aboutsummaryrefslogtreecommitdiffhomepage
path: root/interp/notation.ml
blob: 771e856921f2e648d896625f2f0edb3eb4883baf (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
(************************************************************************)
(*  v      *   The Coq Proof Assistant  /  The Coq Development Team     *)
(* <O___,, *   INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010     *)
(*   \VV/  **************************************************************)
(*    //   *      This file is distributed under the terms of the       *)
(*         *       GNU Lesser General Public License Version 2.1        *)
(************************************************************************)

(*i*)
open Util
open Pp
open Bigint
open Names
open Term
open Nametab
open Libnames
open Summary
open Glob_term
open Topconstr
open Ppextend
(*i*)

(*s A scope is a set of notations; it includes

  - a set of ML interpreters/parsers for positive (e.g. 0, 1, 15, ...) and
    negative numbers (e.g. -0, -2, -13, ...). These interpreters may
    fail if a number has no interpretation in the scope (e.g. there is
    no interpretation for negative numbers in [nat]); interpreters both for
    terms and patterns can be set; these interpreters are in permanent table
    [numeral_interpreter_tab]
  - a set of ML printers for expressions denoting numbers parsable in
    this scope
  - a set of interpretations for infix (more generally distfix) notations
  - an optional pair of delimiters which, when occurring in a syntactic
    expression, set this scope to be the current scope
*)

(**********************************************************************)
(* Scope of symbols *)

type level = precedence * tolerability list
type delimiters = string
type notation_location = (dir_path * dir_path) * string

type scope = {
  notations: (string, interpretation * notation_location) Gmap.t;
  delimiters: delimiters option
}

(* Uninterpreted notation map: notation -> level * dir_path *)
let notation_level_map = ref Gmap.empty

(* Scopes table: scope_name -> symbol_interpretation *)
let scope_map = ref Gmap.empty

let empty_scope = {
  notations = Gmap.empty;
  delimiters = None
}

let default_scope = "" (* empty name, not available from outside *)
let type_scope = "type_scope" (* special scope used for interpreting types *)

let init_scope_map () =
  scope_map := Gmap.add default_scope empty_scope !scope_map;
  scope_map := Gmap.add type_scope empty_scope !scope_map

(**********************************************************************)
(* Operations on scopes *)

let declare_scope scope =
  try let _ = Gmap.find scope !scope_map in ()
  with Not_found ->
(*    Flags.if_verbose message ("Creating scope "^scope);*)
    scope_map := Gmap.add scope empty_scope !scope_map

let find_scope scope =
  try Gmap.find scope !scope_map
  with Not_found -> error ("Scope "^scope^" is not declared.")

let check_scope sc = let _ = find_scope sc in ()

(**********************************************************************)
(* The global stack of scopes                                         *)

type scope_elem = Scope of scope_name | SingleNotation of string
type scopes = scope_elem list

let scope_stack = ref []

let current_scopes () = !scope_stack

let scope_is_open_in_scopes sc l =
  List.mem (Scope sc) l

let scope_is_open sc = scope_is_open_in_scopes sc (!scope_stack)

(* TODO: push nat_scope, z_scope, ... in scopes summary *)

(* Exportation of scopes *)
let open_scope i (_,(local,op,sc)) =
  if i=1 then begin
  (match sc with Scope sc -> check_scope sc | _ -> ());
  scope_stack := if op then sc :: !scope_stack else list_except sc !scope_stack
  end

let cache_scope o =
  open_scope 1 o

let subst_scope (subst,sc) = sc

open Libobject

let discharge_scope (_,(local,_,_ as o)) =
  if local then None else Some o

let classify_scope (local,_,_ as o) =
  if local then Dispose else Substitute o

let inScope =
  declare_object {(default_object "SCOPE") with
      cache_function = cache_scope;
      open_function = open_scope;
      subst_function = subst_scope;
      discharge_function = discharge_scope;
      classify_function = classify_scope }

let open_close_scope (local,opening,sc) =
  Lib.add_anonymous_leaf (inScope (local,opening,Scope sc))

let empty_scope_stack = []

let push_scope sc scopes = Scope sc :: scopes

let push_scopes = List.fold_right push_scope

type local_scopes = tmp_scope_name option * scope_name list

let make_current_scopes (tmp_scope,scopes) =
  Option.fold_right push_scope tmp_scope (push_scopes scopes !scope_stack)

