This is not possible in standard Haskell, but can be done with an unsafe trick, implemented in the lub library by Conal Elliott.
Basically, you write two functions:
orL True _ = True
orL False x = x
orR = flip orL
and then you can define
or a b to be the
lub (the least upper bound with respect to "definedness" order) of
orL a b and
orR a b.
Operationally, it runs both computations in parallel and chooses the first one that succeeds, killing the other.
Even though that works as you proposed, it has important disadvantages. First of all,
lub is only safe if its arguments agree (equal unless bottom). If you take
lub True False, the result will be non-deterministic, thus violating purity! Second, the performance overhead of running both computations in parallel can become dominating in some conditions (try computing a
foldr or False of a large list, for example!).