(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* mem_flag = function | `ERROR _ -> `ERROR | (`INCOMPLETE | `UNSAFE | `PROCESSING) as mem_flag -> mem_flag let str_of_flag = function | `UNSAFE -> "U" | `PROCESSING -> "P" | `ERROR _ -> "E" | `INCOMPLETE -> "I" module SentenceId : sig type sentence = private { start : GText.mark; stop : GText.mark; mutable flags : flag list; mutable tooltips : (int * int * string lazy_t) list; edit_id : int; } val mk_sentence : start:GText.mark -> stop:GText.mark -> flag list -> sentence val set_flags : sentence -> flag list -> unit val add_flag : sentence -> flag -> unit val has_flag : sentence -> mem_flag -> bool val remove_flag : sentence -> mem_flag -> unit val same_sentence : sentence -> sentence -> bool val hidden_edit_id : unit -> int val find_all_tooltips : sentence -> int -> string lazy_t list val add_tooltip : sentence -> int -> int -> string lazy_t -> unit val dbg_to_string : GText.buffer -> bool -> Stateid.t option -> sentence -> Pp.std_ppcmds end = struct type sentence = { start : GText.mark; stop : GText.mark; mutable flags : flag list; mutable tooltips : (int * int * string lazy_t) list; edit_id : int; } let id = ref 0 let mk_sentence ~start ~stop flags = decr id; { start = start; stop = stop; flags = flags; edit_id = !id; tooltips = []; } let hidden_edit_id () = decr id; !id let set_flags s f = s.flags <- f let add_flag s f = s.flags <- CList.add_set (=) f s.flags let has_flag s mf = List.exists (fun f -> mem_flag_of_flag f = mf) s.flags let remove_flag s mf = s.flags <- List.filter (fun f -> mem_flag_of_flag f <> mf) s.flags let same_sentence s1 s2 = s1.edit_id = s2.edit_id let find_all_tooltips s off = CList.map_filter (fun (start,stop,t) -> if start <= off && off <= stop then Some t else None) s.tooltips let add_tooltip s a b t = s.tooltips <- (a,b,t) :: s.tooltips let dbg_to_string (b : GText.buffer) focused id s = let ellipsize s = Str.global_replace (Str.regexp "^[\n ]*") "" (if String.length s > 20 then String.sub s 0 17 ^ "..." else s) in Pp.str (Printf.sprintf "%s[%3d,%3s](%5d,%5d) %s [%s] %s" (if focused then "*" else " ") s.edit_id (Stateid.to_string (Option.default Stateid.dummy id)) (b#get_iter_at_mark s.start)#offset (b#get_iter_at_mark s.stop)#offset (ellipsize ((b#get_iter_at_mark s.start)#get_slice (b#get_iter_at_mark s.stop))) (String.concat "," (List.map str_of_flag s.flags)) (ellipsize (String.concat "," (List.map (fun (a,b,t) -> Printf.sprintf "<%d,%d> %s" a b (Lazy.force t)) s.tooltips)))) end open SentenceId let prefs = Preferences.current let log msg : unit task = Coq.lift (fun () -> Minilib.log msg) class type ops = object method go_to_insert : unit task method go_to_mark : GText.mark -> unit task method tactic_wizard : string list -> unit task method process_next_phrase : unit task method process_until_end_or_error : unit task method handle_reset_initial : Coq.reset_kind -> unit task method raw_coq_query : string -> unit task method show_goals : unit task method backtrack_last_phrase : unit task method initialize : unit task method join_document : unit task method stop_worker : int -> unit task method get_n_errors : int method get_errors : (int * string) list method get_slaves_status : int * int * string Int.Map.t method handle_failure : handle_exn_rty -> unit task method destroy : unit -> unit end module Doc = Document class coqops (_script:Wg_ScriptView.script_view) (_pv:Wg_ProofView.proof_view) (_mv:Wg_MessageView.message_view) (_ct:Coq.coqtop) get_filename = object(self) val script = _script val buffer = (_script#source_buffer :> GText.buffer) val proof = _pv val messages = _mv val document : sentence Doc.document = Doc.create () val mutable initial_state = Stateid.initial (* proofs being processed by the slaves *) val mutable to_process = 0 val mutable processed = 0 val mutable slaves_status = Int.Map.empty val feedbacks : feedback Queue.t = Queue.create () val feedback_timer = Ideutils.mktimer () initializer Coq.set_feedback_handler _ct self#enqueue_feedback; script#misc#set_has_tooltip