(**********************************************************************)
(* Delimiters *)

let delimiters_map = ref Gmap.empty

let declare_delimiters scope key =
  let sc = find_scope scope in
  let newsc = { sc with delimiters = Some key } in
  begin match sc.delimiters with
    | None -> scope_map := Gmap.add scope newsc !scope_map
    | Some oldkey when oldkey = key -> ()
    | Some oldkey ->
	Flags.if_verbose warning
	  ("overwriting previous delimiting key "^oldkey^" in scope "^scope);
	scope_map := Gmap.add scope newsc !scope_map
  end;
  try
    let oldscope = Gmap.find key !delimiters_map in
    if oldscope = scope then ()
    else begin
      Flags.if_verbose warning ("Hiding binding of key "^key^" to "^oldscope);
      delimiters_map := Gmap.add key scope !delimiters_map
    end
  with Not_found -> delimiters_map := Gmap.add key scope !delimiters_map

let find_delimiters_scope loc key =
  try Gmap.find key !delimiters_map
  with Not_found ->
    user_err_loc
    (loc, "find_delimiters", str ("Unknown scope delimiting key "^key^"."))

(* Uninterpretation tables *)

type interp_rule =
  | NotationRule of scope_name option * notation
  | SynDefRule of kernel_name

(* We define keys for glob_constr and aconstr to split the syntax entries
   according to the key of the pattern (adapted from Chet Murthy by HH) *)

type key =
  | RefKey of global_reference
  | Oth

(* Scopes table : interpretation -> scope_name *)
let notations_key_table = ref Gmapl.empty
let prim_token_key_table = Hashtbl.create 7

let glob_constr_key = function
  | GApp (_,GRef (_,ref),_) -> RefKey (canonical_gr ref)
  | GRef (_,ref) -> RefKey (canonical_gr ref)
  | _ -> Oth

let cases_pattern_key = function
  | PatCstr (_,ref,_,_) -> RefKey (canonical_gr (ConstructRef ref))
  | _ -> Oth

let aconstr_key = function (* Rem: AApp(ARef ref,[]) stands for @ref *)
  | AApp (ARef ref,args) -> RefKey(canonical_gr ref), Some (List.length args)
  | AList (_,_,AApp (ARef ref,args),_,_)
  | ABinderList (_,_,AApp (ARef ref,args),_) -> RefKey (canonical_gr ref), Some (List.length args)
  | ARef ref -> RefKey(canonical_gr ref), None
  | _ -> Oth, None

(**********************************************************************)
(* Interpreting numbers (not in summary because functional objects)   *)

type required_module = full_path * string list

type 'a prim_token_interpreter =
    loc -> 'a -> glob_constr

type cases_pattern_status = bool (* true = use prim token in patterns *)

type 'a prim_token_uninterpreter =
    glob_constr list * (glob_constr -> 'a option) * cases_pattern_status

type internal_prim_token_interpreter =
    loc -> prim_token -> required_module * (unit -> glob_constr)

let prim_token_interpreter_tab =
  (Hashtbl.create 7 : (scope_name, internal_prim_token_interpreter) Hashtbl.t)

let add_prim_token_interpreter sc interp =
  try
    let cont = Hashtbl.find prim_token_interpreter_tab sc in
    Hashtbl.replace prim_token_interpreter_tab sc (interp cont)
  with Not_found ->
    let cont = (fun _loc _p -> raise Not_found) in
    Hashtbl.add prim_token_interpreter_tab sc (interp cont)

let declare_prim_token_interpreter sc interp (patl,uninterp,b) =
  declare_scope sc;
  add_prim_token_interpreter sc interp;
  List.iter (fun pat ->
      Hashtbl.add prim_token_key_table (glob_constr_key pat) (sc,uninterp,b))
    patl

let mkNumeral n = Numeral n
let mkString s = String s

let delay dir int loc x = (dir, (fun () -> int loc x))

let declare_numeral_interpreter sc dir interp (patl,uninterp,inpat) =
  declare_prim_token_interpreter sc
    (fun cont loc -> function Numeral n-> delay dir interp loc n | p -> cont loc p)
    (patl, (fun r -> Option.map mkNumeral (uninterp r)), inpat)

