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
|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2015 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(***********************************************************************)
(* *)
(* This module defines proof facilities relevant to the *)
(* toplevel. In particular it defines the global proof *)
(* environment. *)
(* *)
(***********************************************************************)
open Util
open Pp
open Names
(*** Proof Modes ***)
(* Type of proof modes :
- A function [set] to set it *from standard mode*
- A function [reset] to reset the *standard mode* from it *)
type proof_mode = {
name : string ;
set : unit -> unit ;
reset : unit -> unit
}
let proof_modes = Hashtbl.create 6
let find_proof_mode n =
try Hashtbl.find proof_modes n
with Not_found ->
Errors.error (Format.sprintf "No proof mode named \"%s\"." n)
let register_proof_mode ({name = n} as m) =
Hashtbl.add proof_modes n (Ephemeron.create m)
(* initial mode: standard mode *)
let standard = { name = "No" ; set = (fun ()->()) ; reset = (fun () -> ()) }
let _ = register_proof_mode standard
(* Default proof mode, to be set at the beginning of proofs. *)
let default_proof_mode = ref (find_proof_mode "No")
let _ =
Goptions.declare_string_option {Goptions.
optsync = true ;
optdepr = false;
optname = "default proof mode" ;
optkey = ["Default";"Proof";"Mode"] ;
optread = begin fun () ->
(Ephemeron.default !default_proof_mode standard).name
end;
optwrite = begin fun n ->
default_proof_mode := find_proof_mode n
end
}
(*** Proof Global Environment ***)
(* Extra info on proofs. *)
type lemma_possible_guards = int list list
type proof_universes = Evd.evar_universe_context
type proof_object = {
id : Names.Id.t;
entries : Entries.definition_entry list;
persistence : Decl_kinds.goal_kind;
universes: proof_universes;
(* constraints : Univ.constraints; *)
}
type proof_ending =
| Admitted of Names.Id.t * Decl_kinds.goal_kind * Entries.parameter_entry * proof_universes
| Proved of Vernacexpr.opacity_flag *
(Vernacexpr.lident * Decl_kinds.theorem_kind option) option *
proof_object
type proof_terminator = proof_ending -> unit
type closed_proof = proof_object * proof_terminator
type pstate = {
pid : Id.t;
terminator : proof_terminator Ephemeron.key;
endline_tactic : Tacexpr.raw_tactic_expr option;
section_vars : Context.section_context option;
proof : Proof.proof;
strength : Decl_kinds.goal_kind;
mode : proof_mode Ephemeron.key;
}
let make_terminator f = f
let apply_terminator f = f
(* The head of [!pstates] is the actual current proof, the other ones are
to be resumed when the current proof is closed or aborted. *)
let pstates = ref ([] : pstate list)
(* Current proof_mode, for bookkeeping *)
let current_proof_mode = ref !default_proof_mode
(* combinators for proof modes *)
let update_proof_mode () =
match !pstates with
| { mode = m } :: _ ->
Ephemeron.iter_opt !current_proof_mode (fun x -> x.reset ());
current_proof_mode := m;
Ephemeron.iter_opt !current_proof_mode (fun x -> x.set ())
| _ ->
Ephemeron.iter_opt !current_proof_mode (fun x -> x.reset ());
current_proof_mode := find_proof_mode "No"
(* combinators for the current_proof lists *)
let push a l = l := a::!l;
update_proof_mode ()
exception NoSuchProof
let _ = Errors.register_handler begin function
| NoSuchProof -> Errors.error "No such proof."
| _ -> raise Errors.Unhandled
end
exception NoCurrentProof
let _ = Errors.register_handler begin function
| NoCurrentProof -> Errors.error "No focused proof (No proof-editing in progress)."
