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Haskell is more mathematical than many languages because of lambda-calculus, but I think the domains are incomplete for number: we have Integer and Float, for example, but not Positive or Negative, or [1..5] as a domain. This sometimes makes functions unsafe while the compiler could have catched the type error. For example: 5mod0 outputs *** Exception: divide by zero at run-time only. mod :: Integral a => a -> a -> a but we could have something like mod :: Integral a, a != 0 => a -> a -> a; something like a guard or an interval or another datatype... In a game, I want my character to have a positive number for its life. Or from 0 to 100, not under, not upper. When he gets hit, I need to call the ugly positive x = if x > 0 then x else 0. Even C has signed and unsigned.

Is it a weakness or are they reasons why there are no "interval" domains? Is there a package fixing this?

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I'm afraid you may have forgotten to ask a question. –  Greg Hewgill Jul 15 '12 at 21:07
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You can often make the types you describe by wrapping other numeric types and providing safe constructors. Is that what you want? –  gspr Jul 15 '12 at 21:13
    
Added :). Plus, there are TWO questions. –  L01man Jul 15 '12 at 21:14
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Some of those would require something like a dependent type system to work (as, for example, you'd need to be able to prove at compile time that the second argument to mod isn't 0, unless you don't want your type to have subtraction). –  Tilo Wiklund Jul 15 '12 at 22:11
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My main annoyance is that fromInteger is not fromNatural, even though the compiler only ever calls it with positive numbers. –  Daniel Wagner Jul 16 '12 at 3:03
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up vote 6 down vote accepted

You're free to make such classes, but perhaps the reason why they weren't included in Haskell was because people couldn't find a way to make them frequently useful.

It's quite clear you want subtraction with your class, but you also want it to be closed.

Something like this maybe?

NonNegative x - NonNegative y = NonNegative (max (x - y) 0)

But then the identity x - y + y == x does not hold.

People have made alternative numeric hierarchies for Haskell, such as 'Numeric Prelude'. Haskell is quite friendly to customization, you can even replace the Prelude with your own definitions, but whether they're useful and don't cause more problems than they solve is another matter.

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It sounds like you're looking for a dependently typed language like Agda, Idris, or Coq.

You're right, it would be nice to have restricted numeric types, but you need to think about how you would use those types, as well. Let's say you had your type for mod that excluded a 0 value. Now you need to call it in your program. If the number is a literal, presumably it's "easy" for the compiler to determine that it's not 0 and let you call the function, but what if the number was provided at runtime, possibly from user input or some complicated procedure? You'd need some way to explain to the compiler that you know that the number will not be 0 when you pass it into mod. Haskell doesn't really have the facilities to do that in any easy way (there are annoying ways like reflecting all values into the type system) and that's why you don't see more precise types.

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It's the same problem as when for example users provide 5.4 or even "lol" when you want an Int. I'll check these languages out to find ideas. –  L01man Jul 15 '12 at 22:19
    
It wouldn't be that complicated to ensure >0, you'd just need to allow only positive literals, addition and multiplication, but no subtraction. –  leftaroundabout Jul 15 '12 at 23:30
    
@leftaroundabout restricting the operations prevents many legitimate operations. I can subtract just fine, as long as my final result is not 0. If the number comes from user input, I can't guarantee that it's not going to be 0. –  copumpkin Aug 1 '12 at 0:13
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