true; ignore(script#misc#connect#query_tooltip ~callback:self#tooltip_callback); feedback_timer.Ideutils.run ~ms:300 ~callback:self#process_feedback method private tooltip_callback ~x ~y ~kbd tooltip = let x, y = script#window_to_buffer_coords `WIDGET x y in let iter = script#get_iter_at_location x y in if iter#has_tag Tags.Script.tooltip then begin let s = let rec aux iter = let marks = iter#marks in if marks = [] then aux iter#backward_char else let mem_marks _ _ s = List.exists (fun m -> Gobject.get_oid m = Gobject.get_oid (buffer#get_mark s.start)) marks in try Doc.find document mem_marks with Not_found -> aux iter#backward_char in aux iter in let ss = find_all_tooltips s (iter#offset - (buffer#get_iter_at_mark s.start)#offset) in let msg = String.concat "\n" (CList.uniquize (List.map Lazy.force ss)) in GtkBase.Tooltip.set_icon_from_stock tooltip `INFO `BUTTON; script#misc#set_tooltip_markup ("" ^ msg ^ "") end else begin script#misc#set_tooltip_text ""; script#misc#set_has_tooltip true end; false method destroy () = feedback_timer.Ideutils.kill () method private print_stack = Minilib.log "document:"; Minilib.log (Pp.string_of_ppcmds (Doc.print document (dbg_to_string buffer))) method private enter_focus start stop = let at id id' _ = Stateid.equal id' id in self#print_stack; Minilib.log("Focusing "^Stateid.to_string start^" "^Stateid.to_string stop); Doc.focus document ~cond_top:(at start) ~cond_bot:(at stop); self#print_stack; let qed_s = Doc.tip_data document in buffer#apply_tag Tags.Script.read_only ~start:((buffer#get_iter_at_mark qed_s.start)#forward_find_char (fun c -> not(Glib.Unichar.isspace c))) ~stop:(buffer#get_iter_at_mark qed_s.stop); buffer#move_mark ~where:(buffer#get_iter_at_mark qed_s.stop) (`NAME "stop_of_input") method private exit_focus = Minilib.log "Unfocusing"; begin try let { start; stop } = Doc.tip_data document in buffer#remove_tag Tags.Script.read_only ~start:(buffer#get_iter_at_mark start) ~stop:(buffer#get_iter_at_mark stop) with Doc.Empty -> () end; Doc.unfocus document; self#print_stack; begin try let where = buffer#get_iter_at_mark (Doc.tip_data document).stop in buffer#move_mark ~where (`NAME "start_of_input"); with Doc.Empty -> () end; buffer#move_mark ~where:buffer#end_iter (`NAME "stop_of_input") method private get_start_of_input = buffer#get_iter_at_mark (`NAME "start_of_input") method private get_end_of_input = buffer#get_iter_at_mark (`NAME "stop_of_input") method private get_insert = buffer#get_iter_at_mark `INSERT method private show_goals_aux ?(move_insert=false) () = Coq.PrintOpt.set_printing_width proof#width; if move_insert then begin buffer#place_cursor ~where:self#get_start_of_input; script#recenter_insert; end; Coq.bind (Coq.goals ~logger:messages#push ()) (function | Fail x -> self#handle_failure_aux ~move_insert x | Good goals -> Coq.bind (Coq.evars ()) (function | Fail x -> self#handle_failure_aux ~move_insert x | Good evs -> proof#set_goals goals; proof#set_evars evs; proof#refresh (); Coq.return () ) ) method show_goals = self#show_goals_aux () (* This method is intended to perform stateless commands *) method raw_coq_query phrase = let action = log "raw_coq_query starting now" in let display_error s = if not (Glib.Utf8.validate s) then flash_info "This error is so nasty that I can't even display it." else messages#add s; in let query = Coq.query ~logger:messages#push (phrase,Stateid.dummy) in let next = function | Fail (_, _, err) -> display_error err; Coq.return () | Good msg -> messages#add msg; Coq.return () in Coq.bind (Coq.seq action query) next method private mark_as_needed sentence = Minilib.log("Marking " ^ Pp.string_of_ppcmds (dbg_to_string buffer false None sentence)); let start = buffer#get_iter_at_mark sentence.start in let stop = buffer#get_iter_at_mark sentence.stop in let to_process = Tags.Script.to_process in let processed = Tags.Script.processed in let unjustified = Tags.Script.unjustified in let error_bg = Tags.Script.error_bg in let error = Tags.Script.error