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I have a question in haskell Polymorphism ,

as i learned there are two polymorphism types :

(1) Parametric -> where does not specify the input type

Example :-


(2) Overloading - > as imperative programming passing different args to same function

My problem is how haskell handles overloading ?

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5 Answers 5

up vote 36 down vote accepted

Overloading in Haskell is done using type classes. For example, let's say you want to overload a function foo that returns an Int:

class Fooable a where
    foo :: a -> Int

instance Fooable Int where
    foo = id

instance Fooable Bool where
    foo _ = 42

However, they are more powerful than the overloading mechanisms found in most languages. For example, you can overload on the return type:

class Barable a where
    bar :: Int -> a

instance Barable Int where
    bar x = x + 3

instance Barable Bool where
    bar x = x < 10

For more examples, have a look at the predefined type classes in Haskell.

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@Zach: Overloading is indeed considered a form of polymorphism. See: Ad-hoc polymorphism on Wikipedia. I'm not sure what you're referring to in the second part of your question. Could you please clarify? –  hammar Aug 31 '11 at 23:29
I try to use the class Barable. supposing we have a variable x equal to the Integer 5. but bar x didn't work. and also in case of work, what will return 8 or false??? it's ambiguous example. –  Jaider Sep 27 '12 at 18:38
@Jaider: The type will usually be inferred from the context where it's used, though you can force it using a type annotation. Try bar 5 :: Int or bar 5 :: Bool. –  hammar Sep 27 '12 at 18:47

Haskell uses type classes for ad hoc polymorphism.

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i didnt got this full Duplicate type signature are not allowed in haskell so how overloading is done ? :-s –  Sudantha Jul 9 '11 at 17:00

You specify the type signature of your function in the original type class, then you create multiple instances of that function that you wrote the signature for. So, in the example hammar posted you can think of a as being polymorphic, and the type specified in each instance (e.g. instance Fooable Bool) as being the type of a (in this case a is a Bool). So when you call the function foo with a Bool value, the instance of Fooable for a Bool value gets called.

BTW, you can put multiple functions in the type class, and you can define functions in terms of other functions defined as well.


class  Eq a  where
    (==), (/=)  ::  a -> a -> Bool

    x /= y  = not (x == y)
    x == y  = not (x /= y)

It may not be obvious here, but if you define an instance of Eq, you only need to define == or /=, not both, since they are defined in terms of each other.

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In some languages, overloading means using the same name for several functions that provide similar but different functionality, so you might try

split :: String -> [String]                      -- splits on whitespace
split :: Char -> String -> [String]              -- splits on the given character
split :: [Char] -> String -> [String]            -- splits on any of the given characters
split :: (Char -> Bool) -> String -> [String]    -- splits using a function that tells you when

which would give you the Duplicate type signature error you're getting.

Haskell doesn't do this type of overloading, and a Haskell programmer would give these different names:

words :: String -> [String]                        -- splits on whitespace
splitOn :: Char -> String -> [String]              -- splits on the given character
splitsOn :: [Char] -> String -> [String]           -- splits on any of the given characters
splitWith :: (Char -> Bool) -> String -> [String]  -- splits using a function that tells you when

The reason that Haskell doesn't allow the kind of overloading I think you're asking about, is that it genuinely doesn't let you do anything that you couldn't do without it, and allowing it would make it almost impossible to do more advanced sorts of overloading. Haskell's overloading is a very powerful tool indeed; find out about type classes and constructor classes to get started.

Actually, since String = [Char], and Haskell programmers love code reuse, they'd be far more likely to write:

words :: String -> [String]                -- splits on whitespace
splitOn :: Eq a => a -> [a] -> [[a]]       -- splits on the given item
splitsOn :: Eq a => [a] -> [a] -> [[a]]    -- splits on any of the given items
splitWith :: (a -> Bool) -> [a] -> [[a]]   -- splits using a function that tells you when

Here Eq a is an example of a kind of overloading Haskell does allow, where splitOn will let you split any list as long as the items can be compared for equality (i.e. Haskell lets you define your own notion of equality). You can use this then to split a String, or for example a list of Strings, but you can't split a list of functions because you can't check two functions to see if they're equal. splitWith is an example of Haskell letting you treat a function just like most other data - you can pass one as an argument!

[Note 1: words is a standard function, splitWith is in a library with a slightly different typesignature.]
[Note 2: if you wanted to actually write these functions, here's how:

splitWith isSplitter list =  case dropWhile isSplitter list of
  [] -> []
  thisbit -> firstchunk : splitWith isSplitter therest
    where (firstchunk, therest) = break isSplitter thisbit

-- words = splitWith isSpace           -- not needed, standard function from the Prelude
splitOn c = splitWith (== c)           -- notice I passed == in an argument! 
splitsOn chars = splitWith (`elem` chars)


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Basically overriding is quite different in Haskell, although you can do something similiar.

I. Use Classes as selected answer.

class YesNo a where  
    yesno :: a -> Bool  

You have to implement it using instance, and then you can use it like this:

> yesno $ length []  
> yesno "haha"  
> yesno ""  
> yesno $ Just 0  
> yesno True  
ghci> yesno EmptyTree  
> yesno []  
> yesno [0,0,0]  


II. Use pattern matching of type constructor, such as:

data Shape = Circle Float Float Float | Rectangle Float Float Float Float 
surface :: Shape -> Float  
surface (Circle _ _ r) = pi * r ^ 2  
surface (Rectangle x1 y1 x2 y2) = (abs $ x2 - x1) * (abs $ y2 - y1)

and then you can use them like this:

> surface $ Circle 10 20 10  
> surface $ Rectangle 0 0 100 100  


III. Have the "oveloaded" function in sepatate module, but you will need to prefix the import name or qualified imports name


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