------------------------------------------------------------------------
-- Some properties about subsets
------------------------------------------------------------------------

module Data.Fin.Subset.Props where

open import Data.Nat
open import Data.Vec hiding (_∈_)
open import Data.Empty
open import Function
open import Data.Fin
open import Data.Fin.Subset
open import Data.Product
open import Relation.Binary.PropositionalEquality

------------------------------------------------------------------------
-- Constructor mangling

drop-there :  {s n x} {p : Subset n}  suc x  s  p  x  p
drop-there (there x∈p) = x∈p

drop-∷-⊆ :  {n s₁ s₂} {p₁ p₂ : Subset n}  s₁  p₁  s₂  p₂  p₁  p₂
drop-∷-⊆ p₁s₁⊆p₂s₂ x∈p₁ = drop-there $ p₁s₁⊆p₂s₂ (there x∈p₁)

drop-∷-Empty :  {n s} {p : Subset n}  Empty (s  p)  Empty p
drop-∷-Empty ¬¬∅ (x , x∈p) = ¬¬∅ (suc x , there x∈p)

------------------------------------------------------------------------
-- More interesting properties

allInside :  {n} (x : Fin n)  x  all inside
allInside zero    = here
allInside (suc x) = there (allInside x)

allOutside :  {n} (x : Fin n)  x  all outside
allOutside zero    ()
allOutside (suc x) (there x∈) = allOutside x x∈

⊆⊇⟶≡ :  {n} {p₁ p₂ : Subset n} 
       p₁  p₂  p₂  p₁  p₁  p₂
⊆⊇⟶≡ = helper _ _
  where
  helper :  {n} (p₁ p₂ : Subset n) 
           p₁  p₂  p₂  p₁  p₁  p₂
  helper []            []             _   _   = refl
  helper (s₁  p₁)     (s₂  p₂)      ₁⊆₂ ₂⊆₁ with ⊆⊇⟶≡ (drop-∷-⊆ ₁⊆₂)
                                                        (drop-∷-⊆ ₂⊆₁)
  helper (outside  p) (outside  .p) ₁⊆₂ ₂⊆₁ | refl = refl
  helper (inside   p) (inside   .p) ₁⊆₂ ₂⊆₁ | refl = refl
  helper (outside  p) (inside   .p) ₁⊆₂ ₂⊆₁ | refl with ₂⊆₁ here
  ...                                                | ()
  helper (inside   p) (outside  .p) ₁⊆₂ ₂⊆₁ | refl with ₁⊆₂ here
  ...                                                | ()

∅⟶allOutside :  {n} {p : Subset n} 
               Empty p  p  all outside
∅⟶allOutside {p = []}     ¬¬∅ = refl
∅⟶allOutside {p = s  ps} ¬¬∅ with ∅⟶allOutside (drop-∷-Empty ¬¬∅)
∅⟶allOutside {p = outside  .(all outside)} ¬¬∅ | refl = refl
∅⟶allOutside {p = inside   .(all outside)} ¬¬∅ | refl =
  ⊥-elim (¬¬∅ (zero , here))