(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the Q Public License version 1.0. *) (* *) (***********************************************************************) (* $Id$ *) (* Inclusion checks for the core language *) open Misc open Asttypes open Path open Types open Typedtree (* Inclusion between value descriptions *) exception Dont_match let value_descriptions env vd1 vd2 = if Ctype.moregeneral env true vd1.val_type vd2.val_type then begin match (vd1.val_kind, vd2.val_kind) with (Val_prim p1, Val_prim p2) -> if p1 = p2 then Tcoerce_none else raise Dont_match | (Val_prim p, _) -> Tcoerce_primitive p | (_, Val_prim p) -> raise Dont_match | (_, _) -> Tcoerce_none end else raise Dont_match (* Inclusion between "private" annotations *) let private_flags decl1 decl2 = match decl1.type_private, decl2.type_private with | Private, Public -> decl2.type_kind = Type_abstract && (decl2.type_manifest = None || decl1.type_kind <> Type_abstract) | _, _ -> true (* Inclusion between manifest types (particularly for private row types) *) let is_absrow env ty = match ty.desc with Tconstr(Pident id, _, _) -> begin match Ctype.expand_head env ty with {desc=Tobject _|Tvariant _} -> true | _ -> false end | _ -> false let type_manifest env ty1 params1 ty2 params2 priv2 = let ty1' = Ctype.expand_head env ty1 and ty2' = Ctype.expand_head env ty2 in match ty1'.desc, ty2'.desc with Tvariant row1, Tvariant row2 when is_absrow env (Btype.row_more row2) -> let row1 = Btype.row_repr row1 and row2 = Btype.row_repr row2 in Ctype.equal env true (ty1::params1) (row2.row_more::params2) && (match row1.row_more with {desc=Tvar|Tconstr _} -> true | _ -> false) && let r1, r2, pairs = Ctype.merge_row_fields row1.row_fields row2.row_fields in (not row2.row_closed || row1.row_closed && Ctype.filter_row_fields false r1 = []) && List.for_all (fun (_,f) -> match Btype.row_field_repr f with Rabsent | Reither _ -> true | Rpresent _ -> false) r2 && let to_equal = ref (List.combine params1 params2) in List.for_all (fun (_, f1, f2) -> match Btype.row_field_repr f1, Btype.row_field_repr f2 with Rpresent(Some t1), (Rpresent(Some t2) | Reither(false, [t2], _, _)) -> to_equal := (t1,t2) :: !to_equal; true | Rpresent None, (Rpresent None | Reither(true, [], _, _)) -> true | Reither(c1,tl1,_,_), Reither(c2,tl2,_,_) when List.length tl1 = List.length tl2 && c1 = c2 -> to_equal := List.combine tl1 tl2 @ !to_equal; true | Rabsent, (Reither _ | Rabsent) -> true | _ -> false) pairs && let tl1, tl2 = List.split !to_equal in Ctype.equal env true tl1 tl2 | Tobject (fi1, _), Tobject (fi2, _) when is_absrow env (snd(Ctype.flatten_fields fi2)) -> let (fields2,rest2) = Ctype.flatten_fields fi2 in Ctype.equal env true (ty1::params1) (rest2::params2) && let (fields1,rest1) = Ctype.flatten_fields fi1 in (match rest1 with {desc=Tnil|Tvar|Tconstr _} -> true | _ -> false) && let pairs, miss1, miss2 = Ctype.associate_fields fields1 fields2 in miss2 = [] && let tl1, tl2 = List.split (List.map (fun (_,_,t1,_,t2) -> t1, t2) pairs) in Ctype.equal env true (params1 @ tl1) (params2 @ tl2) | _ -> let rec check_super ty1 = Ctype.equal env true (ty1 :: params1) (ty2 :: params2) || priv2 = Private && try check_super (Ctype.try_expand_once_opt env (Ctype.expand_head env ty1)) with Ctype.Cannot_expand -> false in check_super ty1 (* Inclusion between type declarations *) type type_mismatch = Arity | Privacy | Kind | Constraint | Manifest | Variance | Field_type of string | Field_mutable of string | Field_arity of string | Field_names of int * string * string | Field_missing of bool * string | Record_representation of bool let nth n = if n = 1 then "first" else if n = 2 then "2nd" else if n = 3 then "3rd" else string_of_int n ^ "th" let report_type_mismatch0 first second decl ppf err = let pr fmt = Format.fprintf ppf fmt in match err with Arity -> pr "They have different arities" | Privacy -> pr "A private type would be revealed" | Kind -> pr "Their kinds differ" | Constraint -> pr "Their constraints differ" | Manifest -> () | Variance -> pr "Their variances do not agree" | Field_type s -> pr "The types for field %s are not equal" s | Field_mutable s -> pr "The mutability of field %s is different" s | Field_arity s -> pr "The arities for field %s differ" s | Field_names (n, name1, name2) -> pr "Their %s