| _ -> raise Errors.Unhandled
end
(*** Proof Global manipulation ***)
let get_all_proof_names () =
List.map (function { pid = id } -> id) !pstates
let cur_pstate () =
match !pstates with
| np::_ -> np
| [] -> raise NoCurrentProof
let give_me_the_proof () = (cur_pstate ()).proof
let get_current_proof_name () = (cur_pstate ()).pid
let interp_tac = ref (fun _ -> assert false)
let set_interp_tac f = interp_tac := f
let with_current_proof f =
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest ->
let et =
match p.endline_tactic with
| None -> Proofview.tclUNIT ()
| Some tac -> !interp_tac tac in
let (newpr,ret) = f et p.proof in
let p = { p with proof = newpr } in
pstates := p :: rest;
ret
let simple_with_current_proof f = with_current_proof (fun t p -> f t p , ())
let compact_the_proof () = simple_with_current_proof (fun _ -> Proof.compact)
(* Sets the tactic to be used when a tactic line is closed with [...] *)
let set_endline_tactic tac =
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest -> pstates := { p with endline_tactic = Some tac } :: rest
(* spiwack: it might be considered to move error messages away.
Or else to remove special exceptions from Proof_global.
Arguments for the former: there is no reason Proof_global is only
accessed directly through vernacular commands. Error message should be
pushed to external layers, and so we should be able to have a finer
control on error message on complex actions. *)
let msg_proofs () =
match get_all_proof_names () with
| [] -> (spc () ++ str"(No proof-editing in progress).")
| l -> (str"." ++ fnl () ++ str"Proofs currently edited:" ++ spc () ++
(pr_sequence Nameops.pr_id l) ++ str".")
let there_is_a_proof () = not (List.is_empty !pstates)
let there_are_pending_proofs () = there_is_a_proof ()
let check_no_pending_proof () =
if not (there_are_pending_proofs ()) then
()
else begin
Errors.error (Pp.string_of_ppcmds
(str"Proof editing in progress" ++ msg_proofs () ++ fnl() ++
str"Use \"Abort All\" first or complete proof(s)."))
end
let discard_gen id =
pstates := List.filter (fun { pid = id' } -> not (Id.equal id id')) !pstates
let discard (loc,id) =
let n = List.length !pstates in
discard_gen id;
if Int.equal (List.length !pstates) n then
Errors.user_err_loc
(loc,"Pfedit.delete_proof",str"No such proof" ++ msg_proofs ())
let discard_current () =
if List.is_empty !pstates then raise NoCurrentProof else pstates := List.tl !pstates
let discard_all () = pstates := []
(* [set_proof_mode] sets the proof mode to be used after it's called. It is
typically called by the Proof Mode command. *)
let set_proof_mode m id =
pstates :=
List.map (function { pid = id' } as p ->
if Id.equal id' id then { p with mode = m } else p) !pstates;
update_proof_mode ()
let set_proof_mode mn =
set_proof_mode (find_proof_mode mn) (get_current_proof_name ())
let activate_proof_mode mode =
Ephemeron.iter_opt (find_proof_mode mode) (fun x -> x.set ())
let disactivate_proof_mode mode =
Ephemeron.iter_opt (find_proof_mode mode) (fun x -> x.reset ())
(** [start_proof sigma id str goals terminator] starts a proof of name
[id] with goals [goals] (a list of pairs of environment and
conclusion); [str] describes what kind of theorem/definition this
is (spiwack: for potential printing, I believe is used only by
closing commands and the xml plugin); [terminator] is used at the
end of the proof to close the proof. The proof is started in the
evar map [sigma] (which can typically contain universe
constraints). *)
let start_proof sigma id str goals terminator =
let initial_state = {
pid = id;
terminator = Ephemeron.create terminator;
proof = Proof.start sigma goals;
endline_tactic = None;
section_vars = None;
strength = str;
mode = find_proof_mode "No" } in
push initial_state pstates
let start_dependent_proof id str goals terminator =
let initial_state = {
pid = id;
terminator = Ephemeron.create terminator;
proof = Proof.dependent_start goals;
endline_tactic = None;
section_vars = None;
strength = str;
mode = find_proof_mode "No" } in
push initial_state pstates
let get_used_variables () = (cur_pstate ()).section_vars
let proof_using_auto_clear = ref true
let _ = Goptions.declare_bool_option
{ Goptions.optsync = true;
