## Programming Languages based on Category Theory

Since some computer scientists use category theory, I was wondering if there are any programming languages that use it extensively.

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Strangely enough, I'm actually doing work on this subject at the moment, but for most likely a VERY different reason than why you'd have interest. I'm looking into the subject for educational reasons, trying to show that a mathematics background can be an asset in learning programming, and that computer programming can be an inroad to learning mathematics. – Michael Hoffman Nov 2 2009 at 3:00
You might like my explanation of matrix math with Python: stackoverflow.com/questions/1016284/… – Ilya Nikokoshev Nov 3 2009 at 19:59

Yes. I think that Haskell is the canonical example. Go here for more.

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 Haskell is a canonical example of a functional programming language, I have a reference to a "categorical programming language" below, Hagino. – Michael Hoffman Nov 2 2009 at 2:07

There's Charity.

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 IMHO Charity (and Squiggol) have a slightly stronger claim to being "a categorical programming language" than Haskell. – Adam Jan 18 2010 at 23:35 Seen on the Charity website: "All Charity computations terminate (up to user input).". Is Charity Turing-complete? – Samuele Giraudo Mar 6 at 20:55

Haskell is a purely functional language. However side-effects are (almost by definition) difficult to incorporate into a functional language. This is an important problem since I/O is a very important side-effect for most computer programs. Haskell's method of incorporating side-effects is to use monads.

One of the simplest ways to get a monad is from a pair of adjoint functors.

(1) EmbĂ»ches tissues blog: Monads in Mathematics 1: examples

(2) A series of lectures on youtube by TheCatsters:

Pairs of adjoint functors are fairly common and I've found they provide a useful way for seeing part of the "big-picture" in many different branches of mathematics.

Here is one of several introductions to pairs of adjoint functors from the Concrete Nonsense blog.

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ML is used in

Computational Category Theory

Apparently there exists at least one "categorical programming language", namely Hagino

A Categorical Programming Language

(Hagino's Thesis)

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 Oh, and I'm reading both of these currently, so I can say that they are at least initially quite readable, even at my level (advanced undergraduate) – Michael Hoffman Nov 2 2009 at 3:09

All of the answers so far are based on Cartesian closed categories. There are a few languages based on Cartesian categories, which reject use of higher-order functions in the base language:

1. The key example are Joseph Goguen's OBJ languages for programming with algebras, based on order-sorted Cartesian categories. Goguen's rejection of higher-order functions is explained in his Higher-order functions considered unnecessary for higher-order programming.
2. The programming language Maude, based on rewriting logic, is probably the fittest successor of OBJ. Cf. Goguen's OBJ Family page, which summarises the programming languages in this family.
3. The mathematical payoff to rejecting the "closed" part of Cartesian closed categories is that this opens the possibility of easier modelling of colimit constructions; I'd love to see a good reference for this point, one that explores that practical difficulties higher-order functions cause, but the general issue is easy enough to see. This has been important for approaches to programming languages that are based on various pushout constructions for specifying rewrites. Cf. Gibbons (2002) Towards a colimit-based semantics for visual programming.
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Here's another one based on Hagino's thesis, asides charity. Implemented both in Haskell and Ruby.

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Also see here.

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From the Categorical_abstract_machine entry on wikipedia, which I'm not allowed to link to:

"The notion of categorical abstract machine, or CAM arose in the mid-1980s and in computer science takes a place of a kind of theory of computation for programmers. In a theory CAM is represented by Cartesian closed category (c.c.c.) and embedded into the combinatory logic."

Caml (aka the basis for Microsoft's F#) is an acronym for Categorical Abstract Machine Language.

Other interesting reading is A Categorical Manifesto by Joseph Goguen.

His language project is the OBJ family of languages. Which I can't link to because I'm a new user and am restricted to 1 hyperlink.

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CAML definitely uses it, but not extensively.

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CAML by definition is Categorical Abstract Machine Language,

however I am not cetain that you can say that an language explicitly uses category theory. Perhaps you are asking "Are there languages that allow Category Theory Concepts to be easily represented?" or perhaps you are asking if the compilation or interpretation of a particular programming language uses Category Theory in its implementation?

While technically, all Turing-complete capable languages should be equivalently able to express the same set of computations, some languages do so more elegantly than others, allowing the programmer or mathematician to be more eloquent.

I would say LISP and SCHEME, even though based on lambda-calculus, are more connected to the spirit of category theory in concept. While the numbers and integers are conceptually defined as atomic and can be built up from primitives in concept and in theory; in practice, the implementations of SCHEME and LISP and (CLU) tend to take shortcuts to speed up implementation.

The hierarchical ability to pass functions and functions of functions (etc.) as first-class parameters to functions in LISP and SCHEME let you be able to emulate the actions or morphisms of category theory better in that language than others. You just have to start from the ground up, as I have not yet seen a library or package in LISP or SCHEME for category theory.

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