let declare_string_interpreter sc dir interp (patl,uninterp,inpat) =
  declare_prim_token_interpreter sc
    (fun cont loc -> function String s -> delay dir interp loc s | p -> cont loc p)
    (patl, (fun r -> Option.map mkString (uninterp r)), inpat)

let check_required_module loc sc (sp,d) =
  try let _ = Nametab.global_of_path sp in ()
  with Not_found ->
    user_err_loc (loc,"prim_token_interpreter",
    str ("Cannot interpret in "^sc^" without requiring first module "
    ^(list_last d)^"."))

(* Look if some notation or numeral printer in [scope] can be used in
   the scope stack [scopes], and if yes, using delimiters or not *)

let find_with_delimiters = function
  | None -> None
  | Some scope ->
      match (Gmap.find scope !scope_map).delimiters with
	| Some key -> Some (Some scope, Some key)
	| None -> None

let rec find_without_delimiters find (ntn_scope,ntn) = function
  | Scope scope :: scopes ->
      (* Is the expected ntn/numpr attached to the most recently open scope? *)
      if Some scope = ntn_scope then
	Some (None,None)
      else
	(* If the most recently open scope has a notation/numeral printer
    	   but not the expected one then we need delimiters *)
	if find scope then
	  find_with_delimiters ntn_scope
	else
	  find_without_delimiters find (ntn_scope,ntn) scopes
  | SingleNotation ntn' :: scopes ->
      if ntn_scope = None & ntn = Some ntn' then
	Some (None,None)
      else
	find_without_delimiters find (ntn_scope,ntn) scopes
  | [] ->
      (* Can we switch to [scope]? Yes if it has defined delimiters *)
      find_with_delimiters ntn_scope

(* Uninterpreted notation levels *)

let declare_notation_level ntn level =
  if Gmap.mem ntn !notation_level_map then
    anomaly ("Notation "^ntn^" is already assigned a level");
  notation_level_map := Gmap.add ntn level !notation_level_map

let level_of_notation ntn =
  Gmap.find ntn !notation_level_map

(* The mapping between notations and their interpretation *)

let declare_notation_interpretation ntn scopt pat df =
  let scope = match scopt with Some s -> s | None -> default_scope in
  let sc = find_scope scope in
  if Gmap.mem ntn sc.notations then
    Flags.if_warn msg_warning (str ("Notation "^ntn^" was already used"^
    (if scopt = None then "" else " in scope "^scope)));
  let sc = { sc with notations = Gmap.add ntn (pat,df) sc.notations } in
  scope_map := Gmap.add scope sc !scope_map;
  if scopt = None then scope_stack := SingleNotation ntn :: !scope_stack

let declare_uninterpretation rule (metas,c as pat) =
  let (key,n) = aconstr_key c in
  notations_key_table := Gmapl.add key (rule,pat,n) !notations_key_table

let rec find_interpretation find = function
  | [] -> raise Not_found
  | sce :: scopes ->
      let sc,sco = match sce with
	| Scope sc -> sc, Some sc
	| SingleNotation _ -> default_scope, None in
      try
	let (pat,df) = find sc in
	pat,(df,sco)
      with Not_found ->
	find_interpretation find scopes

let find_notation ntn sc =
  Gmap.find ntn (find_scope sc).notations

let notation_of_prim_token = function
  | Numeral n when is_pos_or_zero n -> to_string n
  | Numeral n -> "- "^(to_string (neg n))
  | String _ -> raise Not_found

let find_prim_token g loc p sc =
  (* Try for a user-defined numerical notation *)
  try
    let (_,c),df = find_notation (notation_of_prim_token p) sc in
    g (glob_constr_of_aconstr loc c),df
  with Not_found ->
  (* Try for a primitive numerical notation *)
  let (spdir,interp) = Hashtbl.find prim_token_interpreter_tab sc loc p in
  check_required_module loc sc spdir;
  g (interp ()), ((dirpath (fst spdir),empty_dirpath),"")

let interp_prim_token_gen g loc p local_scopes =
  let scopes = make_current_scopes local_scopes in
  try find_interpretation (find_prim_token g loc p) scopes
  with Not_found ->
    user_err_loc (loc,"interp_prim_token",
    (match p with
      | Numeral n -> str "No interpretation for numeral " ++ pr_bigint n
      | String s -> str "No interpretation for string " ++ qs s) ++ str ".")