Goptions.optdepr = false;
Goptions.optname = "Proof using Clear Unused";
Goptions.optkey = ["Proof";"Using";"Clear";"Unused"];
Goptions.optread = (fun () -> !proof_using_auto_clear);
Goptions.optwrite = (fun b -> proof_using_auto_clear := b) }
let set_used_variables l =
let env = Global.env () in
let ids = List.fold_right Id.Set.add l Id.Set.empty in
let ctx = Environ.keep_hyps env ids in
let ctx_set =
List.fold_right Id.Set.add (List.map pi1 ctx) Id.Set.empty in
let vars_of = Environ.global_vars_set in
let aux env entry (ctx, all_safe, to_clear as orig) =
match entry with
| (x,None,_) ->
if Id.Set.mem x all_safe then orig
else (ctx, all_safe, (Loc.ghost,x)::to_clear)
| (x,Some bo, ty) as decl ->
if Id.Set.mem x all_safe then orig else
let vars = Id.Set.union (vars_of env bo) (vars_of env ty) in
if Id.Set.subset vars all_safe
then (decl :: ctx, Id.Set.add x all_safe, to_clear)
else (ctx, all_safe, (Loc.ghost,x) :: to_clear) in
let ctx, _, to_clear =
Environ.fold_named_context aux env ~init:(ctx,ctx_set,[]) in
let to_clear = if !proof_using_auto_clear then to_clear else [] in
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest ->
if not (Option.is_empty p.section_vars) then
Errors.error "Used section variables can be declared only once";
pstates := { p with section_vars = Some ctx} :: rest;
ctx, to_clear
let get_open_goals () =
let gl, gll, shelf , _ , _ = Proof.proof (cur_pstate ()).proof in
List.length gl +
List.fold_left (+) 0
(List.map (fun (l1,l2) -> List.length l1 + List.length l2) gll) +
List.length shelf
let constrain_variables init uctx =
let levels = Univ.Instance.levels (Univ.UContext.instance init) in
let cstrs = UState.constrain_variables levels uctx in
Univ.ContextSet.add_constraints cstrs (UState.context_set uctx)
let close_proof ~keep_body_ucst_separate ?feedback_id ~now fpl =
let { pid; section_vars; strength; proof; terminator } = cur_pstate () in
let poly = pi2 strength (* Polymorphic *) in
let initial_goals = Proof.initial_goals proof in
let initial_euctx = Proof.initial_euctx proof in
let fpl, univs = Future.split2 fpl in
let universes = if poly || now then Future.force univs else initial_euctx in
(* Because of dependent subgoals at the beginning of proofs, we could
have existential variables in the initial types of goals, we need to
normalise them for the kernel. *)
let subst_evar k =
Proof.in_proof proof (fun m -> Evd.existential_opt_value m k) in
let nf = Universes.nf_evars_and_universes_opt_subst subst_evar
(Evd.evar_universe_context_subst universes) in
let make_body =
if poly || now then
let make_body t (c, eff) =
let open Universes in
let body = c in
let typ =
if not (keep_body_ucst_separate || not (Declareops.side_effects_is_empty eff)) then
nf t
else t
in
let used_univs_body = Universes.universes_of_constr body in
let used_univs_typ = Universes.universes_of_constr typ in
if keep_body_ucst_separate || not (Declareops.side_effects_is_empty eff) then
let initunivs = Evd.evar_context_universe_context initial_euctx in
let ctx = constrain_variables initunivs universes in
(* For vi2vo compilation proofs are computed now but we need to
* complement the univ constraints of the typ with the ones of
* the body. So we keep the two sets distinct. *)
let ctx_body = restrict_universe_context ctx used_univs_body in
(initunivs, typ), ((body, ctx_body), eff)
else
let initunivs = Univ.UContext.empty in
let ctx = constrain_variables initunivs universes in
(* Since the proof is computed now, we can simply have 1 set of
* constraints in which we merge the ones for the body and the ones
* for the typ *)
let used_univs = Univ.LSet.union used_univs_body used_univs_typ in
let ctx = restrict_universe_context ctx used_univs in
let univs = Univ.ContextSet.to_context ctx in
(univs, typ), ((body, Univ.ContextSet.empty), eff)
in
fun t p -> Future.split2 (Future.chain ~pure:true p (make_body t))
else
fun t p ->
let initunivs = Evd.evar_context_universe_context initial_euctx in
Future.from_val (initunivs, nf t),
Future.chain ~pure:true p (fun (pt,eff) ->
(pt,constrain_variables initunivs (Future.force univs)),eff)
in
let entries =
Future.map2 (fun p (_, t) ->
let univstyp, body = make_body t p in
let univs, typ = Future.force univstyp in
{ Entries.
