(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* "^string_of_label l'^" !") let error_result_must_be_signature () = error "The result module type must be a signature." let error_signature_expected mtb = error "Signature expected." let error_no_module_to_end _ = error "No open module to end." let error_no_modtype_to_end _ = error "No open module type to end." let error_not_a_modtype_loc loc s = user_err_loc (loc,"",str ("\""^s^"\" is not a module type.")) let error_not_a_module_loc loc s = user_err_loc (loc,"",str ("\""^s^"\" is not a module.")) let error_not_a_module s = error_not_a_module_loc dummy_loc s let error_not_a_constant l = error ("\""^(string_of_label l)^"\" is not a constant.") let error_with_incorrect l = error ("Incorrect constraint for label \""^(string_of_label l)^"\".") let error_a_generative_module_expected l = error ("The module " ^ string_of_label l ^ " is not generative. Only " ^ "component of generative modules can be changed using the \"with\" " ^ "construct.") let error_local_context lo = match lo with None -> error ("The local context is not empty.") | (Some l) -> error ("The local context of the component "^ (string_of_label l)^" is not empty.") let error_no_such_label_sub l l1 l2 = error (l1^" is not a subtype of "^l2^".\nThe field "^(string_of_label l)^" is missing in "^l1^".") let rec list_split_assoc k rev_before = function | [] -> raise Not_found | (k',b)::after when k=k' -> rev_before,b,after | h::tail -> list_split_assoc k (h::rev_before) tail let path_of_seb = function | SEBident mp -> mp | _ -> anomaly "Modops: evaluation failed." let destr_functor env mtb = match mtb with | SEBfunctor (arg_id,arg_t,body_t) -> (arg_id,arg_t,body_t) | _ -> error_not_a_functor mtb (* the constraints are not important here *) let module_body_of_type mtb = { mod_type = Some mtb.typ_expr; mod_expr = None; mod_constraints = Constraint.empty; mod_alias = mtb.typ_alias; mod_retroknowledge = []} let module_type_of_module mp mb = let mp1,expr = (match mb.mod_type with | Some expr -> mp,expr | None -> (match mb.mod_expr with | Some (SEBident mp') ->(Some mp'),(SEBident mp') | Some expr -> mp,expr | None -> anomaly "Modops: empty expr and type")) in {typ_expr = expr; typ_alias = mb.mod_alias; typ_strength = mp1 } let rec check_modpath_equiv env mp1 mp2 = if mp1=mp2 then () else let mp1 = scrape_alias mp1 env in let mp2 = scrape_alias mp2 env in if mp1=mp2 then () else error_not_equal mp1 mp2 let rec subst_with_body sub = function | With_module_body(id,mp,typ_opt,cst) -> With_module_body(id,subst_mp sub mp,Option.smartmap (subst_struct_expr sub) typ_opt,cst) | With_definition_body(id,cb) -> With_definition_body( id,subst_const_body sub cb) and subst_modtype sub mtb = let typ_expr' = subst_struct_expr sub mtb.typ_expr in if typ_expr'==mtb.typ_expr then mtb else { mtb with typ_expr = typ_expr'} and subst_structure sub sign = let subst_body = function SFBconst cb -> SFBconst (subst_const_body sub cb) | SFBmind mib -> SFBmind (subst_mind sub mib) | SFBmodule mb -> SFBmodule (subst_module sub mb) | SFBmodtype mtb -> SFBmodtype (subst_modtype sub mtb) | SFBalias (mp,typ_opt,cst) -> SFBalias (subst_mp sub mp,Option.smartmap (subst_struct_expr sub) typ_opt,cst) in List.map (fun (l,b) -> (l,subst_body b)) sign and subst_module sub mb = let mtb' = Option.smartmap (subst_struct_expr sub) mb.mod_type in (* This is similar to the previous case. In this case we have a module M in a signature that is knows to be equivalent to a module M' (because the signature is "K with Module M := M'") and we are substituting M' with some M''. *) let me' = Option.smartmap (subst_struct_expr sub) mb.mod_expr in let mb_alias = update_subst sub mb.mod_alias in let mb_alias = if mb_alias = empty_subst