*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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9
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58 views

Is there a Codensity MonadPlus?

Recently there was a question about the relation between DList <-> [] versus Codensity <-> Free. This made me think whether there is such a thing for MonadPlus. The Codensity monad improves the ...
16
votes
2answers
102 views

Relation between `DList` and `[]` with Codensity

I've been experimenting with Codensity lately which is supposed to relate DList with [] among other things. Anyway, I've never found code that states this relation. After some experiments I ended up ...
12
votes
2answers
94 views

Can I implement this newtype as a composition of other types?

I've written a newtype Const3 that's very similar to Const, but contains the first of three given type arguments: newtype Const3 a b c = Const3 { getConst3 :: a } I can define very many useful ...
0
votes
1answer
33 views

Arrows in the definition of dual of category

Given any category CatC, you can construct another category denoted CatCop by reversing all the arrows. The dual or opposite CatCop of a category CatC is defined by: D-1 The objects and arrows ...
0
votes
0answers
43 views

Arrow notation in slice category

If CatC is a category and A any object of CatC, the slice category CatC/A is described this way: SC-1 An object of CatC/A is an arrow f: C -> A of CatC for some object C. SC-2 An arrow ...
29
votes
3answers
2k views

Arrows are exactly equivalent to applicative functors?

According to the famous paper Idioms are oblivious, arrows are meticulous, monads are promiscuous, the expressive power of arrows (without any additional typeclasses) should be somewhere strictly ...
57
votes
5answers
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 ...
13
votes
1answer
90 views

Are the “natural transformations” we apply on Coyoneda to get a Functor actually “natural transformations”?

I have a theoretical question about the nature of a type that is used in a lot of examples explaining the Coyoneda lemma. They are usually referred to as "natural transformations" which to my ...
9
votes
2answers
142 views

Is (\f -> fmap f id) always equivalent to arr?

Some instances of Category are also instances of Functor. For example: {-# LANGUAGE ExistentialQuantification, TupleSections #-} import Prelude hiding (id, (.)) import Control.Category import ...
22
votes
3answers
3k views

Resources for learning category theory [closed]

I am going to take a course on category theory soon. What resources can you recommend for learning about it? What parts are relevant to learn and how do I learn to apply my knowledge?
14
votes
1answer
196 views

Control.Category, what does >>> and <<< mean?

I am following this blog, to write a simple http server in haskell, Usage of >>> is not clear to me. What does this code snippet do? handleHttpConnection r c = runKleisli ...
4
votes
3answers
147 views

What is the category-theoretical basis for the requirement that the Haskell “id” function must return the same value as passed in?

How can the following all be true? In the Hask category, the Objects are Haskell types and the Morphisms are Haskell functions. Values play no role in Hask. The identity Morphism is defined as an ...
10
votes
2answers
264 views

What means precisely “function inside a functor”

In category theory functor is a homomorphism between two categories. In Haskell, it's said that applicative functor allows us to apply functions "inside a functor". Could one translate that words ...
10
votes
2answers
368 views

Are there contravariant monads?

Functors can be covariant and contravariant. Can this covariant/contravariant duality also be applied to monads? Something like: class Monad m where return :: a -> m a (>>=) :: m a ...
0
votes
2answers
284 views

Introduction to Category Theory without Haskel, Scala or F# [closed]

I wan't to get introduced to the fundamental concepts of Category Theory, from a developer's perspective (not a math student), but every single resource I see uses Haskel, Scala, F# or other ...
0
votes
1answer
32 views

In the category of sets, why are singleton sets terminal?

I'm trying to understand why the category of sets is defined the way it is, with singleton sets as terminal objects. If the "Set" category contains all of the possible sets, and all of the possible ...
2
votes
0answers
49 views

Background on Agda Categories library?

I'm trying to understand the Categories library, but I'm fairly new to Agda, so I'm looking for some sort of document explaining the choices that were made in the implementation of the library. ...
13
votes
2answers
431 views

Can I model a list of successes with short circuiting failure via the composition of applicative functors?

The user 'singpolyma' asked on reddit if there was some general structure underlying: data FailList a e = Done | Next a (FailList a e) | Fail e A free monad was suggested, but I wondered if this ...
332
votes
3answers
58k views

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 ...
1
vote
2answers
365 views

LYHFGG: “Monads are just applicative functors that support >>=”. In what sense is this statement true?

In LYHFGG the author states that "Monads are just applicative functors that support >>=" (see image below). I don't see how this statement can be true if I look at the definition of Monad type class. ...
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 ...
3
votes
2answers
121 views

Do notation and Monad composition

Im a Haskell beginner and I'm still learning about Category Theory and its practical use in computer science. I've spent last day watching couple lectures from Berkley's university about category ...
13
votes
1answer
298 views

What is exactly an indexed functor in Haskell and what are its usages?

When studying functors in Haskell I came up with Functor.Indexed type of functor. This functor defines an operation called imap. I didn't understood its definition and imap signature: imap :: (a -> ...
26
votes
2answers
1k views

What are Haskell's monad transformers in categorical terms?

As a math student, the first thing I did when I learned about monads in Haskell was check that they really were monads in the sense I knew about. But then I learned about monad transformers and those ...
7
votes
2answers
213 views

Is there a term for a monad that is also a comonad?

