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where is the difference when i write

data Book = Book Int Int

newtype Book = Book Int Int
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You should do some searching around, this question has already been answered. stackoverflow.com/questions/2649305/… –  tehman May 4 '11 at 20:57
    
Related to stackoverflow.com/questions/2649305/… –  Don Stewart May 4 '11 at 21:06
    
Also related: uses for newtype: stackoverflow.com/questions/991467/… –  Don Stewart May 4 '11 at 21:23
15  
Note that newtype Book = Book Int Int isn't valid. You can however, have newtype Book = Book (Int, Int) as noted by dons below. –  Edward KMETT May 5 '11 at 2:30

1 Answer 1

up vote 106 down vote accepted

Great question!

There are several key differences.

Representation

  • A newtype guarantees that your data will have exactly the same representation at runtime, as the type that you wrap.
  • While data declares a brand new data structure at runtime.

So the key point here is that the construct for the newtype is guaranteed to be erased at compile time.

Examples:

  • data Book = Book Int Int

data

  • newtype Book = Book (Int, Int)

newtype

Note how it has exactly the same representation as a (Int,Int), since the Book constructor is erased.

  • data Book = Book (Int, Int)

data tuple

Has an additional Book constructor not present in the newtype.

  • data Book = Book {-# UNPACK #-}!Int {-# UNPACK #-}!Int

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No pointers! The two Int fields are unboxed word-sized fields in the Book constructor.

Algebraic data types

Because of this need to erase the constructor, a newtype only works when wrapping a data type with a single constructor. There's no notion of "algebraic" newtypes. That is, you can't write a newtype equivalent of, say,

data Maybe a = Nothing
             | Just a

since it has more than one constructor. Nor can you write

newtype Book = Book Int Int

Strictness

The fact that the constructor is erased leads to some very subtle differences in strictness between data and newtype. In particular, data introduces a type that is "lifted", meaning, essentially, that it has an additional way to evaluate to a bottom value. Since there's no additional constructor at runtime with newtype, this property doesn't hold.

That extra pointer in the Book to (,) constructor allows us to put a bottom value in.

As a result, newtype and data have slightly different strictness properties, as explained in the Haskell wiki article.

Unboxing

It doesn't make sense to unbox the components of a newtype, since there's no constructor. While it is perfectly reasonable to write:

data T = T {-# UNPACK #-}!Int

yielding a runtime object with a T constructor, and an Int# component. You just get a bare Int with newtype.


References:

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I still don't think I'd miss something if there was no "newtype" in Haskell. The subtle differences add complexity to the language that don't seem worthwile to me... –  martingw May 6 '11 at 11:47
5  
The difference is very useful for performance reasons. Since newtype constructors are erased at compile time, they don't impose the runtime performance penalty that a data constructor does. But they still give you all the benefits of a completely distinct type and whatever abstractions you want to associate with it. For instance, there are two different ways the list data type can form a monad. One is built into the language, but if you wanted to use the other one, a newtype would be the way to go. –  mightybyte May 6 '11 at 12:59
    
What's the work around for if you want to use newtype, but with 2 value constructors? –  CMCDragonkai 2 days ago

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