newt/playground/samples/Combinatory.newt

module Combinatory

-- "A correct-by-construction conversion from lambda calculus to combinatory logic", Wouter Swierstra

data Unit : U where
  MkUnit : Unit

infixr 7 _::_
data List : U -> U where
  Nil : {A : U} -> List A
  _::_ : {A : U} -> A -> List A -> List A

-- prj/menagerie/papers/combinatory

infixr 6 _~>_
data Type : U where
  ι : Type
  _~>_ : Type -> Type -> Type

A : U
A = Unit

Val : Type -> U
Val ι = A
Val (x ~> y) = Val x -> Val y

Ctx : U
Ctx = List Type

data Ref : Type -> Ctx -> U where
  Here : {σ : Type} {Γ : Ctx} -> Ref σ (σ :: Γ)
  There : {σ τ : Type} {Γ : Ctx} -> Ref σ Γ -> Ref σ (τ :: Γ)

data Term : Ctx -> Type -> U where
  App : {Γ : Ctx} {σ τ : Type} -> Term Γ (σ ~> τ) -> Term Γ σ -> Term Γ τ
  Lam : {Γ : Ctx} {σ τ : Type} -> Term (σ :: Γ) τ -> Term Γ (σ ~> τ)
  Var : {Γ : Ctx} {σ : Type} -> Ref σ Γ → Term Γ σ

infixr 7 _:::_
data Env : Ctx -> U where
  ENil : Env Nil
  _:::_ : {Γ : Ctx} {σ : Type} → Val σ → Env Γ → Env (σ :: Γ)

-- TODO there is a problem here with coverage checking
-- I suspect something is being split before it's ready

-- lookup : {σ : Type} {Γ : Ctx} → Ref σ Γ → Env Γ → Val σ
-- lookup Here (x ::: y) = x
-- lookup (There i) (x ::: env) = lookup i env

lookup2 : {σ : Type} {Γ : Ctx} → Env Γ → Ref σ Γ → Val σ
lookup2 (x ::: y) Here = x
lookup2 (x ::: env) (There i) = lookup2 env i

-- TODO MixFix - this was ⟦_⟧
eval : {Γ : Ctx} {σ : Type} → Term Γ σ → (Env Γ → Val σ)
-- there was a unification error in direct application
eval (App t u) env = (eval t env) (eval u env)
eval (Lam t) env = \ x => eval t (x ::: env)
eval (Var i) env = lookup2 env i

data Comb : (Γ : Ctx) → (u : Type) → (Env Γ → Val u) → U where
  S : {Γ : Ctx} {σ τ τ' : Type} → Comb Γ ((σ ~> τ ~> τ') ~> (σ ~> τ) ~> (σ ~> τ')) (\ env => \ f g x => (f x) (g x))
  K : {Γ : Ctx} {σ τ : Type} → Comb Γ (σ ~> (τ ~> σ)) (\ env => \ x y => x)
  I : {Γ : Ctx} {σ : Type} → Comb Γ (σ ~> σ) (\ env => \ x => x)
  B : {Γ : Ctx} {σ τ τ' : Type} → Comb Γ ((τ ~> τ') ~> (σ ~> τ) ~> (σ ~> τ')) (\ env => \ f g x => f (g x))
  C : {Γ : Ctx} {σ τ τ' : Type} → Comb Γ ((σ ~> τ ~> τ') ~> τ ~> (σ ~> τ')) (\ env => \ f g x => (f x) g)
  CVar : {Γ : Ctx} {σ : Type} → (i : Ref σ Γ) → Comb Γ σ (\ env => lookup2 env i)
  CApp : {Γ : Ctx} {σ τ : Type} {f : _} {x : _} → Comb Γ (σ ~> τ) f → Comb Γ σ x → Comb Γ τ (\ env => (f env) (x env))

sapp : {Γ : Ctx} {σ τ ρ : Type} {f : _} {x : _} →
  Comb Γ (σ ~> τ ~> ρ) f →
  Comb Γ (σ ~> τ) x →
  Comb Γ (σ ~> ρ) (\ env y => (f env y) (x env y))
sapp (CApp K t) I = t
sapp (CApp K t) (CApp K u) = CApp K (CApp t u)
-- was out of pattern because of unexpanded lets.
sapp (CApp K t) u = CApp (CApp B t) u
sapp t (CApp K u) = CApp (CApp C t) u
sapp t u = CApp (CApp S t) u

abs : {Γ : Ctx} {σ τ : Type} {f : _} → Comb (σ :: Γ) τ f → Comb Γ (σ ~> τ) (\ env x => f (x ::: env))
abs S = CApp K S
abs K = CApp K K
abs I = CApp K I
abs B = CApp K B
abs C = CApp K C
abs (CApp t u) = sapp (abs t) (abs u)
-- lookup2 was getting stuck, needed to re-eval the types in the rewritten env.
abs (CVar Here) = I
abs (CVar (There i)) = CApp K (CVar i)

translate : {Γ : Ctx} {σ : Type} → (tm : Term Γ σ) → Comb Γ σ (eval tm)
translate (App t u) = CApp (translate t) (translate u)
translate (Lam t) = abs (translate t)
translate (Var i) = CVar i