let interp_prim_token =
  interp_prim_token_gen (fun x -> x)

let interp_prim_token_cases_pattern loc p name =
  interp_prim_token_gen (cases_pattern_of_glob_constr name) loc p

let rec interp_notation loc ntn local_scopes =
  let scopes = make_current_scopes local_scopes in
  try find_interpretation (find_notation ntn) scopes
  with Not_found ->
    user_err_loc
    (loc,"",str ("Unknown interpretation for notation \""^ntn^"\"."))

let uninterp_notations c =
  Gmapl.find (glob_constr_key c) !notations_key_table

let uninterp_cases_pattern_notations c =
  Gmapl.find (cases_pattern_key c) !notations_key_table

let availability_of_notation (ntn_scope,ntn) scopes =
  let f scope =
    Gmap.mem ntn (Gmap.find scope !scope_map).notations in
  find_without_delimiters f (ntn_scope,Some ntn) (make_current_scopes scopes)

let uninterp_prim_token c =
  try
    let (sc,numpr,_) = Hashtbl.find prim_token_key_table (glob_constr_key c) in
    match numpr c with
      | None -> raise No_match
      | Some n -> (sc,n)
  with Not_found -> raise No_match

let uninterp_prim_token_cases_pattern c =
  try
    let k = cases_pattern_key c in
    let (sc,numpr,b) = Hashtbl.find prim_token_key_table k in
    if not b then raise No_match;
    let na,c = glob_constr_of_closed_cases_pattern c in
    match numpr c with
      | None -> raise No_match
      | Some n -> (na,sc,n)
  with Not_found -> raise No_match

let availability_of_prim_token n printer_scope local_scopes =
  let f scope =
    try ignore (Hashtbl.find prim_token_interpreter_tab scope dummy_loc n); true
    with Not_found -> false in
  let scopes = make_current_scopes local_scopes in
  Option.map snd (find_without_delimiters f (Some printer_scope,None) scopes)

(* Miscellaneous *)

let exists_notation_in_scope scopt ntn r =
  let scope = match scopt with Some s -> s | None -> default_scope in
  try
    let sc = Gmap.find scope !scope_map in
    let (r',_) = Gmap.find ntn sc.notations in
    r' = r
  with Not_found -> false

let isAVar_or_AHole = function AVar _ | AHole _ -> true | _ -> false

(**********************************************************************)
(* Mapping classes to scopes *)

open Classops

let class_scope_map = ref (Gmap.empty : (cl_typ,scope_name) Gmap.t)

let _ =
  class_scope_map := Gmap.add CL_SORT "type_scope" Gmap.empty

let declare_class_scope sc cl =
  class_scope_map := Gmap.add cl sc !class_scope_map

let find_class_scope cl =
  Gmap.find cl !class_scope_map

let find_class_scope_opt = function
  | None -> None
  | Some cl -> try Some (find_class_scope cl) with Not_found -> None

let find_class t = fst (find_class_type Evd.empty t)

(**********************************************************************)
(* Special scopes associated to arguments of a global reference *)

let rec compute_arguments_classes t =
  match kind_of_term (Reductionops.whd_betaiotazeta Evd.empty t) with
    | Prod (_,t,u) ->
	let cl = try Some (find_class t) with Not_found -> None in
	cl :: compute_arguments_classes u
    | _ -> []

let compute_arguments_scope_full t =
  let cls = compute_arguments_classes t in
  let scs = List.map find_class_scope_opt cls in
  scs, cls

let compute_arguments_scope t = fst (compute_arguments_scope_full t)