const_entry_body = body;
const_entry_secctx = section_vars;
const_entry_feedback = feedback_id;
const_entry_type = Some typ;
const_entry_inline_code = false;
const_entry_opaque = true;
const_entry_universes = univs;
const_entry_polymorphic = poly})
fpl initial_goals in
{ id = pid; entries = entries; persistence = strength; universes = universes },
fun pr_ending -> Ephemeron.get terminator pr_ending
type closed_proof_output = (Term.constr * Declareops.side_effects) list * Evd.evar_universe_context
let return_proof ?(allow_partial=false) () =
let { pid; proof; strength = (_,poly,_) } = cur_pstate () in
if allow_partial then begin
let proofs = Proof.partial_proof proof in
let _,_,_,_, evd = Proof.proof proof in
let eff = Evd.eval_side_effects evd in
(** ppedrot: FIXME, this is surely wrong. There is no reason to duplicate
side-effects... This may explain why one need to uniquize side-effects
thereafter... *)
let proofs = List.map (fun c -> c, eff) proofs in
proofs, Evd.evar_universe_context evd
end else
let initial_goals = Proof.initial_goals proof in
let evd =
let error s =
let prf = str " (in proof " ++ Id.print pid ++ str ")" in
raise (Errors.UserError("last tactic before Qed",s ++ prf))
in
try Proof.return proof with
| Proof.UnfinishedProof ->
error(str"Attempt to save an incomplete proof")
| Proof.HasShelvedGoals ->
error(str"Attempt to save a proof with shelved goals")
| Proof.HasGivenUpGoals ->
error(strbrk"Attempt to save a proof with given up goals. If this is really what you want to do, use Admitted in place of Qed.")
| Proof.HasUnresolvedEvar->
error(strbrk"Attempt to save a proof with existential variables still non-instantiated") in
let eff = Evd.eval_side_effects evd in
let evd = Evd.nf_constraints evd in
(** ppedrot: FIXME, this is surely wrong. There is no reason to duplicate
side-effects... This may explain why one need to uniquize side-effects
thereafter... *)
let proofs =
List.map (fun (c, _) -> (Evarutil.nf_evars_universes evd c, eff)) initial_goals in
proofs, Evd.evar_universe_context evd
let close_future_proof ~feedback_id proof =
close_proof ~keep_body_ucst_separate:true ~feedback_id ~now:false proof
let close_proof ~keep_body_ucst_separate fix_exn =
close_proof ~keep_body_ucst_separate ~now:true
(Future.from_val ~fix_exn (return_proof ()))
(** Gets the current terminator without checking that the proof has
been completed. Useful for the likes of [Admitted]. *)
let get_terminator () = Ephemeron.get ( cur_pstate() ).terminator
let set_terminator hook =
match !pstates with
| [] -> raise NoCurrentProof
| p :: ps -> pstates := { p with terminator = Ephemeron.create hook } :: ps
(**********************************************************)
(* *)
(* Bullets *)
(* *)
(**********************************************************)
module Bullet = struct
type t = Vernacexpr.bullet
let bullet_eq b1 b2 = match b1, b2 with
| Vernacexpr.Dash n1, Vernacexpr.Dash n2 -> n1 = n2
| Vernacexpr.Star n1, Vernacexpr.Star n2 -> n1 = n2
| Vernacexpr.Plus n1, Vernacexpr.Plus n2 -> n1 = n2
| _ -> false
let pr_bullet b =
match b with
| Vernacexpr.Dash n -> str (String.make n '-')
| Vernacexpr.Star n -> str (String.make n '*')
| Vernacexpr.Plus n -> str (String.make n '+')
type behavior = {
name : string;
put : Proof.proof -> t -> Proof.proof;
suggest: Proof.proof -> string option
}
let behaviors = Hashtbl.create 4
let register_behavior b = Hashtbl.add behaviors b.name b
(*** initial modes ***)
let none = {
name = "None";
put = (fun x _ -> x);
suggest = (fun _ -> None)
}
let _ = register_behavior none
module Strict = struct
type suggestion =
| Suggest of t (* this bullet is mandatory here *)
| Unfinished of t (* no mandatory bullet here, but this bullet is unfinished *)
| NoBulletInUse (* No mandatory bullet (or brace) here, no bullet pending,
some focused goals exists. *)
| NeedClosingBrace (* Some unfocussed goal exists "{" needed to focus them *)
| ProofFinished (* No more goal anywhere *)
(* give a message only if more informative than the standard coq message *)
let suggest_on_solved_goal sugg =
match sugg with
| NeedClosingBrace -> Some "Try unfocusing with \"}\"."
