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Does it support concepts like separation of declaration and implementation (interfaces and classes in Java)? How about restricting access (like access modifiers in Java)?


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Note that if you're working in Haskell, you shouldn't try to write a Java program, and vice versa. Working with the language, instead of against the grain, will generally produce cleaner code. –  Antal S-Z Mar 24 '11 at 4:08
Here's a small exercise I did that tries to mimic a few of the OO features. gist.github.com/877617 However, it was nothing more than an exercise. I wouldn't write Haskell in a Java style. –  Ionuț G. Stan Mar 24 '11 at 9:15
There are some great answers below, but I'd suggest you not think of things like this as "OO" features. In Haskell, for example, the main unit of encapsulation and hiding of implementation is the module, and is not tied to any specific data structure. Modular design was a good thing before it was ever used in object oriented programming! Similarly, type classes in Haskell specifically reject the OO-ish idea of writing the data structure and its behaviors in one place, but still effectively separate interface and implementation. –  Chris Smith Mar 24 '11 at 16:59
AFAIK even in C you divide declarations and implementations. Also access restriction isn't really an OOP concept. Data hiding may be, but that's more about how things are used than what restrictions are imposed by the language. –  Bakuriu Dec 11 at 12:52

4 Answers 4

up vote 40 down vote accepted

How do you separate declaration and implementation in Haskell?

In Haskell you can define a typeclass, which is rather different from an object oriented class so don't let the name fool you. Using the keyword class, you can declare function names and type signatures which can be instantiated (implemented) elsewhere for a particular data type.

For example, the Hashable typeclass defines the hash function, which can turn any instantiated data type into an Int. Have a new, funky data type you want to be able to hash? Fine, make an instance of Hashable. The most common data types are instantiated by the module that defines Hashable (see the linked documentation for 'Instances').

Typeclasses aren't the only way to define an interface. A method that is often under-rated is a plain old data structure. Because Haskell has first class functions, you can define a data structure that has functions as fields:

data ShuttleInterface =
  SI { launch    :: Delay -> IO Handle
     , deploy    :: Payload -> IO ()
     , getStatus :: IO Status

And your functions can build or consume this data structure:

deployAllSensors :: ShuttleInterface -> IO ()
deployAllSensors shuttle = do
    status <- getStatus shuttle
    let notDeployed = filter (not . deployed) (sensors status)
    when (isOrbiting status) (mapM_ deploySensor notDeployed)

-- we used the well-known Haskell functions: filter, not, , when, mapM_
-- and some supporting functions were assumed:
isOrbitting :: Status -> Bool
deploySensor :: Sensor -> IO ()
sensors :: Status -> [Sensor]
deployed :: Sensor -> Bool

How do you restrict access to data in Haskell?

To provide abstraction, Haskell uses Algebraic Data Types. To protect fields developers declare a data type but don't export it's constructors - instead they only export a set of safe primitives that maintain desired invariants.

For example, the Map module provides a balanced tree. It couldn't guarantee balance if anyone could just declare a Map using the primitives of Branch and Leaf, so the makers didn't export those. Construction of a map must rely on what is exported from Data.Map (and those have access to/use the constructors by virtue of being in the same module) such as fromList, empty, singleton, and a whole bunch of modifiers.

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+1, Perhaps it is good to point out that, since all data is immutable, protection of fields is, though possible, not nearly as important as in OOP languages with mutable data types. –  Ingo Mar 24 '11 at 8:59
I found another useful example of "OOP-like" syntax in Haskell: stackoverflow.com/questions/24235757/… –  Anderson Green Jun 16 at 3:18

See this paper for a detailed explanation of how OO concepts can be implemented in Haskell. But as Antal said in the comments, don't try to write a Java program in Haskell.

Remember that objects are a poor man's closure, and closures are a poor man's object.

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Can you please explain better what do you mean with "Object's are poor man's closure" and vice-versa? I think closure as a nested function that has access to the variables declared in the outer scope. An object instead seems to define an opaque boundary between the code that sits in it and the outer world... With this in mind I can't understand what you mean. :/ –  spaceCamel Mar 24 '11 at 23:13
You can think of a closure as a one-method ad-hoc object; just like an object it wraps up a bunch of data with a dynamically bound function that is going to use it. So to an OO programmer a closure looks a bit like a very limited kind of object. On the other hand if you want to create a closure-like thing in Java then you need to create a special base class and then a new descendant for every version of the closure. So from a functional programmer's point of view an object looks like a very clumsy and mandraulic kind of closure. –  Paul Johnson Mar 25 '11 at 18:15
Or maybe objects and closures provide the same functionality and we're all poor men ;-) –  Phob Jul 8 '11 at 23:24
@PaulJohnson Your link is broken. Can you give the actual name of the paper? –  Dylan May 2 '13 at 16:54
@dylan, I believe Paul J. was referring to "Haskell's overlooked object system", which one can reach here from arXiv.org. –  caya Apr 7 at 6:54

Type classes are indeed the only constructs that remind remotely on OO concepts - in this case, on interfaces. Though, unlike in java, type classes are not types.

One good thing about type classes is that I can make totally unrelated, already existing types members of a type class. Whereas in java, sometimes one thinks: These classes A from package org.a and B from com.b that I am using ought really be implementing interface Y from a third package, but there is no way to do it that would not require a lot of boilerplate code, additional indirections, marshalling etc.

BTW, as an elderly programmer I'd like to note that "separation of declaration and implementation" has per se nothing to do with OOP. Just because most OO-langugaes support it does not mean the concept was not well known for a long time before OO was invented. Interested youngsters who think that programming before mainstreaming of OO must have been on a "stone age" niveau may look up MODULA, for example, where separation of declaration and implementation is not only possible, but enforced by the language.

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Oleg Kiselyov and friends implemented an OO system in Haskell.


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Link-only answers aren't the most helpful; if you can explain the sense in which Haskell features allow this, that would be much more helpful. –  AndrewC Sep 28 '12 at 19:25
Check samples, code.haskell.org/OOHaskell/samples –  evrim Sep 29 '12 at 20:53

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