**68**

votes

**5**answers

5k views

### What's the absurd function in Data.Void useful for?

The absurd function in Data.Void has the following signature, where Void is the logically uninhabited type exported by that package:
-- | Since 'Void' values logically don't exist, this witnesses the ...

**5**

votes

**1**answer

343 views

### How or is that possible to prove or falsify `forall (P Q : Prop), (P -> Q) -> (Q -> P) -> P = Q.` in Coq?

I want to prove or falsify forall (P Q : Prop), (P -> Q) -> (Q -> P) -> P = Q. in Coq. Here is my approach.
Inductive True2 : Prop :=
| One : True2
| Two : True2.
Lemma True_has_one : ...

**27**

votes

**4**answers

1k views

### Constructing efficient monad instances on `Set` (and other containers with constraints) using the continuation monad

Set, similarly to [] has a perfectly defined monadic operations. The problem is that they require that the values satisfy Ord constraint, and so it's impossible to define return and >>= without ...

**22**

votes

**2**answers

743 views

### Can GADTs be used to prove type inequalities in GHC?

So, in my ongoing attempts to half-understand Curry-Howard through small Haskell exercises, I've gotten stuck at this point:
{-# LANGUAGE GADTs #-}
import Data.Void
type Not a = a -> Void
-- | ...

**84**

votes

**10**answers

3k views

### What are the most interesting equivalences arising from the Curry-Howard Isomorphism?

I came upon the Curry-Howard Isomorphism relatively late in my programming life, and perhaps this contributes to my being utterly fascinated by it. It implies that for every programming concept there ...

**29**

votes

**6**answers

1k views

### Dependent Types: How is the dependent pair type analogous to a disjoint union?

I've been studying dependent types and I understand the following:
Why universal quantification is represented as a dependent function type. ∀(x:A).B(x) means “for all x of type A there is a ...