2022-10-12 19:22:58 +02:00
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(*******************************************************************************
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* WIP implementation of the Hindley-Milner type system primarily for learning
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* purposes.
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*
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* Wish List:
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* - TODO Debug this inference (let f (fn x x) f)
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******************************************************************************)
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open Types
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2022-10-24 23:51:48 +02:00
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open Debug
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2022-10-12 19:22:58 +02:00
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(*******************************************************************************
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* Library
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******************************************************************************)
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let ( let* ) = Option.bind
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let set_from_list (xs : string list) : set =
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xs |> List.fold_left (fun acc x -> FromString.add x true acc) FromString.empty
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(* Map union that favors the rhs values (i.e. "last writer wins"). *)
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let lww (xs : 'a FromString.t) (ys : 'a FromString.t) : 'a FromString.t =
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FromString.union (fun k x y -> Some y) xs ys
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let emptyEnv : env = FromString.empty
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let rec free_type_vars (t : _type) : set =
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match t with
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| TypeVariable k -> FromString.singleton k true
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| TypeInt -> FromString.empty
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| TypeBool -> FromString.empty
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| TypeArrow (a, b) -> lww (free_type_vars a) (free_type_vars b)
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let i : int ref = ref 0
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let make_type_var () : _type =
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let res = Printf.sprintf "a%d" !i in
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i := !i + 1;
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TypeVariable res
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exception OccursCheck
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let bind_var (k : string) (t : _type) : substitution =
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if t == TypeVariable k then FromString.empty
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else if FromString.exists (fun name _ -> name == k) (free_type_vars t) then
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raise OccursCheck
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else FromString.singleton k t
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let rec instantiate (q : quantified_type) : _type =
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let (QuantifiedType (names, t)) = q in
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match t with
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| TypeInt -> TypeInt
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| TypeBool -> TypeBool
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| TypeVariable k ->
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if List.exists (( == ) k) names then make_type_var () else TypeVariable k
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| TypeArrow (a, b) ->
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TypeArrow
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(instantiate (QuantifiedType (names, a)), instantiate (QuantifiedType (names, b)))
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let quantified_type_ftvs (q : quantified_type) : set =
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let (QuantifiedType (names, t)) = q in
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lww (free_type_vars t) (names |> set_from_list)
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let generalize (env : env) (t : _type) : quantified_type =
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let envftv =
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env |> FromString.bindings
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|> List.map (fun (_, v) -> quantified_type_ftvs v)
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|> List.fold_left lww FromString.empty
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in
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let names =
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lww (free_type_vars t) envftv
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|> FromString.bindings
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|> List.map (fun (k, _) -> k)
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in
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QuantifiedType (names, t)
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let rec substitute_type (s : substitution) (t : _type) : _type =
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match t with
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| TypeVariable k as tvar ->
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(match FromString.find_opt k s with
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| Some v -> substitute_type s v
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| None -> tvar)
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| TypeArrow (a, b) -> TypeArrow (substitute_type s a, substitute_type s b)
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| TypeInt -> TypeInt
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| TypeBool -> TypeBool
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let substitute_quantified_type (s : substitution) (q : quantified_type) : quantified_type =
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let (QuantifiedType (names, t)) = q in
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let s1 =
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FromString.filter (fun k v -> List.exists (fun x -> k != x) names) s
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in
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QuantifiedType (names, substitute_type s1 t)
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let substitute_env (s : substitution) (env : env) : env =
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FromString.map (fun q -> substitute_quantified_type s q) env
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let compose_substitutions (xs : substitution list) : substitution =
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let do_compose_substitutions s1 s2 = lww s2 (FromString.map (substitute_type s2) s1) in
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List.fold_left do_compose_substitutions FromString.empty xs
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let rec unify (a : _type) (b : _type) : substitution option =
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match (a, b) with
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| TypeInt, TypeInt -> Some FromString.empty
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| TypeBool, TypeBool -> Some FromString.empty
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| TypeVariable k, _ -> Some (bind_var k b)
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| _, TypeVariable k -> Some (bind_var k a)
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| TypeArrow (a, b), TypeArrow (c, d) ->
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let* s1 = unify a c in
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let* s2 = unify (substitute_type s1 b) (substitute_type s1 d) in
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let s3 = compose_substitutions [s1; s2] in
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2022-10-24 23:51:48 +02:00
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s1 |> Debug.substitution |> Printf.sprintf "s1: %s\n" |> print_string;
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s2 |> Debug.substitution |> Printf.sprintf "s2: %s\n" |> print_string;
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s3 |> Debug.substitution |> Printf.sprintf "s3: %s\n" |> print_string;
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2022-10-12 19:22:58 +02:00
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Some s3
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| _ -> None
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let print_env (env : env) =
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2022-10-24 23:51:48 +02:00
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Printf.sprintf "env: %s\n" (Debug.env env)
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2022-10-12 19:22:58 +02:00
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|> print_string
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let print_val (x : value) =
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2022-10-24 23:51:48 +02:00
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Printf.sprintf "val: %s\n" (Debug.value x)
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2022-10-12 19:22:58 +02:00
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|> print_string
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let print_inference (x : inference option) =
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match x with
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| None -> "no inference\n" |> print_string
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| Some x ->
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2022-10-24 23:51:48 +02:00
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Printf.sprintf "inf: %s\n" (Debug.inference x)
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2022-10-12 19:22:58 +02:00
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|> print_string
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let rec infer (env : env) (x : value) : inference option =
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print_env env;
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print_val x;
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let res = match x with
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| ValueLiteral lit -> (
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match lit with
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| LiteralInt _ -> Some (Inference (FromString.empty, TypeInt))
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| LiteralBool _ -> Some (Inference (FromString.empty, TypeBool)))
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| ValueVariable k ->
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let* v = FromString.find_opt k env in
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Some (Inference (FromString.empty, instantiate v))
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| ValueFunction (param, body) ->
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let typevar = make_type_var () in
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let env1 = FromString.remove param env in
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let env2 = lww (FromString.singleton param (QuantifiedType ([], typevar))) env1 in
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let* (Inference (s1, t1)) = infer env2 body in
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Some (Inference (s1, TypeArrow (substitute_type s1 typevar, t1)))
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| ValueApplication (f, x) ->
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let result = make_type_var () in
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let* (Inference (s1, t1)) = infer env f in
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let* (Inference (s2, t2)) = infer (substitute_env s1 env) x in
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let* s3 = unify (substitute_type s2 t1) (TypeArrow (t2, result)) in
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Some (Inference
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( compose_substitutions [s3; s2; s1],
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substitute_type s3 result ))
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| ValueVarApplication (name, x) ->
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let* v = FromString.find_opt name env in
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let t1 = instantiate v in
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let typevar = make_type_var () in
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let* (Inference (s2, t2)) = infer env x in
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let* s3 = unify (substitute_type s2 t1) (TypeArrow (t2, typevar)) in
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Some (Inference
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( compose_substitutions [s2; s3],
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substitute_type s3 typevar ))
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| ValueBinder (k, v, body) ->
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let* (Inference (s1, t1)) = infer env v in
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let env1 = FromString.remove k env in
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let tg = generalize (substitute_env s1 env) t1 in
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let env2 = FromString.add k tg env1 in
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let* (Inference (s2, t2)) = infer (substitute_env s1 env2) body in
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Some (Inference (compose_substitutions [s1; s2], t2)) in
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print_inference res;
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res
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let do_infer (x : value) : _type option =
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let* Inference (_, t) = infer FromString.empty x in
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Some t
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