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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Pp
open Errors
open Names
open Declarations
open Nameops
open Globnames
open Libnames
open Goptions
(** Note: there is currently two modes for printing modules.
- The "short" one, that just prints the names of the fields.
- The "rich" one, that also tries to print the types of the fields.
The short version used to be the default behavior, but now we print
types by default. The following option allows to change this.
Technically, the environments in this file are either None in
the "short" mode or (Some env) in the "rich" one.
*)
let short = ref false
let _ =
declare_bool_option
{ optsync = true;
optdepr = false;
optname = "short module printing";
optkey = ["Short";"Module";"Printing"];
optread = (fun () -> !short) ;
optwrite = ((:=) short) }
let get_new_id locals id =
let rec get_id l id =
let dir = DirPath.make [id] in
if not (Nametab.exists_module dir) then
id
else
get_id (id::l) (Namegen.next_ident_away id l)
in
get_id (List.map snd locals) id
let rec print_local_modpath locals = function
| MPbound mbid -> pr_id (Util.List.assoc_f MBId.equal mbid locals)
| MPdot(mp,l) ->
print_local_modpath locals mp ++ str "." ++ pr_lab l
| MPfile _ -> raise Not_found
let print_modpath locals mp =
try (* must be with let because streams are lazy! *)
let qid = Nametab.shortest_qualid_of_module mp in
pr_qualid qid
with
| Not_found -> print_local_modpath locals mp
let print_kn locals kn =
try
let qid = Nametab.shortest_qualid_of_modtype kn in
pr_qualid qid
with
Not_found ->
try
print_local_modpath locals kn
with
Not_found -> print_modpath locals kn
(** Each time we have to print a non-globally visible structure,
we place its elements in a fake fresh namespace. *)
let mk_fake_top =
let r = ref 0 in
fun () -> incr r; Id.of_string ("FAKETOP"^(string_of_int !r))
let nametab_register_dir mp =
let id = mk_fake_top () in
let dir = DirPath.make [id] in
Nametab.push_dir (Nametab.Until 1) dir (DirModule (dir,(mp,DirPath.empty)))
(** Nota: the [global_reference] we register in the nametab below
might differ from internal ones, since we cannot recreate here
the canonical part of constant and inductive names, but only
the user names. This works nonetheless since we search now
[Nametab.the_globrevtab] modulo user name. *)
let nametab_register_body mp dir (l,body) =
let push id ref =
Nametab.push (Nametab.Until (1+List.length (DirPath.repr dir)))
(make_path dir id) ref
in
match body with
| SFBmodule _ -> () (* TODO *)
| SFBmodtype _ -> () (* TODO *)
| SFBconst _ ->
push (Label.to_id l) (ConstRef (Constant.make2 mp l))
| SFBmind mib ->
let mind = MutInd.make2 mp l in
Array.iteri
(fun i mip ->
push mip.mind_typename (IndRef (mind,i));
Array.iteri (fun j id -> push id (ConstructRef ((mind,i),j+1)))
mip.mind_consnames)
mib.mind_packets
let nametab_register_module_body mp struc =
(* If [mp] is a globally visible module, we simply import it *)
try Declaremods.really_import_module mp
with Not_found ->
(* Otherwise we try to emulate an import by playing with nametab *)
nametab_register_dir mp;
List.iter (nametab_register_body mp DirPath.empty) struc
let get_typ_expr_alg mtb = match mtb.typ_expr_alg with
| Some (NoFunctor me) -> me
| _ -> raise Not_found
let nametab_register_modparam mbid mtb =
match mtb.typ_expr with
| MoreFunctor _ -> () (* functorial param : nothing to register *)
| NoFunctor struc ->
(* We first try to use the algebraic type expression if any,
via a Declaremods function that converts back to module entries *)
try
Declaremods.process_module_binding mbid (get_typ_expr_alg mtb)
with e when Errors.noncritical e ->
(* Otherwise, we try to play with the nametab ourselves *)
let mp = MPbound mbid in
let dir = DirPath.make [MBId.to_id mbid] in
nametab_register_dir mp;
List.iter (nametab_register_body mp dir) struc
let print_body is_impl env mp (l,body) =
let name = str (Label.to_string l) in
hov 2 (match body with
| SFBmodule _ -> str "Module " ++ name
| SFBmodtype _ -> str "Module Type " ++ name
| SFBconst cb ->
(match cb.const_body with
| Def _ -> str "Definition "
| OpaqueDef _ when is_impl -> str "Theorem "
| _ -> str "Parameter ") ++ name ++
(match env with
| None -> mt ()
| Some env ->
str " :" ++ spc () ++
hov 0 (Printer.pr_ltype_env env
(Typeops.type_of_constant_type env cb.const_type)) ++
(match cb.const_body with
| Def l when is_impl ->
spc () ++
hov 2 (str ":= " ++
Printer.pr_lconstr_env env (Mod_subst.force_constr l))
| _ -> mt ()) ++
str ".")
