Type families are Haskell language extension to facilitate type-level programming, via ad-hoc overloading of *data types*. They are the data equivalent of type classes (which allow overloading of functions).

learn more… | top users | synonyms

12
votes
2answers
284 views

Incomprehensible error message with type families

I'm trying to understand type families without much success. Here's a minimal example: {-# LANGUAGE TypeFamilies #-} class Object obj where type Unit obj :: * unit :: Unit obj instance (Object ...
15
votes
1answer
135 views

Is it possible to introduce additional type variables into a superclass-constraint?

When dealing with type families, it is often handy to use equality constraints to avoid having to repeat some type-function's name in a signature: class Foo f where type BulkyAssociatedType f :: * ...
3
votes
2answers
200 views

Type-threaded heterogenous lists and defaulting(?) with type families?

I'm working on a library where I want to define a recursive class that I've simplified here to: {-# LANGUAGE MultiParamTypeClasses , FlexibleInstances #-} data Snoc st b c = Snoc (st b) ...
9
votes
3answers
551 views

Type constraints on all type family instances

I suppose what I want is impossible without Template Haskell but I'll ask anyway. I have an interface for types like Data.Set and Data.IntSet: type family Elem s :: * class SetLike s where insert ...
3
votes
3answers
605 views

Problem when mixing type classes and type families

This code compiles fine: {-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, FlexibleInstances, UndecidableInstances, FlexibleContexts, EmptyDataDecls, ScopedTypeVariables, TypeOperators, ...
11
votes
1answer
509 views

data families use cases

Benefits of using type synonym families is clear - it is type-level functions. But it is not the case with data families - so my question is, what is use-cases for data families? Where should I use ...
7
votes
1answer
349 views

Haskell: shuffling data without functional dependencies

I'm trying to implement a Fisher-Yates shuffle of some data. This algorithm is easy to implement for one-dimensional arrays. However, I need to be able to shuffle data in a two-dimensional matrix. An ...
4
votes
1answer
295 views

How to get around the Coverage Condition for Functional Dependencies without using -XUndecidableInstances

Wen using functional dependencies, I frequently hit the Coverage Condition. It is possible to lift it with UndecidableInstances, but I usually try to stay away from that extension. Here is a ...
2
votes
2answers
66 views

applying a list of Strings to an arbitrary function

I'm trying to write a function which allows you to "apply" a list of Strings to an arbitrary function. Here's what I've got so far: {-# LANGUAGE MultiParamTypeClasses, FlexibleInstances, ...
2
votes
1answer
146 views

Return Type as a result of Term or Value calculation

I'm trying to get a good grasp on Kinds, Types & Terms(or Values, not sure which is correct) and the GHC extensions for manipulating them. I understand that we can use TypeFamilies to write ...
2
votes
1answer
811 views

Playing with DataKinds - Kind mis-match errors

I've been teaching myself about type-level programming and wanted to write a simple natural number addition type function. My first version which works is as follows: data Z data S n type One = S Z ...
2
votes
2answers
275 views

Haskell: Instance definitions for type families

Lets say we have the following code: class C t where g :: t instance C Int where g = 42 Simple. We can also define functions on Int, like so: f1 :: Int -> Int f1 x = x * x I've been ...
1
vote
1answer
107 views

Making VectorSpace.Scalar instance of Eq

Note: I may not need to add Scalar to Eq, although it should solve the problem if I could figure out how to do just that. So I'm trying to add some functionality to the ForceLayout module. Adding ...
0
votes
1answer
213 views

Variadic arguments, using Type Families instead of Multi-param Typeclasses

Here's what I've got, expressed with MultiParamTypeClasses: class ListResultMult r a where lstM :: a -> [a] -> r listM :: ListResultMult r a => a -> r listM a = lstM a [] instance ...