(** When merging scope list, we give priority to the first one (computed
    by substitution), using the second one (user given or earlier automatic)
    as fallback *)

let rec merge_scope sc1 sc2 = match sc1, sc2 with
  | [], _ -> sc2
  | _, [] -> sc1
  | Some sc :: sc1, _ :: sc2 -> Some sc :: merge_scope sc1 sc2
  | None :: sc1, sco :: sc2 -> sco :: merge_scope sc1 sc2

let arguments_scope = ref Refmap.empty

type arguments_scope_discharge_request =
  | ArgsScopeAuto
  | ArgsScopeManual
  | ArgsScopeNoDischarge

let load_arguments_scope _ (_,(_,r,scl,cls)) =
  List.iter (Option.iter check_scope) scl;
  arguments_scope := Refmap.add r (scl,cls) !arguments_scope

let cache_arguments_scope o =
  load_arguments_scope 1 o

let subst_arguments_scope (subst,(req,r,scl,cls)) =
  let r' = fst (subst_global subst r) in
  let subst_cl cl =
    try Option.smartmap (subst_cl_typ subst) cl with Not_found -> None in
  let cls' = list_smartmap subst_cl cls in
  let scl' = merge_scope (List.map find_class_scope_opt cls') scl in
  let scl'' = List.map (Option.map Declaremods.subst_scope) scl' in
  (ArgsScopeNoDischarge,r',scl'',cls')

let discharge_arguments_scope (_,(req,r,l,_)) =
  if req = ArgsScopeNoDischarge or (isVarRef r & Lib.is_in_section r) then None
  else Some (req,Lib.discharge_global r,l,[])

let classify_arguments_scope (req,_,_,_ as obj) =
  if req = ArgsScopeNoDischarge then Dispose else Substitute obj

let rebuild_arguments_scope (req,r,l,_) =
  match req with
    | ArgsScopeNoDischarge -> assert false
    | ArgsScopeAuto ->
        let scs,cls = compute_arguments_scope_full (Global.type_of_global r) in
	(req,r,scs,cls)
    | ArgsScopeManual ->
	(* Add to the manually given scopes the one found automatically
           for the extra parameters of the section *)
	let l',cls = compute_arguments_scope_full (Global.type_of_global r) in
	let l1,_ = list_chop (List.length l' - List.length l) l' in
	(req,r,l1@l,cls)

let inArgumentsScope =
  declare_object {(default_object "ARGUMENTS-SCOPE") with
      cache_function = cache_arguments_scope;
      load_function = load_arguments_scope;
      subst_function = subst_arguments_scope;
      classify_function = classify_arguments_scope;
      discharge_function = discharge_arguments_scope;
      rebuild_function = rebuild_arguments_scope }

let is_local local ref = local || isVarRef ref && Lib.is_in_section ref

let declare_arguments_scope_gen req r (scl,cls) =
  Lib.add_anonymous_leaf (inArgumentsScope (req,r,scl,cls))

let declare_arguments_scope local ref scl =
  let req =
    if is_local local ref then ArgsScopeNoDischarge else ArgsScopeManual in
  declare_arguments_scope_gen req ref (scl,[])

let find_arguments_scope r =
  try fst (Refmap.find r !arguments_scope)
  with Not_found -> []

let declare_ref_arguments_scope ref =
  let t = Global.type_of_global ref in
  declare_arguments_scope_gen ArgsScopeAuto ref (compute_arguments_scope_full t)


(********************************)
(* Encoding notations as string *)

type symbol =
  | Terminal of string
  | NonTerminal of identifier
  | SProdList of identifier * symbol list
  | Break of int

let rec string_of_symbol = function
  | NonTerminal _ -> ["_"]
  | Terminal "_" -> ["'_'"]
  | Terminal s -> [s]
  | SProdList (_,l) ->
     let l = List.flatten (List.map string_of_symbol l) in "_"::l@".."::l@["_"]
  | Break _ -> []

let make_notation_key symbols =
  String.concat " " (List.flatten (List.map string_of_symbol symbols))

let decompose_notation_key s =
  let len = String.length s in
  let rec decomp_ntn dirs n =
    if n>=len then List.rev dirs else
    let pos =
      try
	String.index_from s n ' '
      with Not_found -> len
    in
    let tok =
      match String.sub s n (pos-n) with
      | "_" -> NonTerminal (id_of_string "_")
      | s -> Terminal (drop_simple_quotes s) in
    decomp_ntn (tok::dirs) (pos+1)
  in
    decomp_ntn [] 0