in let incomplete = Tags.Script.incomplete in let all_tags = [ error_bg; to_process; incomplete; processed; unjustified; error ] in let tags = (if has_flag sentence `PROCESSING then [to_process] else if has_flag sentence `ERROR then [error_bg] else if has_flag sentence `INCOMPLETE then [incomplete] else [processed]) @ (if [ `UNSAFE ] = sentence.flags then [unjustified] else []) in List.iter (fun t -> buffer#remove_tag t ~start ~stop) all_tags; List.iter (fun t -> buffer#apply_tag t ~start ~stop) tags method private attach_tooltip sentence loc text = let start_sentence, stop_sentence, phrase = self#get_sentence sentence in let pre_chars, post_chars = if Loc.is_ghost loc then 0, String.length phrase else Loc.unloc loc in let pre = Ideutils.glib_utf8_pos_to_offset phrase ~off:pre_chars in let post = Ideutils.glib_utf8_pos_to_offset phrase ~off:post_chars in let start = start_sentence#forward_chars pre in let stop = start_sentence#forward_chars post in let markup = lazy text in buffer#apply_tag Tags.Script.tooltip ~start ~stop; add_tooltip sentence pre post markup method private is_dummy_id id = match id with | Edit 0 -> true | State id when Stateid.equal id Stateid.dummy -> true | _ -> false method private enqueue_feedback msg = let id = msg.id in if self#is_dummy_id id then () else Queue.add msg feedbacks method private process_feedback () = let rec eat_feedback n = if n = 0 then true else let msg = Queue.pop feedbacks in let id = msg.id in let sentence = let finder _ state_id s = match state_id, id with | Some id', State id when Stateid.equal id id' -> Some (state_id, s) | _, Edit id when id = s.edit_id -> Some (state_id, s) | _ -> None in try Some (Doc.find_map document finder) with Not_found -> None in let log s state_id = Minilib.log ("Feedback " ^ s ^ " on " ^ Stateid.to_string (Option.default Stateid.dummy state_id)) in begin match msg.content, sentence with | AddedAxiom, Some (id,sentence) -> log "AddedAxiom" id; remove_flag sentence `PROCESSING; remove_flag sentence `ERROR; add_flag sentence `UNSAFE; self#mark_as_needed sentence | Processed, Some (id,sentence) -> log "Processed" id; remove_flag sentence `PROCESSING; remove_flag sentence `ERROR; self#mark_as_needed sentence | ProcessingInMaster, Some (id,sentence) -> log "ProcessingInMaster" id; add_flag sentence `PROCESSING; self#mark_as_needed sentence | Incomplete, Some (id, sentence) -> log "Incomplete" id; add_flag sentence `INCOMPLETE; self#mark_as_needed sentence | Complete, Some (id, sentence) -> log "Complete" id; remove_flag sentence `INCOMPLETE; self#mark_as_needed sentence | GlobRef(loc, filepath, modpath, ident, ty), Some (id,sentence) -> log "GlobRef" id; self#attach_tooltip sentence loc (Printf.sprintf "%s %s %s" filepath ident ty) | ErrorMsg(loc, msg), Some (id,sentence) -> log "ErrorMsg" id; remove_flag sentence `PROCESSING; add_flag sentence (`ERROR msg); self#mark_as_needed sentence; self#attach_tooltip sentence loc msg; if not (Loc.is_ghost loc) then self#position_error_tag_at_sentence sentence (Some (Loc.unloc loc)) | InProgress n, _ -> if n < 0 then processed <- processed + abs n else to_process <- to_process + n | SlaveStatus(id,status), _ -> log "SlaveStatus" None; slaves_status <- Int.Map.add id status slaves_status | _ -> if sentence <> None then Minilib.log "Unsupported feedback message" else if Doc.is_empty document then () else try match id, Doc.tip document with | Edit _, _ -> () | State id1, id2 when Stateid.newer_than id2 id1 -> () | _ -> Queue.add msg feedbacks with Doc.Empty | Invalid_argument _ -> Queue.add msg feedbacks end; eat_feedback (n-1) in eat_feedback (Queue.length feedbacks) method private commit_queue_transaction sentence = (* A queued command has been successfully done, we push it to [cmd_stack]. We reget the iters here because Gtk is unable to warranty that they were not modified meanwhile. Not really necessary but who knows... *) self#mark_as_needed sentence; let stop = buffer#get_iter_at_mark sentence.stop in buffer#move_mark ~where:stop (`NAME "start_of_input"); method private position_error_tag_at_iter iter phrase = function | None -> () | Some (start, stop) -> buffer#apply_tag Tags.Script.error ~start:(iter#forward_chars (byte_offset_to_char_offset phrase start)) ~stop:(iter#forward_chars (byte_offset_to_char_offset phrase stop)) method private position_error_tag_at_sentence sentence loc = let start, _, phrase = self#get_sentence sentence in self#position_error_tag_at_iter start phrase loc method private process_interp_error queue sentence loc msg tip id = Coq.bind (Coq.return ()) (function () -> let start, stop, phrase = self#get_sentence sentence in buffer#remove_tag Tags.Script.to_process ~start ~stop; self#discard_command_queue queue; pop_info (); if Stateid.equal id tip || Stateid.equal id Stateid.dummy then begin self#position_error_tag_at_iter start phrase loc; buffer#place_cursor ~where:stop; messages#clear; messages#push Pp.Error msg; self#show_goals end else self#show_goals_aux ~move_insert:true () ) method private get_sentence sentence = let start = buffer#get_iter_at_mark sentence.start in let stop = buffer#get_iter_at_mark sentence.stop in let phrase = start#get_slice ~stop in start, stop, phrase (** [fill_command_queue until q] fills a command queue until the [until] condition returns true; it is fed with the number of phrases read and the iters enclosing the current sentence. *) method private fill_command_queue until queue = let rec loop n iter = match Sentence.find buffer iter with | None -> () | Some (start, stop) -> if until n start stop then begin () end else if start#has_tag Tags.Script.processed then begin Queue.push (`Skip (start, stop)) queue; loop n stop end else begin buffer#apply_tag Tags.Script.to_process ~start ~stop; let sentence = mk_sentence ~start:(`MARK (buffer#create_mark start)) ~stop:(`MARK (buffer#create_mark stop)) [] in Queue.push (`Sentence sentence) queue; if not stop#is_end then loop (succ n) stop end in loop 0 self#get_start_of_input method private discard_command_queue queue = while not (Queue.is_empty queue) do match Queue.pop queue with | `Skip _ -> () | `Sentence sentence -> let start = buffer#get_iter_at_mark sentence.start in let stop = buffer#get_iter_at_mark sentence.stop in buffer#remove_tag Tags.Script.to_process ~start ~stop; buffer#delete_mark sentence.start; buffer#delete_mark sentence.stop; done (** Compute the phrases until [until] returns [true]. *) method private process_until ?move_insert until verbose = let logger lvl msg = if verbose then messages#push lvl msg in let fill_queue = Coq.lift (fun () -> let queue = Queue.create () in (* Lock everything and fill the waiting queue *) push_info "Coq is computing"; messages#clear; script#set_editable false; self#fill_command_queue until queue; (* Now unlock and process asynchronously. Since [until] may contain iterators, it shouldn't be used anymore *) script#set_editable true; Minilib.log "Begin command processing"; queue) in let conclude topstack = pop_info (); script#recenter_insert; match topstack with | [] -> self#show_goals_aux ?move_insert () | (_,s) :: _ -> self#backtrack_to_iter (buffer#get_iter_at_mark s.start) in let process_queue queue = let rec loop tip topstack = if Queue.is_empty queue then conclude topstack else match Queue.pop queue, topstack with | `Skip(start,stop), [] -> assert false | `Skip(start,stop), (_,s) :: topstack -> assert(start#equal (buffer#get_iter_at_mark s.start)); assert(stop#equal (buffer#get_iter_at_mark s.stop)); loop tip topstack | `Sentence sentence, _ :: _ -> assert false | `Sentence ({ edit_id } as sentence), [] -> add_flag sentence `PROCESSING; Doc.push document sentence; let _, _, phrase = self#get_sentence sentence in let coq_query = Coq.add ~logger ((phrase,edit_id),(tip,verbose)) in let handle_answer = function | Good (id, (Util.Inl (* NewTip *) (), msg)) -> Doc.assign_tip_id document id; logger Pp.Notice msg; self#commit_queue_transaction sentence; loop id [] | Good (id, (Util.Inr (* Unfocus *) tip, msg)) -> Doc.assign_tip_id