*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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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 ...
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120 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 ...
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202 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 -> ...
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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 ...
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37 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 ...
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68 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 ...
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2answers
72 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 ... ...
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1answer
120 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 ...
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227 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 ...
4
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58 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 ...
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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 ...
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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 ...
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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 ...
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161 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.
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594 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 ...
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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 ...
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4answers
389 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 ...
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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: {-# ...
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132 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: ...
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92 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 ...
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2answers
229 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. ...
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344 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 ...
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2answers
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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 ...
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746 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] ...
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169 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, ...
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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 ...
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117 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, ...
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4answers
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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 ...
8
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1answer
137 views

Are haskell data types co-algebras by default?

I'm trying to get my head around F-algebras, and this article does a pretty good job. I understand the notion of a dual in category theory, but I'm having a hard time understanding how F-coalgebras ...
16
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1answer
631 views

How does lifting (in a functional programming context) relate to category theory?

Looking at the Haskell documentation, lifting seems to be basically a generalization of fmap, allowing for the mapping of functions with more than one argument. The Wikipedia article on lifting ...
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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 ...
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255 views

Generalizing Haskell: could we replace Hask with Cat? [closed]

It is great that Haskell allows us to walk around in the category Hask. But sometimes I feel it is too tight. So I had this idea about a programming language that would allow us to move around in the ...
4
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328 views

In what way is Scala's Option fold a catamorphism?

The answer to this question suggests that the fold method on Option in Scala is a catamoprhism. From the wikipedia a catamophism is "the unique homomorphism from an initial algebra into some other ...
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359 views

Higher order Functors in scala

So I've been trying to push my intuitions of functors to their limits by defining a higher order functor i.e. a, F that takes 1st order types as type argument, and functions and lifts functions on 1st ...
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0answers
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Combining the state monad with the costate comonad

How to combine the state monad S -> (A, S) with the costate comonad (E->A, E)? I tried with both obvious combinations S -> ((E->A, E), S) and (E->S->(A, S), E) but then in either ...
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218 views

Introduction to Category Theory without Haskel, Scala or F#

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 ...
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3answers
768 views

Is the concept of an “interleaved homomorphism” a real thing?

I am in need of the following class of functions: class InterleavedHomomorphic x where interleaveHomomorphism :: (forall a . f a -> g a) -> x f -> x g Obviously the name I invented for ...
3
votes
1answer
186 views

Free Applicative in Scala

Looking through the haskell free package (http://hackage.haskell.org/package/free-3.4.2) there's a few types that seem simple and useful, that I see almost no literature on outside of haskell, the ...
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542 views

What does a nontrivial comonoid look like?

Comonoids are mentioned, for example, in Haskell's distributive library docs: Due to the lack of non-trivial comonoids in Haskell, we can restrict ourselves to requiring a Functor rather than some ...
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3answers
341 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 ...
8
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1answer
232 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 ...
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224 views

“Transposition” of functors?

Recently I had to write the following function: mToL :: Maybe [a] -> [Maybe a] mToL Nothing = [] mToL (Just xs) = map Just xs This begged the question whether it is possible to generalize the ...
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votes
5answers
2k 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 ...
6
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2answers
253 views

Is there a name for arrows of the type a -> a (in Haskell notation) in category theory?

Whats the name of arrows in category theory that have this type: a -> a "From a type(?) to another object of the same type" Or maybe there's no particular name for them? In other words: Is ...
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521 views

Are there a thing call “semi-monad” or “counter-monad”?

Well, I am studying Haskell Monads. When I read the Wikibook Category theory article, I found that the signature of monad morphisms looks pretty like tautologies in logic, but you need to convert M a ...
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192 views

Where's the functor in the natural transformation?

I've had this question on the very back of my mind ever since I saw the definition of natural transformations in the Edward Kmett's old category-extras package: -- | A natural transformation between ...
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Where Haskell category composition is used regardless of instance?

I think I almost figured out what Category class represents. However at this level of abstraction it makes me wonder where I could find generic use for it. What code using . or id from ...
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506 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 ...
209
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3answers
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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 ...
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335 views

How are uncurry and fanin related in category theory?

In a library I'm writing I've found it to be seemingly elegant to write a class that is similar to (but slightly more general than) the following, which combines both the usual uncurry over products ...