| NoBulletInUse -> None
| ProofFinished -> None
| Suggest b -> Some ("Focus next goal with bullet "
^ Pp.string_of_ppcmds (Pp.(pr_bullet b))
^".")
| Unfinished b -> Some ("The current bullet "
^ Pp.string_of_ppcmds (Pp.(pr_bullet b))
^ " is unfinished.")
(* give always a message. *)
let suggest_on_error sugg =
match sugg with
| NeedClosingBrace -> "Try unfocusing with \"}\"."
| NoBulletInUse -> assert false (* This should never raise an error. *)
| ProofFinished -> "No more subgoals."
| Suggest b -> ("Bullet " ^ Pp.string_of_ppcmds (Pp.(pr_bullet b))
^ " is mandatory here.")
| Unfinished b -> ("Current bullet " ^ Pp.string_of_ppcmds (Pp.(pr_bullet b))
^ " is not finished.")
exception FailedBullet of t * suggestion
let _ =
Errors.register_handler
(function
| FailedBullet (b,sugg) ->
let prefix = "Wrong bullet " ^ Pp.string_of_ppcmds (Pp.(pr_bullet b)) ^ " : " in
Errors.errorlabstrm "Focus" (str prefix ++ str (suggest_on_error sugg))
| _ -> raise Errors.Unhandled)
(* spiwack: we need only one focus kind as we keep a stack of (distinct!) bullets *)
let bullet_kind = (Proof.new_focus_kind () : t list Proof.focus_kind)
let bullet_cond = Proof.done_cond ~loose_end:true bullet_kind
(* spiwack: as it is bullets are reset (locally) by *any* non-bullet focusing command
experience will tell if this is the right discipline of if we want to be finer and
reset them only for a choice of bullets. *)
let get_bullets pr =
if Proof.is_last_focus bullet_kind pr then
Proof.get_at_focus bullet_kind pr
else
[]
let has_bullet bul pr =
let rec has_bullet = function
| b'::_ when bullet_eq bul b' -> true
| _::l -> has_bullet l
| [] -> false
in
has_bullet (get_bullets pr)
(* pop a bullet from proof [pr]. There should be at least one
bullet in use. If pop impossible (pending proofs on this level
of bullet or higher) then raise [Proof.CannotUnfocusThisWay]. *)
let pop pr =
match get_bullets pr with
| b::_ -> Proof.unfocus bullet_kind pr () , b
| _ -> assert false
let push (b:t) pr =
Proof.focus bullet_cond (b::get_bullets pr) 1 pr
(* Used only in the next function.
