My newbie's attempt to express the behavior of `operator ||`

from C/C++ in Haskell:

```
orElse :: Bool -> (a -> Bool) -> (a -> Bool)
orElse True _ = const True
orElse False pred = pred
```

Can this be generalized so that it can accept `a -> b -> Bool`

, `a -> b -> c -> Bool`

and so on as its 2nd argument?

Looked at overloading techniques, HKTs et. al. - nothing seems to deal with generalization by kind...

Edit: I now understand why this was a bad example (reading the definition of `operator||`

in prelude helped) but am still wondering at the larger question as posed.

`operator ||`

? I'd expect`orElse :: Bool -> Bool -> Bool`

--- why the additional argument`a`

, and why only on the second argument?`operator||`

is sequencing: if left side is`True`

then right side is not evaluated no matter its strictness requirements. Maybe I'm off base here completely... the intended use was something like:`anyOf :: Foldable f => (a -> Bool) -> f a -> Bool`

`anyOf pred = foldl' (flip orElse pred) False`

`elem' :: (Foldable f, Eq a) => a -> f a -> Bool`

`elem' y = anyOf (== y)`

`||`

is already lazy in its second argument...`Bool`

, but I'm not sure how (or if) you would write that.