| SFBmind mib ->
try
let env = Option.get env in
Printer.pr_mutual_inductive_body env (MutInd.make2 mp l) mib
with e when Errors.noncritical e ->
(if mib.mind_finite then str "Inductive " else str "CoInductive")
++ name)
let print_struct is_impl env mp struc =
prlist_with_sep spc (print_body is_impl env mp) struc
let print_structure is_type env mp locals struc =
let env' = Option.map
(Modops.add_structure mp struc Mod_subst.empty_delta_resolver) env in
nametab_register_module_body mp struc;
let kwd = if is_type then "Sig" else "Struct" in
hv 2 (str kwd ++ spc () ++ print_struct false env' mp struc ++
brk (1,-2) ++ str "End")
let rec flatten_app mexpr l = match mexpr with
| MEapply (mexpr, arg) -> flatten_app mexpr (arg::l)
| MEident mp -> mp::l
| MEwith _ -> assert false
let rec print_typ_expr env mp locals mty =
match mty with
| MEident kn -> print_kn locals kn
| MEapply _ ->
let lapp = flatten_app mty [] in
let fapp = List.hd lapp in
let mapp = List.tl lapp in
hov 3 (str"(" ++ (print_kn locals fapp) ++ spc () ++
prlist_with_sep spc (print_modpath locals) mapp ++ str")")
| MEwith(me,WithDef(idl,c))->
let env' = None in (* TODO: build a proper environment if env <> None *)
let s = String.concat "." (List.map Id.to_string idl) in
hov 2 (print_typ_expr env' mp locals me ++ spc() ++ str "with" ++ spc()
++ str "Definition"++ spc() ++ str s ++ spc() ++ str ":="++ spc())
| MEwith(me,WithMod(idl,mp))->
let s = String.concat "." (List.map Id.to_string idl) in
hov 2 (print_typ_expr env mp locals me ++ spc() ++ str "with" ++ spc() ++
str "Module"++ spc() ++ str s ++ spc() ++ str ":="++ spc())
let print_mod_expr env mp locals = function
| MEident mp -> print_modpath locals mp
| MEapply _ as me ->
let lapp = flatten_app me [] in
hov 3
(str"(" ++ prlist_with_sep spc (print_modpath locals) lapp ++ str")")
| MEwith _ -> assert false (* No 'with' syntax for modules *)
let rec print_functor fty fatom is_type env mp locals = function
|NoFunctor me -> fatom is_type env mp locals me
|MoreFunctor (mbid,mtb1,me2) ->
nametab_register_modparam mbid mtb1;
let mp1 = MPbound mbid in
let pr_mtb1 = fty env mp1 locals mtb1 in
let env' = Option.map (Modops.add_module_type mp1 mtb1) env in
let locals' = (mbid, get_new_id locals (MBId.to_id mbid))::locals in
let kwd = if is_type then "Funsig" else "Functor" in
hov 2
(str kwd ++ spc () ++
str "(" ++ pr_id (MBId.to_id mbid) ++ str ":" ++ pr_mtb1 ++ str ")" ++
spc() ++ print_functor fty fatom is_type env' mp locals' me2)
let rec print_expression x =
print_functor
print_modtype
(function true -> print_typ_expr | false -> print_mod_expr) x
and print_signature x =
print_functor print_modtype print_structure x
and print_modtype env mp locals mtb = match mtb.typ_expr_alg with
| Some me -> print_expression true env mp locals me
| None -> print_signature true env mp locals mtb.typ_expr
let rec printable_body dir =
let dir = pop_dirpath dir in
DirPath.is_empty dir ||
try
match Nametab.locate_dir (qualid_of_dirpath dir) with
DirOpenModtype _ -> false
| DirModule _ | DirOpenModule _ -> printable_body dir
| _ -> true
with
Not_found -> true
(** Since we might play with nametab above, we should reset to prior
state after the printing *)
let print_expression' is_type env mp me =
States.with_state_protection
(fun e -> eval_ppcmds (print_expression is_type env mp [] e)) me
let print_signature' is_type env mp me =
States.with_state_protection
(fun e -> eval_ppcmds (print_signature is_type env mp [] e)) me
let unsafe_print_module env mp with_body mb =
let name = print_modpath [] mp in
let pr_equals = spc () ++ str ":= " in
let body = match with_body, mb.mod_expr with
| false, _
| true, Abstract -> mt()
| _, Algebraic me -> pr_equals ++ print_expression' false env mp me
| _, Struct sign -> pr_equals ++ print_signature' false env mp sign
| _, FullStruct -> pr_equals ++ print_signature' false env mp mb.mod_type
in
let modtype = match mb.mod_expr, mb.mod_type_alg with
| FullStruct, _ -> mt ()
| _, Some ty -> brk (1,1) ++ str": " ++ print_expression' true env mp ty
| _, _ -> brk (1,1) ++ str": " ++ print_signature' true env mp mb.mod_type
in
hv 0 (str "Module " ++ name ++ modtype ++ body)
exception ShortPrinting
let print_module with_body mp =
let me = Global.lookup_module mp in
try
if !short then raise ShortPrinting;
unsafe_print_module (Some (Global.env ())) mp with_body me ++ fnl ()
with e when Errors.noncritical e ->
unsafe_print_module None mp with_body me ++ fnl ()
let print_modtype kn =
let mtb = Global.lookup_modtype kn in
let name = print_kn [] kn in
hv 1
(str "Module Type " ++ name ++ str " =" ++ spc () ++
(try
if !short then raise ShortPrinting;
print_signature' true (Some (Global.env ())) kn mtb.typ_expr
with e when Errors.noncritical e ->
print_signature' true None kn mtb.typ_expr))
|