both in time and space. I'm not sure whether or not I like it any better.
So in short, I am not really satisfied with either
- Iterating thru by index bounded by lengths, or even worse, off-by-ones and twos
- Index-element tuples
Has anyone found a pattern they find more elegant than either of the above? If not, is there any compelling reason one of the above methods is superior?