(************)
(* Printing *)

let pr_delimiters_info = function
  | None -> str "No delimiting key"
  | Some key -> str "Delimiting key is " ++ str key

let classes_of_scope sc =
  Gmap.fold (fun cl sc' l -> if sc = sc' then cl::l else l) !class_scope_map []

let pr_scope_classes sc =
  let l = classes_of_scope sc in
  if l = [] then mt()
  else
    hov 0 (str ("Bound to class"^(if List.tl l=[] then "" else "es")) ++
      spc() ++ prlist_with_sep spc pr_class l) ++ fnl()

let pr_notation_info prglob ntn c =
  str "\"" ++ str ntn ++ str "\" := " ++
  prglob (glob_constr_of_aconstr dummy_loc c)

let pr_named_scope prglob scope sc =
 (if scope = default_scope then
   match Gmap.fold (fun _ _ x -> x+1) sc.notations 0 with
     | 0 -> str "No lonely notation"
     | n -> str "Lonely notation" ++ (if n=1 then mt() else str"s")
  else
    str "Scope " ++ str scope ++ fnl () ++ pr_delimiters_info sc.delimiters)
  ++ fnl ()
  ++ pr_scope_classes scope
  ++ Gmap.fold
       (fun ntn ((_,r),(_,df)) strm ->
	 pr_notation_info prglob df r ++ fnl () ++ strm)
       sc.notations (mt ())

let pr_scope prglob scope = pr_named_scope prglob scope (find_scope scope)

let pr_scopes prglob =
 Gmap.fold
   (fun scope sc strm -> pr_named_scope prglob scope sc ++ fnl () ++ strm)
   !scope_map (mt ())

let rec find_default ntn = function
  | Scope scope::_ when Gmap.mem ntn (find_scope scope).notations ->
      Some scope
  | SingleNotation ntn'::_ when ntn = ntn' -> Some default_scope
  | _::scopes -> find_default ntn scopes
  | [] -> None

let factorize_entries = function
  | [] -> []
  | (ntn,c)::l ->
      let (ntn,l_of_ntn,rest) =
	List.fold_left
          (fun (a',l,rest) (a,c) ->
	    if a = a' then (a',c::l,rest) else (a,[c],(a',l)::rest))
	  (ntn,[c],[]) l in
      (ntn,l_of_ntn)::rest

let browse_notation strict ntn map =
  let find =
    if String.contains ntn ' ' then (=) ntn
    else fun ntn' ->
      let toks = decompose_notation_key ntn' in
      let trms = List.filter (function Terminal _ -> true | _ -> false) toks in
      if strict then [Terminal ntn] = trms else List.mem (Terminal ntn) trms in
  let l =
    Gmap.fold
      (fun scope_name sc ->
	Gmap.fold (fun ntn ((_,r),df) l ->
	  if find ntn then (ntn,(scope_name,r,df))::l else l) sc.notations)
      map [] in
  List.sort (fun x y -> Pervasives.compare (fst x) (fst y)) l

let global_reference_of_notation test (ntn,(sc,c,_)) =
  match c with
  | ARef ref when test ref -> Some (ntn,sc,ref)
  | AApp (ARef ref, l) when List.for_all isAVar_or_AHole l & test ref ->
      Some (ntn,sc,ref)
  | _ -> None

let error_ambiguous_notation loc _ntn =
  user_err_loc (loc,"",str "Ambiguous notation.")

let error_notation_not_reference loc ntn =
  user_err_loc (loc,"",
    str "Unable to interpret " ++ quote (str ntn) ++
    str " as a reference.")

let interp_notation_as_global_reference loc test ntn sc =
  let scopes = match sc with
  | Some sc ->
      Gmap.add sc (find_scope (find_delimiters_scope dummy_loc sc)) Gmap.empty
  | None -> !scope_map in
  let ntns = browse_notation true ntn scopes in
  let refs = List.map (global_reference_of_notation test) ntns in
  match Option.List.flatten refs with
  | [_,_,ref] -> ref
  | [] -> error_notation_not_reference loc ntn
  | refs ->
      let f (ntn,sc,ref) = find_default ntn !scope_stack = Some sc in
      match List.filter f refs with
      | [_,_,ref] -> ref
      | [] -> error_notation_not_reference loc ntn
      | _ -> error_ambiguous_notation loc ntn