I'm just wondering whether there's a concise term for something that's both a monad and a comonad. I've done some searching, and I know these structures exist, but I haven't found a name for them.
9
votes
1answer
630 views

Defining Categories and Category Laws in Haskell

I am having fun learning Category Theory by directly translating the definitions and laws to Haskell. Haskell is not Coq of course but it helps me getting an intuition for Category Theory. My question ...
235
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 ...
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?
4
votes
1answer
123 views

Haskell - Functor instance for generic polymorphic Algebraic Data Types using recursion-schemes

Problem: Recently I asked the following question on here, asking how to create a generic map function, and a generic instance of Functor for any arbitrary polymorphic ADT (Algebraic Data Type), like ...
9
votes
2answers
165 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 ...
1
vote
1answer
110 views

What are the attributes that make 'types-first' programming in Scala have less code and less bugs?

I attended a Scala course called 'Patterns in Types' based on this repository. The course covers the following ideas: Error Monad Reader Monad Writer Monad State Monad Reader Monad Transformer ...
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 ...
4
votes
1answer
83 views

Generalization of Exponential Type

How (if at all) does the exponential interpretation of (->) (a -> b as $b^a$) generalize to categories other than Hask/Set? For example it would appear that the interpretation for the category ...
5
votes
2answers
80 views

Proper way to wrap selectively class instances (or “lift” functions like `sortBy`, `minimumBy`, … automatically)

Let some type instanced to many classes. What is the proper way to replace, selectively, certain instances's behaviors? One way to express it could be construct the by operator then data Person ... ...
2
votes
1answer
147 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 ...
11
votes
2answers
272 views

List based on right Kan extension

In the ``Kan Extensions for Program Optimisation'' by Ralf Hinze there is the definition of List type based on right Kan extension of the forgetful functor from the category of monoids along itself ...
5
votes
1answer
100 views

Categories library for Agda?

Are there any "recommended" libraries that provide a easy-to-use formalisation of basic category theory in Agda? The Agda standard library seems to provide very little in this regard. I'm looking for ...
125
votes
2answers
9k views

Real-world applications of zygohistomorphic prepromorphisms

Yes, these ones: {-#LANGUAGE TypeOperators, RankNTypes #-} import Control.Morphism.Zygo import Control.Morphism.Prepro import Control.Morphism.Histo import Control.Functor.Algebra import ...
9
votes
1answer
149 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 ...
13
votes
3answers
1k views

Is there a theory that combines category theory/abstract algebra and computational complexity?

Category theory and abstract algebra deal with the way functions can be combined with other functions. Complexity theory deals with how hard a function is to compute. It's weird to me that I haven't ...
7
votes
4answers
415 views

Why Functor class has no return function?

From categorical point of view, functor is pair of two maps (one between objects and another between arrows of categories), following some axioms. I have assumed, what every Functor instance is ...
3
votes
0answers
73 views

Are type-level functors just functors in the 2-category of Hask?

From what I understand, the typical interpretation of the Hask category is that the objects of the category are Haskell types, and the morphisms are Haskell functions. With that interpretation: {-# ...
2
votes
1answer
154 views

Type equality in higher order kleisli (scala)

The Story so far - type :**:[F[_], G[_]] = ({ type λ[α] = F[G[α]] }) trait HBind[M[_]] extends HFunctor[M] { def hbind[F[_], G[_]](f: F ~> (M :**: G)#λ)(implicit MG: Functor[(M :**: G)#λ], F: ...
7
votes
1answer
101 views

What is the general case of QuickCheck's promote function?

What is the general term for a functor with a structure resembling QuickCheck's promote function, i.e., a function of the form: promote :: (a -> f b) -> f (a -> b) (this is the inverse of ...
21
votes
1answer
407 views

Arrow without arr

If we restrict our understanding of a category to be the usual Category class in Haskell: class Category c where id :: c x x (>>>) :: c x y -> c y z -> c x z Then let's say that ...
7
votes
2answers
132 views

Can two non-functors compose to a functor?

We can have two types f, g :: * -> * such that they're not monads, but their composition is. For example for an arbitrary fixed s: f a := s -> a g a := (s, a) g a isn't a monad (unless we ...
18
votes
1answer
2k views

Step by Step / Deep explain: The Power of (Co)Yoneda (preferably in scala) through Coroutines

some background code /** FunctorStr: ∑ F[-]. (∏ A B. (A -> B) -> F[A] -> F[B]) */ trait FunctorStr[F[_]] { self => def map[A, B](f: A => B): F[A] => F[B] } trait Yoneda[F[_], A] ...
5
votes
1answer
181 views

Bicategories in Haskell

I am trying to define a type class for bicategories and instantiate it with the bicategory of categories, functors and natural transformations. {-# LANGUAGE NoImplicitPrelude, MultiParamTypeClasses, ...
12
votes
1answer
442 views

If MonadPlus is the “generator” class, then what is the “consumer” class?

A Pipe can be broken into two parts: the generator part (yield) and the consumer part (await). If you have a Pipe that only uses it's generator half, and only returns () (or never returns), then it ...
1
vote
1answer
161 views

C++ functor (mapping)

I have created a class either<l, r> much like Haskell's Either a b. I have also implemented a function map directly in the class; this is what the code looks like: template<typename l, ...