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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Pp
open CErrors
open Util
module Dyn = Dyn.Make(struct end)
type marshallable = [ `Yes | `No | `Shallow ]
type 'a summary_declaration = {
freeze_function : marshallable -> 'a;
unfreeze_function : 'a -> unit;
init_function : unit -> unit }
let summaries = ref Int.Map.empty
let mangle id = id ^ "-SUMMARY"
let internal_declare_summary hash sumname sdecl =
let (infun, outfun) = Dyn.Easy.make_dyn (mangle sumname) in
let dyn_freeze b = infun (sdecl.freeze_function b)
and dyn_unfreeze sum = sdecl.unfreeze_function (outfun sum)
and dyn_init = sdecl.init_function in
let ddecl = {
freeze_function = dyn_freeze;
unfreeze_function = dyn_unfreeze;
init_function = dyn_init }
in
summaries := Int.Map.add hash (sumname, ddecl) !summaries
let all_declared_summaries = ref Int.Set.empty
let summary_names = ref []
let name_of_summary name =
try List.assoc name !summary_names
with Not_found -> "summary name not found"
let declare_summary sumname decl =
let hash = String.hash sumname in
let () = if Int.Map.mem hash !summaries then
let (name, _) = Int.Map.find hash !summaries in
anomaly ~label:"Summary.declare_summary"
(str "Colliding summary names: " ++ str sumname ++ str " vs. " ++ str name)
in
all_declared_summaries := Int.Set.add hash !all_declared_summaries;
summary_names := (hash, sumname) :: !summary_names;
internal_declare_summary hash sumname decl
type frozen = {
summaries : (int * Dyn.t) list;
(** Ordered list w.r.t. the first component. *)
ml_module : Dyn.t option;
(** Special handling of the ml_module summary. *)
}
let empty_frozen = { summaries = []; ml_module = None; }
let ml_modules = "ML-MODULES"
let ml_modules_summary = String.hash ml_modules
let freeze_summaries ~marshallable : frozen =
let fold id (_, decl) accu =
(* to debug missing Lazy.force
if marshallable <> `No then begin
let id, _ = Int.Map.find id !summaries in
prerr_endline ("begin marshalling " ^ id);
ignore(Marshal.to_string (decl.freeze_function marshallable) []);
prerr_endline ("end marshalling " ^ id);
end;
/debug *)
let state = decl.freeze_function marshallable in
if Int.equal id ml_modules_summary then { accu with ml_module = Some state }
else { accu with summaries = (id, state) :: accu.summaries }
in
Int.Map.fold_right fold !summaries empty_frozen
let unfreeze_summaries fs =
(* The unfreezing of [ml_modules_summary] has to be anticipated since it
* may modify the content of [summaries] ny loading new ML modules *)
let (_, decl) =
try Int.Map.find ml_modules_summary !summaries
with Not_found -> anomaly (str "Undeclared summary " ++ str ml_modules)
in
let () = match fs.ml_module with
| None -> anomaly (str "Undeclared summary " ++ str ml_modules)
| Some state -> decl.unfreeze_function state
in
let fold id (_, decl) states =
if Int.equal id ml_modules_summary then states
else match states with
| [] ->
let () = decl.init_function () in
[]
| (nid, state) :: rstates ->
if Int.equal id nid then
let () = decl.unfreeze_function state in rstates
else
let () = decl.init_function () in states
in
let fold id decl state =
try fold id decl state
with e when CErrors.noncritical e ->
let e = CErrors.push e in
Printf.eprintf "Error unfrezing summay %s\n%s\n%!"
(name_of_summary id) (Pp.string_of_ppcmds (CErrors.iprint e));
iraise e
in
(** We rely on the order of the frozen list, and the order of folding *)
ignore (Int.Map.fold_left fold !summaries fs.summaries)
let init_summaries () =
Int.Map.iter (fun _ (_, decl) -> decl.init_function ()) !summaries
(** For global tables registered statically before the end of coqtop
launch, the following empty [init_function] could be used. *)
let nop () = ()
(** Selective freeze *)
type frozen_bits = (int * Dyn.t) list
let ids_of_string_list complement ids =
if not complement then List.map String.hash ids
else
let fold accu id =
let id = String.hash id in
Int.Set.remove id accu
in
let ids = List.fold_left fold !all_declared_summaries ids in
Int.Set.elements ids
let freeze_summary ~marshallable ?(complement=false) ids =
let ids = ids_of_string_list complement ids in
List.map (fun id ->
let (_, summary) = Int.Map.find id !summaries in
id, summary.freeze_function marshallable)
ids
let unfreeze_summary datas =
List.iter
(fun (id, data) ->
let (name, summary) = Int.Map.find id !summaries in
try summary.unfreeze_function data
with e ->
let e = CErrors.push e in
prerr_endline ("Exception unfreezing " ^ name);
iraise e)
datas
let surgery_summary { summaries; ml_module } bits =
let summaries = List.map (fun (id, _ as orig) ->
try id, List.assoc id bits
with Not_found -> orig)
summaries in
{ summaries; ml_module }
let project_summary { summaries; ml_module } ?(complement=false) ids =
let ids = ids_of_string_list complement ids in
List.filter (fun (id, _) -> List.mem id ids) summaries
let pointer_equal l1 l2 =
let ptr_equal d1 d2 =
let Dyn.Dyn (t1, x1) = d1 in
let Dyn.Dyn (t2, x2) = d2 in
match Dyn.eq t1 t2 with
| None -> false
| Some Refl -> x1 == x2
in
CList.for_all2eq
(fun (id1,v1) (id2,v2) -> id1 = id2 && ptr_equal v1 v2) l1 l2
(** All-in-one reference declaration + registration *)
let ref ?(freeze=fun _ r -> r) ~name x =
let r = ref x in
declare_summary name
{ freeze_function = (fun b -> freeze b !r);
unfreeze_function = ((:=) r);
init_function = (fun () -> r := x) };
r
module Local = struct
type 'a local_ref = ('a CEphemeron.key * string) ref
let (:=) r v = r := (CEphemeron.create v, snd !r)
let (!) r =
let key, name = !r in
try CEphemeron.get key
with CEphemeron.InvalidKey ->
let _, { init_function } =
Int.Map.find (String.hash (mangle name)) !summaries in
init_function ();
CEphemeron.get (fst !r)
let ref ?(freeze=fun x -> x) ~name init =
let r = Pervasives.ref (CEphemeron.create init, name) in
declare_summary name
{ freeze_function = (fun _ -> freeze !r);
unfreeze_function = ((:=) r);
init_function = (fun () -> r := init) };
r
end
let dump = Dyn.dump
|
