X-Git-Url: https://git.xandkar.net/?a=blobdiff_plain;f=compiler%2Fsrc%2Flib%2Ftiger%2Ftiger_semant.ml;h=f653e162997edbf72841a880ec30170bcaacc1a1;hb=862e5c05ffb0ec1ea8973af0c3c4384f70790ea3;hp=ca4b489f825d94e16f92725d85e1cf9ebc4bfcb5;hpb=0ed7a07cf496065c3ff0d0f9325ae8c516b00c1b;p=tiger.ml.git diff --git a/compiler/src/lib/tiger/tiger_semant.ml b/compiler/src/lib/tiger/tiger_semant.ml index ca4b489..f653e16 100644 --- a/compiler/src/lib/tiger/tiger_semant.ml +++ b/compiler/src/lib/tiger/tiger_semant.ml @@ -19,18 +19,19 @@ module Semant : sig * Appel's *) val transExp : env:Env.t -> A.exp -> expty - val transVar : env:Env.t -> A.var -> expty - val transDec : env:Env.t -> A.dec -> Env.t - val transTy : env:Env.t -> A.ty -> Type.t (* needs only type env *) + + (* transVar does not seem to be needed, as trvar handles all our cases. + * Am I wrong? + * + * val transVar : env:Env.t -> A.var -> expty + * + *) end = struct type expty = { exp : Translate.exp ; ty : Type.t } - let unimplemented () = - failwith "unimplemented" - let return ty = {exp = (); ty} let return_unit = return Type.Unit let return_nil = return Type.Nil @@ -57,6 +58,7 @@ end = struct check_same {exp=(); ty=Type.Int} expty ~pos (* TODO: actual_ty *) + (* TODO: mutual recursion *) let rec transExp ~env exp = let rec trexp exp = @@ -102,6 +104,7 @@ end = struct (* Ignoring value because we only care if a type-checking exception * is raised in one of trexp calls: *) List.iter exps ~f:(fun (exp, _) -> ignore (trexp exp)); + (* FIXME: Return type of last expression, not unit. *) return_unit | A.AssignExp {var; exp; pos} -> check_same (trvar var) (trexp exp) ~pos; @@ -133,10 +136,25 @@ end = struct return_unit | A.BreakExp _ -> return_unit - | A.LetExp {decs=_; body=_; _} -> - unimplemented () - | A.ArrayExp {typ=_; size=_; init=_; _} -> - unimplemented () + | A.LetExp {decs; body; pos=_} -> + (* (1) decs augment env *) + (* (2) body checked against the new env *) + let env = + List.fold_left decs ~init:env ~f:(fun env dec -> transDec dec ~env) + in + transExp body ~env + | A.ArrayExp {typ; size; init; pos} -> + check_int (trexp size) ~pos; + let ty = env_get_typ ~sym:typ ~env ~pos in + Type.if_array + ty + ~f:(fun ty_elements -> + check_same {exp=(); ty=ty_elements} (trexp init) ~pos + ) + ~otherwise:(fun () -> + E.raise (E.Wrong_type_used_as_array {ty_id=typ; ty; pos}) + ); + return ty | A.VarExp var -> trvar var ) @@ -218,39 +236,70 @@ end = struct ) in trexp exp - - let transVar ~env:_ var = - (match var with - | A.SimpleVar {symbol=_; _} -> - unimplemented () - | A.FieldVar {var=_; symbol=_; _} -> - unimplemented () - | A.SubscriptVar {var=_; exp=_; _} -> - unimplemented () - ) - - let transDec ~env:_ dec = + and transDec ~(env : Env.t) (dec : A.dec) : Env.t = (match dec with - | A.VarDec {name=_; typ=_; init=_; pos=_; escape=_} -> - unimplemented () - | A.TypeDecs _ -> - unimplemented () - | A.FunDecs _ -> - unimplemented () + | A.VarDec {name; typ=typ_opt; init; pos=pos_outter; escape=_} -> + let ty = + (match (typ_opt, transExp ~env init) with + | None, {ty; exp=()} -> + ty + | Some (sym, pos_inner), expty_init -> + let ty = env_get_typ ~sym ~env ~pos:pos_inner in + check_same {exp=(); ty} expty_init ~pos:pos_outter; + ty + ) + in + Env.set_val env name (Value.Var {ty}) + | A.TypeDecs typedecs -> + List.fold_left typedecs ~init:env ~f:( + fun env (A.TypeDec {name; ty; pos=_}) -> + let ty = transTy ~env ty in + Env.set_typ env name ty + ) + | A.FunDecs fundecs -> + List.fold_left fundecs ~init:env ~f:( + fun env (A.FunDec {name; params; result; body; pos=_}) -> + let (env_for_body, formals_in_reverse_order) = + List.fold_left params ~init:(env, []) ~f:( + fun (env, formals) (A.Field {name; escape=_; typ; pos}) -> + let ty = env_get_typ ~env ~sym:typ ~pos in + let env = Env.set_val env name (Value.Var {ty}) in + (env, ty :: formals) + ) + in + (* ignore because we only care if an exception is raised *) + ignore (transExp ~env:env_for_body body); + let formals = List.rev formals_in_reverse_order in + let result = + match result with + | None -> + Type.Unit + | Some (sym, pos) -> + env_get_typ ~sym ~env ~pos + in + Env.set_val env name (Value.Fun {formals; result}) + ) ) - - let transTy ~env:_ typ = + and transTy ~(env : Env.t) (typ : A.ty) : Type.t = (match typ with - | A.NameTy {symbol = _; pos = _} -> - unimplemented () - | A.RecordTy _ -> - unimplemented () - | A.ArrayTy {symbol = _; pos = _} -> - unimplemented () + | A.NameTy {symbol=sym; pos} -> + env_get_typ ~sym ~env ~pos + | A.RecordTy fields -> + let fields = + List.map fields ~f:(fun (A.Field {name; escape=_; typ; pos}) -> + let ty = env_get_typ ~sym:typ ~env ~pos in + (name, ty) + ) + in + Type.new_record fields + | A.ArrayTy {symbol=sym; pos} -> + let element_ty = env_get_typ ~sym ~env ~pos in + Type.new_array element_ty ) end +open Semant + let transProg absyn = - let open Semant in let {exp = _; ty = _} = transExp absyn ~env:Env.base in ()