document id; let topstack, _ = Doc.context document in self#exit_focus; self#cleanup (Doc.cut_at document tip); logger Pp.Notice msg; self#mark_as_needed sentence; if Queue.is_empty queue then loop tip [] else loop tip (List.rev topstack) | Fail (id, loc, msg) -> let sentence = Doc.pop document in self#process_interp_error queue sentence loc msg tip id in Coq.bind coq_query handle_answer in let tip = try Doc.tip document with Doc.Empty -> initial_state | Invalid_argument _ -> assert false in loop tip [] in Coq.bind fill_queue process_queue method join_document = let next = function | Good _ -> messages#clear; messages#push Pp.Info "Doc checked"; Coq.return () | Fail x -> self#handle_failure x in Coq.bind (Coq.status ~logger:messages#push true) next method stop_worker n = Coq.bind (Coq.stop_worker n) (fun _ -> Coq.return ()) method get_slaves_status = processed, to_process, slaves_status method get_n_errors = Doc.fold_all document 0 (fun n _ _ s -> if has_flag s `ERROR then n+1 else n) method get_errors = let extract_error s = match List.find (function `ERROR _ -> true | _ -> false) s.flags with | `ERROR msg -> (buffer#get_iter_at_mark s.start)#line + 1, msg | _ -> assert false in List.rev (Doc.fold_all document [] (fun acc _ _ s -> if has_flag s `ERROR then extract_error s :: acc else acc)) method process_next_phrase = let until n _ _ = n >= 1 in self#process_until ~move_insert:true until true method private process_until_iter iter = let until _ start stop = if prefs.Preferences.stop_before then stop#compare iter > 0 else start#compare iter >= 0 in self#process_until until false method process_until_end_or_error = self#process_until_iter self#get_end_of_input (* finds the state_id and if it an unfocus is needed to reach it *) method private find_id until = try Doc.find_id document (fun id { start;stop } -> until (Some id) start stop) with Not_found -> initial_state, Doc.focused document method private cleanup seg = if seg <> [] then begin let start = buffer#get_iter_at_mark (CList.last seg).start in let stop = buffer#get_iter_at_mark (CList.hd seg).stop in Minilib.log (Printf.sprintf "Cleanup in range %d -> %d" start#offset stop#offset); buffer#remove_tag Tags.Script.processed ~start ~stop; buffer#remove_tag Tags.Script.incomplete ~start ~stop; buffer#remove_tag Tags.Script.unjustified ~start ~stop; buffer#remove_tag Tags.Script.tooltip ~start ~stop; buffer#remove_tag Tags.Script.to_process ~start ~stop; buffer#move_mark ~where:start (`NAME "start_of_input") end; List.iter (fun { start } -> buffer#delete_mark start) seg; List.iter (fun { stop } -> buffer#delete_mark stop) seg (** Wrapper around the raw undo command *) method private backtrack_to_id ?(move_insert=true) (to_id, unfocus_needed) = Minilib.log("backtrack_to_id "^Stateid.to_string to_id^ " (unfocus_needed="^string_of_bool unfocus_needed^")"); let opening () = push_info "Coq is undoing" in let conclusion () = pop_info (); if move_insert then buffer#place_cursor ~where:self#get_start_of_input; let start = self#get_start_of_input in let stop = self#get_end_of_input in Minilib.log(Printf.sprintf "cleanup tags %d %d" start#offset stop#offset); buffer#remove_tag Tags.Script.tooltip ~start ~stop; buffer#remove_tag Tags.Script.processed ~start ~stop; buffer#remove_tag Tags.Script.incomplete ~start ~stop; buffer#remove_tag Tags.Script.to_process ~start ~stop; buffer#remove_tag Tags.Script.unjustified ~start ~stop; self#show_goals in Coq.bind (Coq.lift opening) (fun () -> let rec undo to_id unfocus_needed = Coq.bind (Coq.edit_at to_id) (function | Good (CSig.Inl (* NewTip *) ()) -> if unfocus_needed then self#exit_focus; self#cleanup (Doc.cut_at document to_id); conclusion () | Good (CSig.Inr (* Focus *) (stop_id,(start_id,tip))) -> if unfocus_needed then self#exit_focus; self#cleanup (Doc.cut_at document tip); self#enter_focus start_id stop_id; self#cleanup (Doc.cut_at document to_id); conclusion () | Fail (safe_id, loc, msg) -> if loc <> None then messages#push Pp.Error "Fixme LOC"; messages#push Pp.Error msg; if Stateid.equal safe_id Stateid.dummy then self#show_goals else undo safe_id (Doc.focused document && Doc.is_in_focus document safe_id)) in undo to_id unfocus_needed) method private backtrack_until ?move_insert until = self#backtrack_to_id ?move_insert (self#find_id until) method private backtrack_to_iter ?move_insert iter = let until _ _ stop = iter#compare (buffer#get_iter_at_mark stop) >= 0 in self#backtrack_until ?move_insert until method private handle_failure_aux ?