What is the difference when I write this?
data Book = Book Int Int
versus
newtype Book = Book (Int, Int) -- "Book Int Int" is syntactically invalid
2 Answers
Great question!
There are several key differences.
Representation
- A
newtypeguarantees that your data will have exactly the same representation at runtime, as the type that you wrap. - While
datadeclares 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
newtype Book = Book (Int, Int)
Note how it has exactly the same representation as a (Int,Int), since the Book constructor is erased.
data Book = Book (Int, Int)
Has an additional Book constructor not present in the newtype.
data Book = Book {-# UNPACK #-}!Int {-# UNPACK #-}!Int
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:
- "Newtype" on the Haskell wiki
- Norman Ramsey's answer about the strictness properties
answered May 4, 2011 at 20:58
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3I 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...– martingwMay 6, 2011 at 11:47
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20The 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. May 6, 2011 at 12:59
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1Great explanation! What I don't understand is if
newtypeis erased after compilation and runtime uses the same representation for old and new types, how can we still be able to define instances for both old and new type? How can runtime understand which instance to use? Feb 9, 2016 at 11:07 -
5@damluar All types are erased at runtime, they are all fully resolved at compile time, and during compilation
newtypeis obviously not yet erased. Apr 21, 2016 at 18:32 -
7@damlaur I once had the same question as you. When people say the types are erased, they omit to mention that one thing ISN'T erased, which is a memory word that is used for dictionary lookups to decide what instance method to use for a given piece of data. People argue that this word isn't a "type", which I think depends on your perspective, but there you go. Aug 28, 2018 at 15:48
They are different in semantics.
datadefines a GADT (product type, sum type, etc)newtypedefines an isomorphism.
When you don't care about whether it's isomorphic, you should use data, even though it has only 1 field.
For example,
data Student = Student {
age :: Int
}
If in this problem domain where age is the only infomation you have to process about a student, you should use data rather than newtype, because you never mean that a student should be isomorphic to an age.
newtype Book = Book Int Intisn't valid. You can however, havenewtype Book = Book (Int, Int)as noted by dons below.Book Int Intis rather semantically invalid becausenewtypecan only have one value constructor with only one field.Book Int Inthas two fields.