fields have different names, %s and %s" (nth n) name1 name2 | Field_missing (b, s) -> pr "The field %s is only present in %s %s" s (if b then second else first) decl | Record_representation b -> pr "Their internal representations differ:@ %s %s %s" (if b then second else first) decl "uses unboxed float representation" let report_type_mismatch first second decl ppf = List.iter (fun err -> if err = Manifest then () else Format.fprintf ppf "@ %a." (report_type_mismatch0 first second decl) err) let rec compare_variants env decl1 decl2 n cstrs1 cstrs2 = match cstrs1, cstrs2 with (* GAH: most likely wrong, but I don't know what this function does *) [], [] -> [] | [], (cstr2,_,_)::_ -> [Field_missing (true, cstr2)] | (cstr1,_,_)::_, [] -> [Field_missing (false, cstr1)] | (cstr1, arg1, ret1)::rem1, (cstr2, arg2,ret2)::rem2 -> if cstr1 <> cstr2 then [Field_names (n, cstr1, cstr2)] else if List.length arg1 <> List.length arg2 then [Field_arity cstr1] else match ret1, ret2 with | Some r1, Some r2 when not (Ctype.equal env true [r1] [r2]) -> [Field_type cstr1] | Some _, None | None, Some _ -> [Field_type cstr1] | _ -> if Misc.for_all2 (fun ty1 ty2 -> Ctype.equal env true (ty1::decl1.type_params) (ty2::decl2.type_params)) (arg1) (arg2) then compare_variants env decl1 decl2 (n+1) rem1 rem2 else [Field_type cstr1] let rec compare_records env decl1 decl2 n labels1 labels2 = match labels1, labels2 with [], [] -> [] | [], (lab2,_,_)::_ -> [Field_missing (true, lab2)] | (lab1,_,_)::_, [] -> [Field_missing (false, lab1)] | (lab1, mut1, arg1)::rem1, (lab2, mut2, arg2)::rem2 -> if lab1 <> lab2 then [Field_names (n, lab1, lab2)] else if mut1 <> mut2 then [Field_mutable lab1] else if Ctype.equal env true (arg1::decl1.type_params) (arg2::decl2.type_params) then compare_records env decl1 decl2 (n+1) rem1 rem2 else [Field_type lab1] let type_declarations env id decl1 decl2 = if decl1.type_arity <> decl2.type_arity then [Arity] else if not (private_flags decl1 decl2) then [Privacy] else let err = match (decl1.type_kind, decl2.type_kind) with (_, Type_abstract) -> [] | (Type_variant cstrs1, Type_variant cstrs2) -> let gen_variants lst = List.map (fun (a,b) -> (a,b,None)) lst in compare_variants env decl1 decl2 1 (gen_variants cstrs1) (gen_variants cstrs2) | (Type_generalized_variant cstrs1, Type_generalized_variant cstrs2) -> compare_variants env decl1 decl2 1 cstrs1 cstrs2 | (Type_record(labels1,rep1), Type_record(labels2,rep2)) -> let err = compare_records env decl1 decl2 1 labels1 labels2 in if err <> [] || rep1 = rep2 then err else [Record_representation (rep2 = Record_float)] | (_, _) -> [Kind] in if err <> [] then err else let err = match (decl1.type_manifest, decl2.type_manifest) with (_, None) -> if Ctype.equal env true decl1.type_params decl2.type_params then [] else [Constraint] | (Some ty1, Some ty2) -> if type_manifest env ty1 decl1.type_params ty2 decl2.type_params decl2.type_private then [] else [Manifest] | (None, Some ty2) -> let ty1 = Btype.newgenty (Tconstr(Pident id, decl2.type_params, ref Mnil)) in if Ctype.equal env true decl1.type_params decl2.type_params then if Ctype.equal env false [ty1] [ty2] then [] else [Manifest] else [Constraint] in if err <> [] then err else if match decl2.type_kind with | Type_record (_,_) | Type_generalized_variant _ | Type_variant _ -> decl2.type_private = Private | Type_abstract -> match decl2.type_manifest with | None -> true | Some ty -> Btype.has_constr_row (Ctype.expand_head env ty) then if List.for_all2 (fun (co1,cn1,ct1) (co2,cn2,ct2) -> (not co1 || co2)&&(not cn1 || cn2)) decl1.type_variance decl2.type_variance then [] else [Variance] else [] (* Inclusion between exception declarations *) let exception_declarations env ed1 ed2 = Misc.for_all2 (fun ty1 ty2 -> Ctype.equal env false [ty1] [ty2]) ed1 ed2 (* Inclusion between class types *) let encode_val (mut, ty) rem = begin match mut with Asttypes.Mutable -> Predef.type_unit | Asttypes.Immutable -> Btype.newgenty Tvar end ::ty::rem let meths meths1 meths2 = Meths.fold (fun nam t2 (ml1, ml2) -> (begin try Meths.find nam meths1 :: ml1 with Not_found -> ml1 end, t2 :: ml2)) meths2 ([], []) let vars vars1 vars2 = Vars.fold (fun lab v2 (vl1, vl2) -> (begin try encode_val (Vars.find lab vars1) vl1 with Not_found -> vl1 end, encode_val v2 vl2)) vars2 ([], [])