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(***********************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA-Rocquencourt & LRI-CNRS-Orsay *)
(* \VV/ *************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(***********************************************************************)
(* $Id$ *)
open Util
open Pp
open Names
open Term
open Typeops
open Libobject
open Library
open Classops
let nbimpl = ref 0
let nbpathc = ref 0
let nbcoer = ref 0
let nbstruc = ref 0
let nbimplstruc = ref 0
let compter = ref false
(*** table des structures: section_path du struc donne l'id du constructeur,
le nombre de parame`tres et ses projection valides ***)
type struc_typ = {
s_CONST : identifier;
s_PARAM : int;
s_PROJ : section_path option list }
let sTRUCS = (ref [] : (inductive_path * struc_typ) list ref)
let add_new_struc1 x = sTRUCS:=x::(!sTRUCS)
let cache_structure (_,x) = add_new_struc1 x
let (inStruc,outStruc) =
declare_object ("STRUCTURE",
{ load_function = (fun _ -> ());
cache_function = cache_structure;
open_function = cache_structure;
export_function = (function x -> Some x) })
let add_new_struc (s,c,n,l) =
Lib.add_anonymous_leaf (inStruc (s,{s_CONST=c;s_PARAM=n;s_PROJ=l}))
let find_structure indsp = List.assoc indsp !sTRUCS
(*** table des definitions "object" : pour chaque object c,
c := [x1:B1]...[xk:Bk](R_Cons a1...am t1...t_n)
avec ti=(ci ui1...uir)
Pour tout ci, et Li correspondant (du record)
o_DEF = c
o_TABS = B1...Bk
o_PARAMS = a1...am
o_TCOMP = ui1...uir
***)
type obj_typ = {
o_DEF : constr;
o_TABS : constr list; (* dans l'ordre *)
o_TPARAMS : constr list; (* dans l'ordre *)
o_TCOMPS : constr list } (* dans l'ordre *)
let oBJDEFS =
(ref [] : ((global_reference * global_reference) * obj_typ) list ref)
let add_new_objdef1 x = oBJDEFS:=x::(!oBJDEFS)
let cache_obj (_,x) = add_new_objdef1 x
let (inObjDef,outObjDef) =
declare_object ("OBJDEF",
{ load_function = (fun _ -> ());
open_function = cache_obj;
cache_function = cache_obj;
export_function = (function x -> Some x)})
let add_new_objdef (o,c,la,lp,l) =
try
let _ = List.assoc o !oBJDEFS in ()
with Not_found ->
Lib.add_anonymous_leaf
(inObjDef (o,{o_DEF=c;o_TABS=la;o_TPARAMS=lp;o_TCOMPS=l}))
let cache_objdef1 (_,sp) = ()
let ((inObjDef1 : section_path -> obj),(outObjDef1 : obj -> section_path)) =
declare_object ("OBJDEF1",
{ load_function = (fun _ -> ());
open_function = cache_objdef1;
cache_function = cache_objdef1;
export_function = (function x -> Some x)})
let objdef_info o = List.assoc o !oBJDEFS
let freeze () = !sTRUCS,!oBJDEFS
let unfreeze (s,o) = sTRUCS := s; oBJDEFS := o
let init () = sTRUCS:=[];oBJDEFS:=[]
let _ = init()
let _ =
Summary.declare_summary "objdefs"
{ Summary.freeze_function = freeze;
Summary.unfreeze_function = unfreeze;
Summary.init_function = init;
Summary.survive_section = true }
|