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Both concepts allow new data types to be created. The only difference I can see is that in functional languages, one can perform pattern matching on algebraic data types. But there is no comparable succinct feature for OO languages. Is this an accurate statement ?

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4 Answers 4

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I can see three major differences between algebraic data types and OO-style classes, not counting (im)mutablility because that varies.

  • Algebraic data types allows sums as well as products, whereas OO-style classes only allow products.
  • OO-style classes allow you to bundle a complex data item with it's accepted operations, whereas algebraic data types don't.
  • Algebraic data types don't distinguish between the data passed to the constructor and the data stored in the resulting value, whereas OO-style classes do (or can).

One thing I deliberately left out of that list was subtyping. While the vast majority of OO languages allow you to subclass (non-final, non-sealed, currently accessible) classes, and the vast majority of generally ML-family functional languages do not, it is clearly possible to forbid inheritance completely in a hypothetical OO (or at least OO-like) language, and it is likewise possible to produce subtyping and supertyping in algebraic data types; for a limited example of the latter, see this page on O'Haskell, which has been succeeded by Timber

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So ADT does not need to be closed ? Haskell's ADTs do not allow subtyping (via blog.tmorris.net/algebraic-data-types-again) –  canadadry May 9 '12 at 7:14
@BonAmi No, ADTs do not need to be closed. As you noted, Haskell's are, but Scala's certainly aren't necessarily (if you can call case classes ADTs). –  Ptharien's Flame May 9 '12 at 19:02

Algebraic data types are so named because they form an "initial algebra",

+ represents sum types (disjoint unions, e.g. Either).
• represents product types (e.g. structs or tuples)
X for the singleton type (e.g. data X a = X a)
1 for the unit type ()
and μ for the least fixed point (e.g. recursive types), usually implicit.

from these operators all regular data types can be constructed. Algebraic data types also support parametric polymophism -- meaning they can be used as constainers for any underlying type, with static guarantees of safety. Additionally, ADTs are provided with uniform syntax for introducing and eliminating data types (via constructors and pattern matching). E.g.

-- this defines a tree
data Tree a = Empty | Node a (Tree a) (Tree a)

-- this constructs a tree
let x = Node 1 (Node 2 Empty) Empty

-- this deconstructs a tree
f (Node a l r) = a + (f l) + (f r)

The richness and uniformity of algebraic data types, along with the fact they're immutable, distinguish them from OO objects, which largely:

  • only represent product types (so no recursive or sum-types)
  • do not support pattern matching
  • are mutable
  • do not support parametric polymorphism
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Hmm. Isn't subclassing kind of like adding type summands? (So a class is basically an open sum?) I also don't see how parametric polymorphism is linked to algebraic data types. Sure, you can parameterize them over other types—but can you not do that with classes, too? And type recursion usually works as well, right? –  Matthias Benkard May 9 '12 at 16:30
Yes, with sufficient extensions you can get there: "the combination of generics, subclassing, and virtual dispatch supports the denition and limited use of generalized algebraic data types in object- oriented programming languages" - research.microsoft.com/en-us/um/people/akenn/generics/… –  Don Stewart May 9 '12 at 16:46

A class is more than just a type definition -- classes in most OO languages are really kitchen sink features that provide all sorts of loosely related functionality.

In particular, classes act as a kind of module, giving you data abstraction and namespacing. Algebraic data types don't have this built in, modularity is usually provided as a separate, orthogonal feature (usually modules).

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In some sense one can see it this way. Every language has only so many mechanisms to create user defined types. In functional (ML, Haskell style) languages, the only one is creation of an ADT. (Haskell's newtype can be seen as a degenerate case of an ADT). In OO languages, it's classes. In procedural languages it is struct or record.

It goes without saying that the semantics of a user defined data type vary from language to language, and much more so from language in paradigm#1 to language in paradigm#2. @Pharien's Flame has already outlined typical differences.

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