then join_alias mb.mod_alias sub else join mb_alias (join_alias mb.mod_alias sub) in if mtb'==mb.mod_type && mb.mod_expr == me' && mb_alias == mb.mod_alias then mb else { mod_expr = me'; mod_type=mtb'; mod_constraints=mb.mod_constraints; mod_alias = mb_alias; mod_retroknowledge=mb.mod_retroknowledge} and subst_struct_expr sub = function | SEBident mp -> SEBident (subst_mp sub mp) | SEBfunctor (msid, mtb, meb') -> SEBfunctor(msid,subst_modtype sub mtb,subst_struct_expr sub meb') | SEBstruct (msid,str)-> SEBstruct(msid, subst_structure sub str) | SEBapply (meb1,meb2,cst)-> SEBapply(subst_struct_expr sub meb1, subst_struct_expr sub meb2, cst) | SEBwith (meb,wdb)-> SEBwith(subst_struct_expr sub meb, subst_with_body sub wdb) let subst_signature_msid msid mp = subst_structure (map_msid msid mp) (* spiwack: here comes the function which takes care of importing the retroknowledge declared in the library *) (* lclrk : retroknowledge_action list, rkaction : retroknowledge action *) let add_retroknowledge msid mp = let subst = add_msid msid mp empty_subst in let subst_and_perform rkaction env = match rkaction with | Retroknowledge.RKRegister (f, e) -> Environ.register env f (match e with | Const kn -> kind_of_term (subst_mps subst (mkConst kn)) | Ind ind -> kind_of_term (subst_mps subst (mkInd ind)) | _ -> anomaly "Modops.add_retroknowledge: had to import an unsupported kind of term") in fun lclrk env -> (* The order of the declaration matters, for instance (and it's at the time this comment is being written, the only relevent instance) the int31 type registration absolutely needs int31 bits to be registered. Since the local_retroknowledge is stored in reverse order (each new registration is added at the top of the list) we need a fold_right for things to go right (the pun is not intented). So we lose tail recursivity, but the world will have exploded before any module imports 10 000 retroknowledge registration.*) List.fold_right subst_and_perform lclrk env let strengthen_const env mp l cb = match cb.const_opaque, cb.const_body with | false, Some _ -> cb | true, Some _ | _, None -> let const = mkConst (make_con mp empty_dirpath l) in let const_subs = Some (Declarations.from_val const) in {cb with const_body = const_subs; const_opaque = false; const_body_code = Cemitcodes.from_val (compile_constant_body env const_subs false false) } let strengthen_mind env mp l mib = match mib.mind_equiv with | Some _ -> mib | None -> {mib with mind_equiv = Some (make_kn mp empty_dirpath l)} let rec eval_struct env = function | SEBident mp -> begin let mtb =lookup_modtype mp env in match mtb.typ_expr,mtb.typ_strength with mtb,None -> eval_struct env mtb | mtb,Some mp -> strengthen_mtb env mp (eval_struct env mtb) end | SEBapply (seb1,seb2,_) -> let svb1 = eval_struct env seb1 in let farg_id, farg_b, fbody_b = destr_functor env svb1 in let mp = path_of_seb seb2 in let mp = scrape_alias mp env in let sub_alias = (lookup_modtype mp env).typ_alias in let sub_alias = match eval_struct env (SEBident mp) with | SEBstruct (msid,sign) -> join_alias (subst_key (map_msid msid mp) sub_alias) (map_msid msid mp) | _ -> sub_alias in let resolve = resolver_of_environment farg_id farg_b mp sub_alias env in let sub_alias1 = update_subst sub_alias (map_mbid farg_id mp (Some resolve)) in eval_struct env (subst_struct_expr (join sub_alias1 (map_mbid farg_id mp (Some resolve))) fbody_b) | SEBwith (mtb,(With_definition_body _ as wdb)) -> let mtb',_ = merge_with env mtb wdb empty_subst in mtb' | SEBwith (mtb, (With_module_body (_,mp,_,_) as wdb)) -> let alias_in_mp = (lookup_modtype mp env).typ_alias in let alias_in_mp = match eval_struct env (SEBident mp) with | SEBstruct (msid,sign) -> subst_key (map_msid msid mp) alias_in_mp | _ -> alias_in_mp in let mtb',_ = merge_with env mtb wdb alias_in_mp in mtb' (* | SEBfunctor(mbid,mtb,body) -> let env = add_module (MPbound mbid) (module_body_of_type mtb) env in SEBfunctor(mbid,mtb,eval_struct env body) *) | mtb -> mtb and type_of_mb env mb = match mb.mod_type,mb.mod_expr with None,Some b -> eval_struct env b | Some t, _ -> eval_struct env t | _,_ -> anomaly "Modops: empty type and empty expr" and merge_with env mtb with_decl alias= let msid,sig_b = match (eval_struct env mtb) with | SEBstruct(msid,sig_b) -> msid,sig_b | _ -> error_signature_expected mtb in let id,idl = match with_decl with | With_definition_body (id::idl,_) | With_module_body (id::idl,_,_,_) -> id,idl | With_definition_body ([],_) | With_module_body ([],_,_,_) -> assert false in let l = label_of_id id in try let rev_before,spec,after = list_split_assoc l [] sig_b in let before = List.rev rev_before in let rec mp_rec = function | [] -> MPself msid | i::r -> MPdot(mp_rec r,label_of_id i) in let env' = add_signature (MPself msid) before env in let new_spec,subst = match with_decl with | With_definition_body ([],_) | With_module_body ([],_,_,_) -> assert false | With_definition_body ([id],c) -> SFBconst c,None | With_module_body ([id], mp,typ_opt,cst) -> let mp' = scrape_alias mp env' in let new_alias = update_subst alias (map_mp (mp_rec [id]) mp') in SFBalias (mp,typ_opt,Some cst), Some(join (map_mp (mp_rec [id]) mp') new_alias) | With_definition_body (_::_,_) | With_module_body (_::_,_,_,_) -> let old,aliasold = match spec with SFBmodule msb -> Some msb, None | SFBalias (mpold,typ_opt,cst) ->None, Some (mpold,typ_opt,cst) | _ -> error_not_a_module (string_of_label l) in if aliasold = None then let old = Option.get old in let new_with_decl,subst1 = match with_decl with With_definition_body (_,c) -> With_definition_body (idl,c),None | With_module_body (idc,mp,typ_opt,cst) -> let mp' = scrape_alias mp env' in With_module_body (idl,mp,typ_opt,cst), Some(map_mp (mp_rec (List.rev idc)) mp') in let subst = match subst1 with | None -> None | Some s -> Some (join s (update_subst alias s)) in let modtype,subst_msb = merge_with env' (type_of_mb env' old) new_with_decl alias in let msb = { mod_expr = None; mod_type = Some modtype; mod_constraints = old.mod_constraints; mod_alias = begin match subst_msb with |None -> empty_subst |Some s -> s end; mod_retroknowledge = old.mod_retroknowledge} in (SFBmodule msb),subst else let mpold,typ_opt,cst = Option.get aliasold in SFBalias (mpold,typ_opt,cst),None in SEBstruct(msid, before@(l,new_spec):: (Option.fold_right subst_structure subst after)),subst with Not_found -> error_no_such_label l and add_signature mp sign env = let add_one env (l,elem) = let kn = make_kn mp empty_dirpath l in let con = make_con mp empty_dirpath l in match elem with | SFBconst cb -> Environ.add_constant con cb env | SFBmind mib -> Environ.add_mind kn mib env | SFBmodule mb -> add_module (MPdot (mp,l)) mb env (* adds components as well *) | SFBalias (mp1,_,cst) -> Environ.register_alias (MPdot(mp,l)) mp1 env | SFBmodtype mtb -> Environ.add_modtype (MPdot(mp,l)) mtb env in List.fold_left add_one env sign and add_module mp mb env = let env = Environ.shallow_add_module mp mb env in let env = Environ.add_modtype mp (module_type_of_module (Some mp) mb) env in let mod_typ = type_of_mb env mb in match mod_typ with | SEBstruct (msid,sign) -> add_retroknowledge msid mp (mb.mod_retroknowledge) (add_signature mp (subst_signature_msid msid mp sign) env) | SEBfunctor _ -> env | _ -> anomaly "Modops:the evaluation of the structure failed " and constants_of_specification env mp sign = let aux (env,res) (l,elem) = match elem with | SFBconst cb -> env,((make_con mp empty_dirpath l),cb)::res | SFBmind _ -> env,res | SFBmodule mb -> let new_env = add_module (MPdot (mp,l)) mb env in new_env,(constants_of_modtype env (MPdot (mp,l)) (type_of_mb env mb)) @ res | SFBalias (mp1,typ_opt,cst) -> let new_env = register_alias (MPdot (mp,l)) mp1 env in new_env,(constants_of_modtype env (MPdot (mp,l)) (eval_struct env (SEBident mp1))) @ res | SFBmodtype mtb -> (* module type dans un module type. Il faut au moins mettre mtb dans l'environnement (avec le bon kn pour pouvoir continuer aller deplier les modules utilisant ce mtb ex: Module Type T1. Module Type T2. .... End T2. ..... Declare Module M : T2. End T2 si on ne rajoute pas T2 dans l'environement de typage on va exploser au moment du Declare Module *) let new_env = Environ.add_modtype (MPdot(mp,l)) mtb env in new_env, (constants_of_modtype env (MPdot(mp,l)) mtb.typ_expr) @ res in snd (List.fold_left aux (env,[]) sign) and constants_of_modtype env mp modtype = match (eval_struct env modtype) with SEBstruct (msid,sign) -> constants_of_specification env mp (subst_signature_msid msid mp sign) | SEBfunctor _ -> [] | _ -> anomaly "Modops:the evaluation of the structure failed " (* returns a resolver for kn that maps mbid to mp. We only keep constants that have the inline flag *) and resolver_of_environment mbid modtype mp alias env = let constants = constants_of_modtype env (MPbound mbid) modtype.typ_expr in let constants = List.map (fun (l,cb) -> (l,subst_const_body alias cb)) constants in let rec make_resolve = function | [] -> [] | (con,expecteddef)::r -> let con' = replace_mp_in_con (MPbound mbid) mp con in let con',_ = subst_con alias con' in (* let con' = replace_mp_in_con (MPbound mbid) mp con' in *) try if expecteddef.Declarations.const_inline then let constant = lookup_constant con' env in if (not constant.Declarations.const_opaque) then let constr = Option.map Declarations.force constant.Declarations.const_body in (con,constr)::(make_resolve r) else make_resolve r else make_resolve r with Not_found -> error_no_such_label (con_label con') in let resolve = make_resolve constants in Mod_subst.make_resolver resolve and strengthen_mtb env mp mtb = let mtb1 = eval_struct env mtb in match mtb1 with | SEBfunctor _ -> mtb1 | SEBstruct (msid,sign) -> SEBstruct (msid,strengthen_sig env msid sign mp) | _ -> anomaly "Modops:the evaluation of the structure failed " and strengthen_mod env mp mb = let mod_typ = type_of_mb env mb in { mod_expr = mb.mod_expr; mod_type = Some (strengthen_mtb env mp mod_typ); mod_constraints = mb.mod_constraints; mod_alias = mb.mod_alias; mod_retroknowledge = mb.mod_retroknowledge} and strengthen_sig env msid sign mp = match sign with | [] -> [] | (l,SFBconst cb) :: rest -> let item' = l,SFBconst (strengthen_const env mp l cb) in let rest' = strengthen_sig env msid rest mp in item'::rest' | (l,SFBmind mib) :: rest -> let item' = l,SFBmind (strengthen_mind env mp l mib) in let rest' = strengthen_sig env msid rest mp in item'::rest' | (l,SFBmodule mb) :: rest -> let mp' = MPdot (mp,l) in let item' = l,SFBmodule (strengthen_mod env mp' mb) in let env' = add_module (MPdot (MPself msid,l)) mb env in let rest' = strengthen_sig env' msid rest mp in item':: rest' | ((l,SFBalias (mp1,_,cst)) as item) :: rest -> let env' = register_alias (MPdot(MPself msid,l)) mp1 env in let rest' = strengthen_sig env' msid rest mp in item::rest' | (l,SFBmodtype mty as item) :: rest -> let env' = add_modtype (MPdot((MPself msid),l)) mty env in let rest' = strengthen_sig env' msid rest mp in item::rest' let strengthen env mtb mp = strengthen_mtb env mp mtb let update_subst env mb mp = match type_of_mb env mb with | SEBstruct(msid,str) -> false, join_alias (subst_key (map_msid msid mp) mb.mod_alias) (map_msid msid mp) | _ -> true, mb.mod_alias