module whileTestGears where

open import Function
open import Data.Nat
open import Data.Bool hiding ( _≟_ ; _≤?_ ; _≤_ ; _<_)
open import Level renaming ( suc to succ ; zero to Zero )
open import Relation.Nullary using (¬_; Dec; yes; no)
open import Relation.Binary.PropositionalEquality

open import utilities
open  _/\_

record Env  : Set where
  field
    varn : ℕ
    vari : ℕ
open Env

whileTest : {l : Level} {t : Set l} → (c10 : ℕ) → (Code : Env → t) → t
whileTest c10 next = next (record {varn = c10 ; vari = 0} )

{-# TERMINATING #-}
whileLoop : {l : Level} {t : Set l} → Env → (Code : Env → t) → t
whileLoop env next with lt 0 (varn env)
whileLoop env next | false = next env
whileLoop env next | true =
    whileLoop (record {varn = (varn env) - 1 ; vari = (vari env) + 1}) next

test1 : Env
test1 = whileTest 10 (λ env → whileLoop env (λ env1 → env1 ))


proof1 : whileTest 10 (λ env → whileLoop env (λ e → (vari e) ≡ 10 ))
proof1 = refl

--                                                                              ↓PostCondition
whileTest' : {l : Level} {t : Set l}  → {c10 :  ℕ } → (Code : (env : Env)  → ((vari env) ≡ 0) /\ ((varn env) ≡ c10) → t) → t
whileTest' {_} {_} {c10} next = next env proof2
  where
    env : Env
    env = record {vari = 0 ; varn = c10}
    proof2 : ((vari env) ≡ 0) /\ ((varn env) ≡ c10) -- PostCondition
    proof2 = record {pi1 = refl ; pi2 = refl}

open import Data.Empty
open import Data.Nat.Properties


{-# TERMINATING #-} --                                                  ↓PreCondition(Invaliant)
whileLoop' : {l : Level} {t : Set l} → (env : Env) → {c10 :  ℕ } → ((varn env) + (vari env) ≡ c10) → (Code : Env → t) → t
whileLoop' env proof next with  ( suc zero  ≤? (varn  env) )
whileLoop' env proof next | no p = next env 
whileLoop' env {c10} proof next | yes p = whileLoop' env1 (proof3 p ) next
    where
      env1 = record {varn = (varn  env) - 1 ; vari = (vari env) + 1}
      1<0 : 1 ≤ zero → ⊥
      1<0 ()
      proof3 : (suc zero  ≤ (varn  env))  → varn env1 + vari env1 ≡ c10
      proof3 (s≤s lt) with varn  env
      proof3 (s≤s z≤n) | zero = ⊥-elim (1<0 p)
      proof3 (s≤s (z≤n {n'}) ) | suc n =  let open ≡-Reasoning  in
          begin
             n' + (vari env + 1) 
          ≡⟨ cong ( λ z → n' + z ) ( +-sym  {vari env} {1} )  ⟩
             n' + (1 + vari env ) 
          ≡⟨ sym ( +-assoc (n')  1 (vari env) ) ⟩
             (n' + 1) + vari env 
          ≡⟨ cong ( λ z → z + vari env )  +1≡suc  ⟩
             (suc n' ) + vari env 
          ≡⟨⟩
             varn env + vari env
          ≡⟨ proof  ⟩
             c10
          ∎

-- Condition to Invaliant
conversion1 : {l : Level} {t : Set l } → (env : Env) → {c10 :  ℕ } → ((vari env) ≡ 0) /\ ((varn env) ≡ c10)
               → (Code : (env1 : Env) → (varn env1 + vari env1 ≡ c10) → t) → t
conversion1 env {c10} p1 next = next env proof4
   where
      proof4 : varn env + vari env ≡ c10
      proof4 = let open ≡-Reasoning  in
          begin
            varn env + vari env
          ≡⟨ cong ( λ n → n + vari env ) (pi2 p1 ) ⟩
            c10 + vari env
          ≡⟨ cong ( λ n → c10 + n ) (pi1 p1 ) ⟩
            c10 + 0
          ≡⟨ +-sym {c10} {0} ⟩
            c10
          ∎


proofGears : {c10 :  ℕ } → Set
proofGears {c10} = whileTest' {_} {_} {c10} (λ n p1 →  conversion1 n p1 (λ n1 p2 → whileLoop' n1 p2 (λ n2 →  ( vari n2 ≡ c10 )))) 

data whileTestState (c10 : ℕ ) (env : Env ) : Set where
  error : whileTestState c10 env
  state1 : ((vari env) ≡ 0) /\ ((varn env) ≡ c10) → whileTestState c10 env
  state2 : (varn env + vari env ≡ c10) → whileTestState c10 env
  finstate : ((vari env) ≡ c10 ) → whileTestState c10 env

record Context : Set where
   field 
     c10 : ℕ
     whileDG : Env
     whileCond : whileTestState c10 whileDG

open Context

whileTestContext : {l : Level} {t : Set l} → Context → (Code : Context → t) → t
whileTestContext cxt next = next (record cxt { whileDG = record (whileDG cxt) {varn = c10 cxt ; vari = 0} ; whileCond = {!!} } )

