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80 lines
2.4 KiB
Plaintext
80 lines
2.4 KiB
Plaintext
data Nat : Type where
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Z : Nat
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S : Nat -> Nat
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plus : Nat -> Nat -> Nat
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plus Z y = y
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plus (S k) y = S (plus k y)
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data Vect : Nat -> Type -> Type where
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Nil : Vect Z a
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Cons : a -> Vect k a -> Vect (S k) a
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append : Vect n a -> Vect m a -> Vect (plus n m) a
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append Nil ys = ys
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append (Cons x xs) ys = Cons x (append xs ys)
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data Fin : Nat -> Type where
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FZ : Fin (S $k)
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FS : Fin $k -> Fin (S $k)
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lookup : Fin $k -> Vect $k $ty -> $ty
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lookup FZ (Cons $t $ts) = t;
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lookup (FS $i) (Cons $t $ts) = lookup i ts;
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-- As a larger example, we'll implement the well-typed interpreter.
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-- So we'll need to represent the types of our expression language:
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data Ty : Type where
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Base : Type -> Ty
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Arrow : Ty -> Ty -> Ty
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-- Ty can be translated to a host language type
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interpTy : Ty -> Type
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interpTy (Base $t) = t
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interpTy (Arrow $s $t) = (argTy : interpTy s) -> interpTy t
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data HasType : Fin $k -> Ty -> Vect $k Ty -> Type where
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Stop : HasType FZ $t (Cons $t $gam)
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Pop : HasType $i $t $gam -> HasType (FS $i) $t (Cons $u $gam)
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-- Expressions in our language, indexed by their contexts and types:
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data Lang : Vect $k Ty -> Ty -> Type where
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Var : HasType $i $t $gam -> Lang $gam $t
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Val : (x : interpTy $a) -> Lang $gam $a
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Lam : (scope : Lang (Cons $s $gam) $t) -> Lang $gam (Arrow $s $t)
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App : Lang $gam (Arrow $s $t) -> Lang $gam $s -> Lang $gam $t;
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Op : (interpTy $a -> interpTy $b -> interpTy $c) ->
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Lang $gam $a -> Lang $gam $b -> Lang $gam $c
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data Env : Vect $n Ty -> Type where
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ENil : Env Nil
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ECons : (x : interpTy $a) -> Env $xs -> Env (Cons $a $xs)
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-- Find a value in an environment
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lookupEnv : HasType $i $t $gam -> Env $gam -> interpTy $t
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lookupEnv Stop (ECons $x $xs) = x
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lookupEnv (Pop $var) (ECons $x $env) = lookupEnv var env
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interp : Env $gam -> Lang $gam $t -> interpTy $t
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interp $env (Var $i) = lookupEnv i env
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interp $env (Val $x) = x
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interp $env (App $f $a) = interp env f (interp env a)
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interp $env (Lam {s = $s} $scope)
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= \var => interp (ECons var env) scope
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interp $env (Op $fn $x $y) = fn (interp env x) (interp env y)
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testAdd : Lang $gam (Arrow (Base Nat) (Arrow (Base Nat) (Base Nat)))
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testAdd = Lam (Lam (Op plus (Var Stop) (Var (Pop Stop))))
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testAdd2 : Lang $gam (Base Nat)
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testAdd2 = App (App testAdd (Val (S (S Z)))) (Val (S (S (S Z))))
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test1 : Nat
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test1 = interp ENil testAdd (S (S Z)) (S (S Z))
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test2 : Nat
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test2 = interp ENil testAdd2
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