------------------------------------------------------------------------
-- The Agda standard library
--
-- An example of how Data.Fin.Substitution can be used: a definition
-- of substitution for the untyped λ-calculus, along with some lemmas
------------------------------------------------------------------------

module Data.Fin.Substitution.Example where

open import Data.Fin.Substitution
open import Data.Fin.Substitution.Lemmas
open import Data.Nat
open import Data.Fin using (Fin)
open import Data.Vec
open import Relation.Binary.PropositionalEquality as PropEq
  using (_≡_; refl; sym; cong; cong₂)
open PropEq.≡-Reasoning
open import Data.Star using (Star; ε; _◅_)

-- A representation of the untyped λ-calculus. Uses de Bruijn indices.

infixl 9 _·_

data Tm (n : ) : Set where
  var : (x : Fin n)  Tm n
  ƛ   : (t : Tm (suc n))  Tm n
  _·_ : (t₁ t₂ : Tm n)  Tm n

-- Code for applying substitutions.

module TmApp {T} (l : Lift T Tm) where
  open Lift l hiding (var)

  -- Applies a substitution to a term.

  infix 8 _/_

  _/_ :  {m n}  Tm m  Sub T m n  Tm n
  var x   / ρ = lift (lookup x ρ)
  ƛ t     / ρ = ƛ (t / ρ )
  t₁ · t₂ / ρ = (t₁ / ρ) · (t₂ / ρ)

  open Application (record { _/_ = _/_ }) using (_/✶_)

  -- Some lemmas about _/_.

  ƛ-/✶-↑✶ :  k {m n t} (ρs : Subs T m n) 
            ƛ t /✶ ρs ↑✶ k  ƛ (t /✶ ρs ↑✶ suc k)
  ƛ-/✶-↑✶ k ε        = refl
  ƛ-/✶-↑✶ k (ρ  ρs) = cong₂ _/_ (ƛ-/✶-↑✶ k ρs) refl

  ·-/✶-↑✶ :  k {m n t₁ t₂} (ρs : Subs T m n) 
            t₁ · t₂ /✶ ρs ↑✶ k  (t₁ /✶ ρs ↑✶ k) · (t₂ /✶ ρs ↑✶ k)
  ·-/✶-↑✶ k ε        = refl
  ·-/✶-↑✶ k (ρ  ρs) = cong₂ _/_ (·-/✶-↑✶ k ρs) refl

tmSubst : TermSubst Tm
tmSubst = record { var = var; app = TmApp._/_ }

open TermSubst tmSubst hiding (var)

-- Substitution lemmas.

tmLemmas : TermLemmas Tm
tmLemmas = record
  { termSubst = tmSubst
  ; app-var   = refl
  ; /✶-↑✶     = Lemma./✶-↑✶
  }
  where
  module Lemma {T₁ T₂} {lift₁ : Lift T₁ Tm} {lift₂ : Lift T₂ Tm} where

    open Lifted lift₁ using () renaming (_↑✶_ to _↑✶₁_; _/✶_ to _/✶₁_)
    open Lifted lift₂ using () renaming (_↑✶_ to _↑✶₂_; _/✶_ to _/✶₂_)

    /✶-↑✶ :  {m n} (ρs₁ : Subs T₁ m n) (ρs₂ : Subs T₂ m n) 
            (∀ k x  var x /✶₁ ρs₁ ↑✶₁ k  var x /✶₂ ρs₂ ↑✶₂ k) 
              k t  t     /✶₁ ρs₁ ↑✶₁ k  t     /✶₂ ρs₂ ↑✶₂ k
    /✶-↑✶ ρs₁ ρs₂ hyp k (var x) = hyp k x
    /✶-↑✶ ρs₁ ρs₂ hyp k (ƛ t)   = begin
      ƛ t /✶₁ ρs₁ ↑✶₁ k        ≡⟨ TmApp.ƛ-/✶-↑✶ _ k ρs₁ 
      ƛ (t /✶₁ ρs₁ ↑✶₁ suc k)  ≡⟨ cong ƛ (/✶-↑✶ ρs₁ ρs₂ hyp (suc k) t) 
      ƛ (t /✶₂ ρs₂ ↑✶₂ suc k)  ≡⟨ sym (TmApp.ƛ-/✶-↑✶ _ k ρs₂) 
      ƛ t /✶₂ ρs₂ ↑✶₂ k        
    /✶-↑✶ ρs₁ ρs₂ hyp k (t₁ · t₂) = begin
      t₁ · t₂ /✶₁ ρs₁ ↑✶₁ k                    ≡⟨ TmApp.·-/✶-↑✶ _ k ρs₁ 
      (t₁ /✶₁ ρs₁ ↑✶₁ k) · (t₂ /✶₁ ρs₁ ↑✶₁ k)  ≡⟨ cong₂ _·_ (/✶-↑✶ ρs₁ ρs₂ hyp k t₁)
                                                            (/✶-↑✶ ρs₁ ρs₂ hyp k t₂) 
      (t₁ /✶₂ ρs₂ ↑✶₂ k) · (t₂ /✶₂ ρs₂ ↑✶₂ k)  ≡⟨ sym (TmApp.·-/✶-↑✶ _ k ρs₂) 
      t₁ · t₂ /✶₂ ρs₂ ↑✶₂ k                    

open TermLemmas tmLemmas public hiding (var)