fin-0.3.1: Nat and Fin: peano naturals and finite numbers
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LanguageHaskell2010

Data.Type.Nat.LT

Contents

Synopsis

Documentation

class LT (n :: Nat) (m :: Nat) where Source #

Less-Than-or. \(<\). Well-founded relation on Nat.

GHC can solve this for us!

>>> ltProof :: LTProof Nat0 Nat4
LESucc LEZero
>>> ltProof :: LTProof Nat2 Nat4
LESucc (LESucc (LESucc LEZero))
>>> ltProof :: LTProof Nat3 Nat3
...
...error...
...

Methods

ltProof :: LTProof n m Source #

Instances

Instances details
LE ('S n) m => LT n m Source # 
Instance details

Defined in Data.Type.Nat.LT

Methods

ltProof :: LTProof n m Source #

type LTProof n m = LEProof ('S n) m Source #

An evidence \(n < m\) which is the same as (1 + n le m).

withLTProof :: LTProof n m -> (LT n m => r) -> r Source #

Lemmas

ltReflAbsurd :: LTProof n n -> a Source #

\(\forall n : \mathbb{N}, n < n \to \bot \)

ltSymAbsurd :: LTProof n m -> LTProof m n -> a Source #

\(\forall n\, m : \mathbb{N}, n < m \to m < n \to \bot \)

ltTrans :: LTProof n m -> LTProof m p -> LTProof n p Source #

\(\forall n\, m\, p : \mathbb{N}, n < m \to m < p \to n < p \)