------------------------------------------------------------------------
-- The Agda standard library
--
-- Bisimilarity for Covecs
------------------------------------------------------------------------

{-# OPTIONS --cubical-compatible --sized-types #-}

module Codata.Sized.Covec.Bisimilarity where

open import Level using (_⊔_)
open import Size
open import Codata.Sized.Thunk
open import Codata.Sized.Conat hiding (_⊔_)
open import Codata.Sized.Covec
open import Relation.Binary.Definitions
  using (Reflexive; Symmetric; Transitive; Sym; Trans)
open import Relation.Binary.PropositionalEquality.Core as Eq using (_≡_)

data Bisim {a b r} {A : Set a} {B : Set b} (R : A  B  Set r) (i : Size) :
            m n (xs : Covec A  m) (ys : Covec B  n)  Set (r  a  b) where
  []  : Bisim R i zero zero [] []
  _∷_ :  {x y m n xs ys}  R x y  Thunk^R  i  Bisim R i (m .force) (n .force)) i xs ys 
        Bisim R i (suc m) (suc n) (x  xs) (y  ys)

infixr 5 _∷_

module _ {a r} {A : Set a} {R : A  A  Set r} where

 reflexive : Reflexive R   {i m}  Reflexive (Bisim R i m m)
 reflexive refl^R {i} {m} {[]}     = []
 reflexive refl^R {i} {m} {r  rs} = refl^R  λ where .force  reflexive refl^R

module _ {a b} {A : Set a} {B : Set b}
         {r} {P : A  B  Set r} {Q : B  A  Set r} where

 symmetric : Sym P Q   {i m n}  Sym (Bisim P i m n) (Bisim Q i n m)
 symmetric sym^PQ []       = []
 symmetric sym^PQ (p  ps) = sym^PQ p  λ where .force  symmetric sym^PQ (ps .force)

module _ {a b c} {A : Set a} {B : Set b} {C : Set c}
         {r} {P : A  B  Set r} {Q : B  C  Set r} {R : A  C  Set r} where

 transitive : Trans P Q R   {i m n p}  Trans (Bisim P i m n) (Bisim Q i n p) (Bisim R i m p)
 transitive trans^PQR []       []       = []
 transitive trans^PQR (p  ps) (q  qs) =
   trans^PQR p q  λ where .force  transitive trans^PQR (ps .force) (qs .force)

-- Pointwise Equality as a Bisimilarity
------------------------------------------------------------------------

module _ {} {A : Set } where

 infix 1 _,_⊢_≈_
 _,_⊢_≈_ :  i m  Covec A  m  Covec A  m  Set 
 _,_⊢_≈_ i m = Bisim _≡_ i m m

 refl :  {i m}  Reflexive (i , m ⊢_≈_)
 refl = reflexive Eq.refl

 sym :  {i m}  Symmetric (i , m ⊢_≈_)
 sym = symmetric Eq.sym

 trans :  {i m}  Transitive (i , m ⊢_≈_)
 trans = transitive Eq.trans