*Category theory* is a branch of abstract mathematics concerned with exposing and describing the underlying structure of logical and mathematical systems. Concepts from category theory have proven to be extremely effective as tools for structuring both the semantics of programming languages and ...

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325
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A monad is just a monoid in the category of endofunctors, what's the problem?

Who first said A monad is just a monoid in the category of endofunctors, what's the problem? and on a less important note is this true and if so could you give an explanation (hopefully one ...
230
votes
3answers
18k views

What does “coalgebra” mean in the context of programming?

I have heard the term "coalgebras" several times in functional programming and PLT circles, especially when the discussion is about objects, comonads, lenses, and such. Googling this term gives pages ...
17
votes
5answers
598 views

Where do values fit in Category of Hask?

So we have Category of Hask, where: Types are the objects of the category Functions are the morphisms from object to object in the category. Similarly for Functor we have: a Type constructor as ...
12
votes
1answer
500 views

How much is applicative really about applying, rather than “combining”?

For an uncertainty-propagating Approximate type, I'd like to have instances for Functor through Monad. This however doesn't work because I need a vector space structure on the contained types, so it ...
49
votes
5answers
3k views

Monads as adjunctions

I've been reading about monads in category theory. One definition of monads uses a pair of adjoint functors. A monad is defined by a round-trip using those functors. Apparently adjunctions are very ...
9
votes
2answers
1k views

What's the relation of fold on Option, Either etc and fold on Traversable?

Scalaz provides a method named fold for various ADTs such as Boolean, Option[_], Validation[_, _], Either[_, _] etc. This method basically takes functions corresponding to all possible cases for that ...
1
vote
1answer
48 views

What is the analog of Category in programming

I found that there is an isomorphism between logic and programming, called Curry-Howard correspondence, so is there any such equivalence for Category theory, which helps to understand things like ...
54
votes
4answers
1k views

Is there a monad that doesn't have a corresponding monad transformer (except IO)?

So far, every monad (that can be represented as a data type) that I have encountered had a corresponding monad transformer, or could have one. Is there such a monad that can't have one? Or do all ...
40
votes
8answers
2k views

What is a monad in FP, in categorical terms?

Every time someone promises to "explain monads", my interest is piqued, only to be replaced by frustration when the alleged "explanation" is a long list of examples terminated by some off-hand remark ...
27
votes
3answers
1k views

What are the adjoint functor pairs corresponding to common monads in Haskell?

In category theory, a monad can be constructed from two adjoint functors. In particular, if C and D are categories and F : C --> D and G : D --> C are adjoint functors, in the sense that there is a ...
26
votes
5answers
1k views

What are zygo/meta/histo/para/futu/dyna/whatever-morphisms?

Is there a list of them with examples accessible to a person without extensive category theory knowledge?
27
votes
2answers
1k views

Can liftM differ from liftA?

According to the Typeclassopedia (among other sources), Applicative logically belongs between Monad and Pointed (and thus Functor) in the type class hierarchy, so we would ideally have something like ...
20
votes
5answers
2k views

Can a monad be a comonad?

I know what a monad is. I think I have correctly wrapped my mind around what a comonad is. (Or rather, what one is seems simple enough; the tricky part is comprehending what's useful about this...) ...
8
votes
1answer
262 views

How to define equality for Category instances?

In order to prove that for instance the Category laws hold for some operations on a data type, how do one decide how to define equality? Considering the following type for representing boolean ...
21
votes
3answers
440 views

Lax monoidal functors with a different monoidal structure

Applicative functors are well-known and well-loved among Haskellers, for their ability to apply functions in an effectful context. In category-theoretic terms, it can be shown that the methods of ...
9
votes
1answer
142 views

Open Type Level Proofs in Haskell/Idris

In Idris/Haskell, one can prove properties of data by annotating the types and using GADT constructors, such as with Vect, however, this requires hardcoding the property into the type (e.g. a Vect has ...
4
votes
2answers
193 views

Generalized `fold` or how to perform `fold` and `map` at a time

(Apology by the title, I can't do better) My question is to find some generalized struct or "standard" function to perform the next thing: xmap :: (a -> b) -> f a -> g b then, we can map ...
8
votes
2answers
161 views

Functor instance for generic polymorphic ADTs in Haskell?

When it comes to applying category theory for generic programming, Haskell does a very good job, for instance with libraries like recursion-schemes. But one thing I'm not sure of is how to create a ...
8
votes
1answer
249 views

Do the functor laws prove complete preservation of structure?

In the documenation for Data.Functor the following two are stated as the functor laws, which all functors should adhere to. fmap id == id fmap (f . g) == fmap f . fmap g The way my intuition ...
3
votes
1answer
232 views

Pithy summary for comonad. (Where a monad is a 'type for impure computation')

In terms of pithy summaries - this description of Monads seems to win - describing them as a 'type for impure computation'. What is an equivalent pithy (one-sentence) description of a comonad?
2
votes
1answer
145 views

Matrix as Applicative functor, which is not Monad

I run into examples of Applicatives that are not Monads. I like the multi-dimensional array example but I did not get it completely. Let's take a matrix M[A]. Could you show that M[A] is an ...