{-# TERMINATING #-}
whileLoopContext : {l : Level} {t : Set l} → Context → (Code : Context → t) → t
whileLoopContext cxt next with lt 0 (varn (whileDG cxt) )
whileLoopContext cxt next | false = next cxt
whileLoopContext cxt next | true =
    whileLoopContext (record cxt { whileDG = record {varn = (varn (whileDG cxt)) - 1 ; vari = (vari (whileDG cxt)) + 1} ; whileCond = {!!} } )  next

open import Relation.Nullary
open import Relation.Binary


{-# TERMINATING #-}
whileLoopStep : {l : Level} {t : Set l} → Env → (Code : (e : Env ) → 1 ≤ varn e → t) (Code : (e : Env) → 0 ≡ varn e  → t) → t
whileLoopStep env next exit with <-cmp 0 (varn env)
whileLoopStep env next exit | tri≈ _ eq _ = exit env eq
whileLoopStep env next exit | tri< gt _ _  = {!!}
      where
        lem : (env : Env) → (1 ≤ varn env) → 1 ≤ (varn env - 1)
        lem env 1<varn = {!!}
        -- n が 0 の時 は正しい、　n が1の時正しくない

whileLoopStep env next exit | tri> _ _ c  = ⊥-elim (m<n⇒n≢0 {varn env} {0} c refl) -- can't happen

whileTestProof : {l : Level} {t : Set l} → Context → (Code : Context → t) → t
whileTestProof cxt next = next record cxt { whileDG = out ; whileCond = init } where
    out : Env 
    out =  whileTest (c10 cxt) ( λ e → e ) 
    init : whileTestState (c10 cxt) out
    init = state1 record { pi1 = refl ; pi2 = refl }

{-# TERMINATING #-}
whileLoopProof : {l : Level} {t : Set l} → Context → (Code : Context → t) (Code : Context → t) → t
whileLoopProof cxt next exit = whileLoopStep (whileDG cxt)
    ( λ env lt → next record cxt { whileDG = env ; whileCond = {!!} } ) 
    ( λ env eq → exit record cxt { whileDG = env ; whileCond = exitCond env eq } )   where
        proof5 : (e : Env ) → varn e + vari e ≡ c10 cxt →  0 ≡ varn e → vari e ≡ c10 cxt
        proof5 record { varn = .0 ; vari = vari } refl refl = refl
        exitCond : (e : Env ) → 0 ≡ varn e → whileTestState (c10 cxt) e
        exitCond nenv eq1 with whileCond cxt | inspect whileDG cxt
        ... | state2 cond | record { eq = eq2 } = finstate ( proof5 nenv {!!} eq1 )
        ... | _ | _ = error

whileConvProof : {l : Level} {t : Set l} → Context → (Code : Context → t) → t
whileConvProof cxt next = next record cxt { whileCond = postCond } where
    proof4 : (e : Env ) → (vari e ≡ 0) /\ (varn e ≡ c10 cxt)  → varn e + vari e ≡ c10 cxt
    proof4 env p1 = let open ≡-Reasoning  in
          begin
            varn env + vari env
          ≡⟨ cong ( λ n → n + vari env ) (pi2 p1 ) ⟩
            c10 cxt + vari env
          ≡⟨ cong ( λ n → c10 cxt + n ) (pi1 p1 ) ⟩
            c10 cxt + 0
          ≡⟨ +-sym {c10 cxt} {0} ⟩
            c10 cxt 
          ∎
    postCond : whileTestState (c10 cxt) (whileDG cxt)
    postCond with whileCond cxt
    ... | state1 cond = state2 (proof4 (whileDG cxt) cond )
    ... | _ = error

{-# TERMINATING #-}
loop : {l : Level} {t : Set l} → Context → (exit : Context → t) → t
loop cxt exit = whileLoopProof cxt (λ cxt → loop cxt exit ) exit


{-# TERMINATING #-}
loopProof : {l : Level} {t : Set l} {P Inv : Context → Set } → (c : Context) → (if : (c : Context) → Dec (P c))
           → Inv c → (exit : (c2 : Context) → (P c2) → Inv c2  → t)
          (f : Context → (exit : (c2 : Context) → (P c2) → Inv c2  → t) → t) → t
loopProof {l} {t} {P} {Inv} cxt if inv exit f = lem cxt inv
  where
    lem : (c : Context) → Inv c → t
    lem c inv with if c
    lem c inv | no ¬p = f c (λ c1 inv1 inv2 → lem c1 {!!} )
    lem c inv | yes p = exit {!!} {!!} {!!}
        


proofWhileGear : (c : ℕ) (cxt : Context) → whileTestProof (record cxt { c10 = c ; whileCond = error })
    $ λ cxt → whileConvProof cxt 
    $ λ cxt → loop cxt 
    $ λ cxt → vari (whileDG cxt) ≡ c10 cxt
proofWhileGear c cxt = {!!}


CodeGear : {l : Level} {t : Set l} → (cont : Set → t) → (exit : Set → t) → t
CodeGear = {!!}