nested application
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5daa03cb1a
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dc1efb51e2
4 changed files with 62 additions and 22 deletions
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@ -27,7 +27,10 @@ let typeof t =
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(match TypeSubstitution.find id env' with
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| Some ty -> Some ty, env'
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| None -> None, env')
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| _ -> None, env)
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(* Directly the type *)
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| Some ty, _ -> Some ty, env
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(* Bad typed *)
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| None, _ -> None, env)
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| Term.Fun (id, body) ->
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let arg = TypeSubstitution.singleton id (Type.Var id) in
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(match infer (TypeSubstitution.compose arg env) body with
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@ -39,14 +42,21 @@ let typeof t =
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| Term.App (t1, t2) ->
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(* Infer the type of t1 and t2 *)
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(match infer env t1, infer env t2 with
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| (Some (Type.Arrow (ty_param, _)), _), (Some ty_args, _) ->
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| (Some (Type.Arrow (ty_param, ty_fn)), _), (Some ty_args, _) ->
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(* Check if the argument type matches the parameter type *)
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(match Unification.unify ty_param ty_args with
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| Some env' ->
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(* Infer again now that we have some extra typing infos *)
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(match infer env' t1 with
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| Some (Type.Arrow (_, ty_fn)), env'' -> Some ty_fn, env''
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| _ -> None, env)
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let rec nested_infer oldenv currenv final =
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if TypeSubstitution.equal oldenv currenv
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then Some final, currenv
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else (
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match infer currenv t1 with
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| Some (Type.Arrow (_, ty_fn)), newenv ->
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nested_infer currenv newenv ty_fn
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| _ -> None, currenv)
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in
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(* Nested *)
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nested_infer env env' ty_fn
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| None -> None, env)
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(* | (Some (Type.Var _ as ty1), _), _ ->
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(* On this case we may have a function represented as a variable *)
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@ -24,22 +24,19 @@ let rec apply subst = function
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(** Compose two substitutions, last with priority *)
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let compose s2 s1 =
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let merger =
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IdentifierMap.merge
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(* ID type_s1 type_s2 *)
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(fun _ ty1 ty2 ->
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match ty1, ty2 with
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(* Give priority to s1 *)
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| Some ty1', Some _ -> Some ty1'
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(* Use of the substitution we already have *)
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| Some ty1', None -> Some ty1'
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| None, Some ty2' -> Some ty2'
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(* Variable untyped *)
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| None, None -> None)
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s1
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s2
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in
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merger
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IdentifierMap.merge
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(* ID type_s1 type_s2 *)
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(fun _ ty1 ty2 ->
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match ty1, ty2 with
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(* Give priority to s1 *)
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| Some ty1', Some _ -> Some ty1'
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(* Use of the substitution we already have *)
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| Some ty1', None -> Some ty1'
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| None, Some ty2' -> Some ty2'
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(* Variable untyped *)
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| None, None -> None)
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s1
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s2
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;;
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let to_string map =
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@ -57,3 +54,24 @@ let to_string map =
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;;
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let find = IdentifierMap.find_opt
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let equal map1 map2 =
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let l_map1 = List.length (IdentifierMap.bindings map1) in
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let l_map2 = List.length (IdentifierMap.bindings map2) in
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if l_map1 = l_map2 && l_map1 = 0
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then (* Two empty maps *)
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true
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else (
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(* Iterate over the largest map *)
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let map_forall, map_find = if l_map1 > l_map2 then map1, map2 else map2, map1 in
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IdentifierMap.for_all
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(fun key value ->
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match IdentifierMap.find_opt key map_find with
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| Some value' ->
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(* Equality between the two keys *)
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value = value'
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| _ ->
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(* Key in map_find doesn't exists in map_forall *)
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false)
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map_forall)
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;;
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@ -8,3 +8,4 @@ val empty : t
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val singleton : Identifier.t -> Type.t -> t
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val find : Identifier.t -> t -> Type.t option
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val to_string : t -> string
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val equal : t -> t -> bool
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@ -51,6 +51,17 @@ let tests_typeof =
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, Term.(
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App (App (Fun (x, Fun (y, Binop (Var x, Plus, Var y))), IntConst 3), IntConst 4))
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, Some Type.Int )
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; (* Function with nested pair *)
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( "(fun x -> fst x) (1, 2)"
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, Term.(App (Fun (x, Proj (First, Var x)), Pair (IntConst 1, IntConst 2)))
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, Some Type.Int )
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; (* Function application with nested pair and projection *)
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( "(fun x -> fst (snd x)) ((1, 2), 3)"
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, Term.(
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App
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( Fun (x, Proj (First, Proj (Second, Var x)))
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, Pair (Pair (IntConst 1, IntConst 2), IntConst 3) ))
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, Some Type.Int )
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]
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;;
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