(move_insert=false) (safe_id, (loc : (int * int) option), msg) = messages#clear; messages#push Pp.Error msg; ignore(self#process_feedback ()); if Stateid.equal safe_id Stateid.dummy then Coq.lift (fun () -> ()) else Coq.seq (self#backtrack_until ~move_insert (fun id _ _ -> id = Some safe_id)) (Coq.lift (fun () -> script#recenter_insert)) method handle_failure f = self#handle_failure_aux f method backtrack_last_phrase = messages#clear; try let tgt = Doc.before_tip document in self#backtrack_to_id tgt with Not_found -> Coq.return (Coq.reset_coqtop _ct) method go_to_insert = Coq.bind (Coq.return ()) (fun () -> messages#clear; let point = self#get_insert in if point#compare self#get_start_of_input >= 0 then self#process_until_iter point else self#backtrack_to_iter ~move_insert:false point) method go_to_mark m = Coq.bind (Coq.return ()) (fun () -> messages#clear; let point = buffer#get_iter_at_mark m in if point#compare self#get_start_of_input >= 0 then Coq.seq (self#process_until_iter point) (Coq.lift (fun () -> Sentence.tag_on_insert buffer)) else Coq.seq (self#backtrack_to_iter ~move_insert:false point) (Coq.lift (fun () -> Sentence.tag_on_insert buffer))) method tactic_wizard l = let insert_phrase phrase tag = let stop = self#get_start_of_input in let phrase' = if stop#starts_line then phrase else "\n"^phrase in buffer#insert ~iter:stop phrase'; Sentence.tag_on_insert buffer; let start = self#get_start_of_input in buffer#move_mark ~where:stop (`NAME "start_of_input"); buffer#apply_tag tag ~start ~stop; if self#get_insert#compare stop <= 0 then buffer#place_cursor ~where:stop; let sentence = mk_sentence ~start:(`MARK (buffer#create_mark start)) ~stop:(`MARK (buffer#create_mark stop)) [] in Doc.push document sentence; messages#clear; self#show_goals in let display_error (loc, s) = if not (Glib.Utf8.validate s) then flash_info "This error is so nasty that I can't even display it." else messages#add s in let try_phrase phrase stop more = let action = log "Sending to coq now" in let query = Coq.query (phrase,Stateid.dummy) in let next = function | Fail (_, l, str) -> (* FIXME: check *) display_error (l, str); messages#add ("Unsuccessfully tried: "^phrase); more | Good msg -> messages#add msg; stop Tags.Script.processed in Coq.bind (Coq.seq action query) next in let rec loop l = match l with | [] -> Coq.return () | p :: l' -> try_phrase ("progress "^p^".") (insert_phrase (p^".")) (loop l') in loop l method handle_reset_initial why = let action () = if why = Coq.Unexpected then warning "Coqtop died badly. Resetting."; (* clear the stack *) if Doc.focused document then Doc.unfocus document; while not (Doc.is_empty document) do let phrase = Doc.pop document in buffer#delete_mark phrase.start; buffer#delete_mark phrase.stop done; List.iter (buffer#remove_tag ~start:buffer#start_iter ~stop:buffer#end_iter) Tags.Script.all; (* reset the buffer *) buffer#move_mark ~where:buffer#start_iter (`NAME "start_of_input"); buffer#move_mark ~where:buffer#end_iter (`NAME "stop_of_input"); Sentence.tag_all buffer; (* clear the views *) messages#clear; proof#clear (); clear_info (); processed <- 0; to_process <- 0; push_info "Restarted"; (* apply the initial commands to coq *) in Coq.seq (Coq.lift action) self#initialize method initialize = let get_initial_state = let next = function | Fail _ -> messages#set ("Couln't initialize Coq"); Coq.return () | Good id -> initial_state <- id; Coq.return () in Coq.bind (Coq.init (get_filename ())) next in Coq.seq get_initial_state Coq.PrintOpt.enforce end