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.

I wrote `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 `snd`

and `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?