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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 *)
(************************************************************************)
(* Certification of Imperative Programs / Jean-Christophe Filliâtre *)
(* $Id: pdb.ml,v 1.8.2.1 2004/07/16 19:30:01 herbelin Exp $ *)
open Names
open Term
open Termops
open Nametab
open Constrintern
open Ptype
open Past
open Penv
let cci_global id =
try
global_reference id
with
_ -> raise Not_found
let lookup_var ids locop id =
if List.mem id ids then
None
else begin
try Some (cci_global id)
with Not_found -> Perror.unbound_variable id locop
end
let check_ref idl loc id =
if (not (List.mem id idl)) & (not (Penv.is_global id)) then
Perror.unbound_reference id loc
(* db types : only check the references for the moment *)
let rec check_type_v refs = function
| Ref v ->
check_type_v refs v
| Array (c,v) ->
check_type_v refs v
| Arrow (bl,c) ->
check_binder refs c bl
| TypePure _ ->
()
and check_type_c refs ((_,v),e,_,_) =
check_type_v refs v;
List.iter (check_ref refs None) (Peffect.get_reads e);
List.iter (check_ref refs None) (Peffect.get_writes e)
(* TODO: check_condition on p and q *)
and check_binder refs c = function
| [] ->
check_type_c refs c
| (id, BindType (Ref _ | Array _ as v)) :: bl ->
check_type_v refs v;
check_binder (id :: refs) c bl
| (_, BindType v) :: bl ->
check_type_v refs v;
check_binder refs c bl
| _ :: bl ->
check_binder refs c bl
(* db binders *)
let rec db_binders ((tids,pids,refs) as idl) = function
| [] ->
idl, []
| (id, BindType (Ref _ | Array _ as v)) as b :: rem ->
check_type_v refs v;
let idl',rem' = db_binders (tids,pids,id::refs) rem in
idl', b :: rem'
| (id, BindType v) as b :: rem ->
check_type_v refs v;
let idl',rem' = db_binders (tids,id::pids,refs) rem in
idl', b :: rem'
| ((id, BindSet) as t) :: rem ->
let idl',rem' = db_binders (id::tids,pids,refs) rem in
idl', t :: rem'
| a :: rem ->
let idl',rem' = db_binders idl rem in idl', a :: rem'
(* db programs *)
let db_prog e =
(* tids = type identifiers, ids = variables, refs = references and arrays *)
let rec db_desc ((tids,ids,refs) as idl) = function
| (Variable x) as t ->
(match lookup_var ids (Some e.loc) x with
None -> t
| Some c -> Expression c)
| (Acc x) as t ->
check_ref refs (Some e.loc) x;
t
| Aff (x,e1) ->
check_ref refs (Some e.loc) x;
Aff (x, db idl e1)
| TabAcc (b,x,e1) ->
check_ref refs (Some e.loc) x;
TabAcc(b,x,db idl e1)
| TabAff (b,x,e1,e2) ->
check_ref refs (Some e.loc) x;
TabAff (b,x, db idl e1, db idl e2)
| Seq bl ->
Seq (List.map (function
Statement p -> Statement (db idl p)
| x -> x) bl)
| If (e1,e2,e3) ->
If (db idl e1, db idl e2, db idl e3)
| While (b,inv,var,bl) ->
let bl' = List.map (function
Statement p -> Statement (db idl p)
| x -> x) bl in
While (db idl b, inv, var, bl')
| Lam (bl,e) ->
let idl',bl' = db_binders idl bl in Lam(bl', db idl' e)
| Apply (e1,l) ->
Apply (db idl e1, List.map (db_arg idl) l)
| SApp (dl,l) ->
SApp (dl, List.map (db idl) l)
| LetRef (x,e1,e2) ->
LetRef (x, db idl e1, db (tids,ids,x::refs) e2)
| Let (x,e1,e2) ->
Let (x, db idl e1, db (tids,x::ids,refs) e2)
| LetRec (f,bl,v,var,e) ->
let (tids',ids',refs'),bl' = db_binders idl bl in
check_type_v refs' v;
LetRec (f, bl, v, var, db (tids',f::ids',refs') e)
| Debug (s,e1) ->
Debug (s, db idl e1)
| Expression _ as x -> x
| PPoint (s,d) -> PPoint (s, db_desc idl d)
and db_arg ((tids,_,refs) as idl) = function
| Term ({ desc = Variable id } as t) ->
if List.mem id refs then Refarg id else Term (db idl t)
| Term t -> Term (db idl t)
| Type v as ty -> check_type_v refs v; ty
| Refarg _ -> assert false
and db idl e =
{ desc = db_desc idl e.desc ;
pre = e.pre; post = e.post;
loc = e.loc; info = e.info }
in
let ids = Termops.ids_of_named_context (Global.named_context ()) in
(* TODO: separer X:Set et x:V:Set
virer le reste (axiomes, etc.) *)
let vars,refs = all_vars (), all_refs () in
db ([],vars@ids,refs) e
;;
|