TODO: use a recursive function instead? *)
exception SuggestFound of t
let suggest_bullet (prf:Proof.proof): suggestion =
if Proof.is_done prf then ProofFinished
else if not (Proof.no_focused_goal prf)
then (* No suggestion if a bullet is not mandatory, look for an unfinished bullet *)
match get_bullets prf with
| b::_ -> Unfinished b
| _ -> NoBulletInUse
else (* There is no goal under focus but some are unfocussed,
let us look at the bullet needed. If no *)
let pcobaye = ref prf in
try
while true do
let pcobaye', b = pop !pcobaye in
(* pop went well, this means that there are no more goals
*under this* bullet b, see if a new b can be pushed. *)
(try let _ = push b pcobaye' in (* push didn't fail so a new b can be pushed. *)
raise (SuggestFound b)
with SuggestFound _ as e -> raise e
| _ -> ()); (* b could not be pushed, so we must look for a outer bullet *)
pcobaye := pcobaye'
done;
assert false
with SuggestFound b -> Suggest b
| _ -> NeedClosingBrace (* No push was possible, but there are still
subgoals somewhere: there must be a "}" to use. *)
let rec pop_until (prf:Proof.proof) bul: Proof.proof =
let prf', b = pop prf in
if bullet_eq bul b then prf'
else pop_until prf' bul
let put p bul =
try
if not (has_bullet bul p) then
(* bullet is not in use, so pushing it is always ok unless
no goal under focus. *)
push bul p
else
match suggest_bullet p with
| Suggest suggested_bullet when bullet_eq bul suggested_bullet
-> (* suggested_bullet is mandatory and you gave the right one *)
let p' = pop_until p bul in
push bul p'
(* the bullet you gave is in use but not the right one *)
| sugg -> raise (FailedBullet (bul,sugg))
with Proof.NoSuchGoals _ -> (* push went bad *)
raise (FailedBullet (bul,suggest_bullet p))
let strict = {
name = "Strict Subproofs";
put = put;
suggest = (fun prf -> suggest_on_solved_goal (suggest_bullet prf))
}
let _ = register_behavior strict
end
(* Current bullet behavior, controled by the option *)
let current_behavior = ref Strict.strict
let _ =
Goptions.declare_string_option {Goptions.
optsync = true;
optdepr = false;
optname = "bullet behavior";
optkey = ["Bullet";"Behavior"];
optread = begin fun () ->
(!current_behavior).name
end;
optwrite = begin fun n ->
current_behavior := Hashtbl.find behaviors n
end
}
let put p b =
(!current_behavior).put p b
let suggest p =
(!current_behavior).suggest p
end
let _ =
let hook n =
let prf = give_me_the_proof () in
(Bullet.suggest prf) in
Proofview.set_nosuchgoals_hook hook
(**********************************************************)
(* *)
(* Default goal selector *)
(* *)
(**********************************************************)
(* Default goal selector: selector chosen when a tactic is applied
without an explicit selector. *)
let default_goal_selector = ref (Vernacexpr.SelectNth 1)
let get_default_goal_selector () = !default_goal_selector
let print_goal_selector = function
| Vernacexpr.SelectAll -> "all"
| Vernacexpr.SelectNth i -> string_of_int i
| Vernacexpr.SelectId id -> Id.to_string id
| Vernacexpr.SelectAllParallel -> "par"
let parse_goal_selector = function
| "all" -> Vernacexpr.SelectAll
| i ->
let err_msg = "A selector must be \"all\" or a natural number." in
begin try
let i = int_of_string i in
if i < 0 then Errors.error err_msg;
Vernacexpr.SelectNth i
with Failure _ -> Errors.error err_msg
end
let _ =
Goptions.declare_string_option {Goptions.
optsync = true ;
optdepr = false;
optname = "default goal selector" ;
optkey = ["Default";"Goal";"Selector"] ;
optread = begin fun () -> print_goal_selector !default_goal_selector end;
optwrite = begin fun n ->
default_goal_selector := parse_goal_selector n
end
}
module V82 = struct
let get_current_initial_conclusions () =
let { pid; strength; proof } = cur_pstate () in
let initial = Proof.initial_goals proof in
let goals = List.map (fun (o, c) -> c) initial in
pid, (goals, strength)
end
type state = pstate list
let freeze ~marshallable =
match marshallable with
| `Yes ->
Errors.anomaly (Pp.str"full marshalling of proof state not supported")
| `Shallow -> !pstates
| `No -> !pstates
let unfreeze s = pstates := s; update_proof_mode ()
let proof_of_state = function { proof }::_ -> proof | _ -> raise NoCurrentProof
let copy_terminators ~src ~tgt =
assert(List.length src = List.length tgt);
List.map2 (fun op p -> { p with terminator = op.terminator }) src tgt
|