let locate_notation prglob ntn scope =
  let ntns = factorize_entries (browse_notation false ntn !scope_map) in
  let scopes = Option.fold_right push_scope scope !scope_stack in
  if ntns = [] then
    str "Unknown notation"
  else
    t (str "Notation            " ++
    tab () ++ str "Scope     " ++ tab () ++ fnl () ++
    prlist (fun (ntn,l) ->
      let scope = find_default ntn scopes in
      prlist
	(fun (sc,r,(_,df)) ->
	  hov 0 (
	    pr_notation_info prglob df r ++ tbrk (1,2) ++
	    (if sc = default_scope then mt () else (str ": " ++ str sc)) ++
	    tbrk (1,2) ++
	    (if Some sc = scope then str "(default interpretation)" else mt ())
	    ++ fnl ()))
	l) ntns)

let collect_notation_in_scope scope sc known =
  assert (scope <> default_scope);
  Gmap.fold
    (fun ntn ((_,r),(_,df)) (l,known as acc) ->
      if List.mem ntn known then acc else ((df,r)::l,ntn::known))
    sc.notations ([],known)

let collect_notations stack =
  fst (List.fold_left
    (fun (all,knownntn as acc) -> function
      | Scope scope ->
	  if List.mem_assoc scope all then acc
	  else
	    let (l,knownntn) =
	      collect_notation_in_scope scope (find_scope scope) knownntn in
	    ((scope,l)::all,knownntn)
      | SingleNotation ntn ->
	  if List.mem ntn knownntn then (all,knownntn)
	  else
	    let ((_,r),(_,df)) =
	      Gmap.find ntn (find_scope default_scope).notations in
	    let all' = match all with
	      | (s,lonelyntn)::rest when s = default_scope ->
		  (s,(df,r)::lonelyntn)::rest
	      | _ ->
		  (default_scope,[df,r])::all in
	    (all',ntn::knownntn))
    ([],[]) stack)

let pr_visible_in_scope prglob (scope,ntns) =
  let strm =
    List.fold_right
      (fun (df,r) strm -> pr_notation_info prglob df r ++ fnl () ++ strm)
      ntns (mt ()) in
  (if scope = default_scope then
     str "Lonely notation" ++ (if List.length ntns <> 1 then str "s" else mt())
   else
     str "Visible in scope " ++ str scope)
  ++ fnl () ++ strm

let pr_scope_stack prglob stack =
  List.fold_left
    (fun strm scntns -> strm ++ pr_visible_in_scope prglob scntns ++ fnl ())
    (mt ()) (collect_notations stack)

let pr_visibility prglob = function
  | Some scope -> pr_scope_stack prglob (push_scope scope !scope_stack)
  | None -> pr_scope_stack prglob !scope_stack

(**********************************************************************)
(* Mapping notations to concrete syntax *)

type unparsing_rule = unparsing list * precedence

(* Concrete syntax for symbolic-extension table *)
let printing_rules =
  ref (Gmap.empty : (string,unparsing_rule) Gmap.t)

let declare_notation_printing_rule ntn unpl =
  printing_rules := Gmap.add ntn unpl !printing_rules

let find_notation_printing_rule ntn =
  try Gmap.find ntn !printing_rules
  with Not_found -> anomaly ("No printing rule found for "^ntn)

(**********************************************************************)
(* Synchronisation with reset *)

let freeze () =
 (!scope_map, !notation_level_map, !scope_stack, !arguments_scope,
  !delimiters_map, !notations_key_table, !printing_rules,
  !class_scope_map)

let unfreeze (scm,nlm,scs,asc,dlm,fkm,pprules,clsc) =
  scope_map := scm;
  notation_level_map := nlm;
  scope_stack := scs;
  delimiters_map := dlm;
  arguments_scope := asc;
  notations_key_table := fkm;
  printing_rules := pprules;
  class_scope_map := clsc

let init () =
  init_scope_map ();
(*
  scope_stack := Gmap.empty
  arguments_scope := Refmap.empty
*)
  notation_level_map := Gmap.empty;
  delimiters_map := Gmap.empty;
  notations_key_table := Gmapl.empty;
  printing_rules := Gmap.empty;
  class_scope_map := Gmap.add CL_SORT "type_scope" Gmap.empty

let _ =
  declare_summary "symbols"
    { freeze_function = freeze;
      unfreeze_function = unfreeze;
      init_function = init }