To answer why it's done this way in Haskell: unlike C and C++, Haskell implementations by default "box" everything, even primitive types. This is necessary for much of the amazing polymorphism features (though, even more amazingly, inlining can often get you rid of most of the incured overhead), as well as lazyness. As a result, even
Bool takes up at least the memory of a generic pointer: 64 bits on a AMD64 platform! May sound very wasteful, but seldom an issue: during processing, all data is loaded in a few registers which are this big anyway, and for storage you can always use more efficient "packed" containers. At any rate, this means it doesn't really have any advantage use a type with 32 data bits vs. one with 64 bits for calculations, whilst on a 64-bit architecture. But obviously there are plenty of situations where the extra bits come in handy; when you know you'll need them you can always ask explicitly for
Int64. But that is then costly in an actually relevant sense while you're working on a 32-bit platform, because there the memory will like be much tighter as well.
Often, when big numbers could turn up but aren't really typical, it's more efficient to just use the "native" type but check on
maxBound to avoid overflows.