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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id: modops.ml 9872 2007-05-30 16:01:18Z soubiran $ i*)
(*i*)
open Util
open Pp
open Names
open Univ
open Term
open Declarations
open Environ
(*i*)
let error_not_a_constant l =
error ("\""^(string_of_label l)^"\" is not a constant")
let error_not_a_functor _ = error "Application of not a functor"
let error_incompatible_modtypes _ _ = error "Incompatible module types"
let error_not_equal _ _ = error "Not equal modules"
let error_not_match l _ =
error ("Signature components for label "^string_of_label l^" do not match")
let error_no_such_label l = error ("No such label "^string_of_label l)
let error_no_such_label_sub l l1 l2 =
let l1 = string_of_msid l1 in
let l2 = string_of_msid l2 in
error (l1^" is not a subtype of "^l2^".\nThe field "^
string_of_label l^" is missing (or invisible) in "^l1^".")
let error_not_a_module_loc loc s =
user_err_loc (loc,"",str ("\""^string_of_label s^"\" is not a module"))
let error_not_a_module s = error_not_a_module_loc dummy_loc s
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_signature_expected mtb =
error "Signature expected"
let error_application_to_not_path _ = error "Application to not path"
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 =
{typ_expr =
(match mb.mod_type with
| Some expr -> expr
| None -> (match mb.mod_expr with
| Some expr -> expr
| None ->
anomaly "Modops: empty expr and type"));
typ_alias = mb.mod_alias;
typ_strength = mp
}
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
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 strengthen_const env mp l cb =
match cb.const_opaque, cb.const_body with
| false, Some _ -> cb
| true, Some _
| _, None ->
let const = Const (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
}
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) -> subst_key (map_msid msid mp) sub_alias
| _ -> sub_alias in
let sub_alias = update_subst_alias sub_alias
(map_mbid farg_id mp) in
eval_struct env (subst_struct_expr
(join sub_alias (map_mbid farg_id mp)) fbody_b)
| SEBwith (mtb,(With_definition_body _ as wdb)) ->
merge_with env mtb wdb empty_subst
| SEBwith (mtb, (With_module_body (_,mp,_,_) as wdb)) ->
let alias_in_mp =
(lookup_modtype mp env).typ_alias in
merge_with env mtb wdb alias_in_mp
(* | 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 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
SFBalias (mp,typ_opt,Some cst),
Some(join (map_mp (mp_rec [id]) mp') alias)
| With_definition_body (_::_,_)
| With_module_body (_::_,_,_,_) ->
let old = match spec with
SFBmodule msb -> msb
| _ -> error_not_a_module l
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,t,cst) ->
With_module_body (idl,mp,t,cst),
Some(map_mp (mp_rec idc) mp)
in
let subst = Option.fold_right join subst1 alias in
let modtype =
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 = subst;
mod_retroknowledge = old.mod_retroknowledge}
in
(SFBmodule msb),Some subst
in
SEBstruct(msid, before@(l,new_spec)::
(Option.fold_right subst_structure subst after))
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_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,_,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 "
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
|