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|
(************************************************************************)
(* * The Coq Proof Assistant / The Coq Development Team *)
(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *)
(* <O___,, * (see CREDITS file for the list of authors) *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(* * (see LICENSE file for the text of the license) *)
(************************************************************************)
open Util
open Preferences
open Ideutils
class type proof_view =
object
inherit GObj.widget
method buffer : GText.buffer
method refresh : force:bool -> unit
method clear : unit -> unit
method set_goals : Interface.goals option -> unit
method set_evars : Interface.evar list option -> unit
end
(* tag is the tag to be hooked, item is the item covered by this tag, make_menu
* * is the template for building menu if needed, sel_cb is the callback if
* there
* * is a selection o said menu, hover_cb is the callback when there is only
* * hovering *)
let hook_tag_cb tag menu_content sel_cb hover_cb =
ignore (tag#connect#event ~callback:
(fun ~origin evt it ->
let iter = new GText.iter it in
let start = iter#backward_to_tag_toggle (Some tag) in
let stop = iter#forward_to_tag_toggle (Some tag) in
match GdkEvent.get_type evt with
| `BUTTON_PRESS ->
let ev = GdkEvent.Button.cast evt in
if (GdkEvent.Button.button ev) <> 3 then false else begin
let ctxt_menu = GMenu.menu () in
let factory = new GMenu.factory ctxt_menu in
List.iter
(fun (text,cmd) -> ignore (factory#add_item text ~callback:(sel_cb cmd)))
menu_content;
ctxt_menu#popup ~button:3 ~time:(GdkEvent.Button.time ev);
true
end
| `MOTION_NOTIFY ->
hover_cb start stop; false
| _ -> false))
let mode_tactic sel_cb (proof : #GText.view_skel) goals ~unfoc_goals hints = match goals with
| [] -> assert false
| { Interface.goal_hyp = hyps; Interface.goal_ccl = cur_goal; } :: rem_goals ->
let on_hover sel_start sel_stop =
proof#buffer#remove_tag
~start:proof#buffer#start_iter
~stop:sel_start
Tags.Proof.highlight;
proof#buffer#remove_tag
~start:sel_stop
~stop:proof#buffer#end_iter
Tags.Proof.highlight;
proof#buffer#apply_tag ~start:sel_start ~stop:sel_stop Tags.Proof.highlight
in
let goals_cnt = List.length rem_goals + 1 in
let head_str = Printf.sprintf
"%d subgoal%s\n" goals_cnt (if 1 < goals_cnt then "s" else "")
in
let goal_str ?(shownum=false) index total =
if shownum then Printf.sprintf
"______________________________________(%d/%d)\n" index total
else Printf.sprintf
"______________________________________\n"
in
(* Insert current goal and its hypotheses *)
let hyps_hints, goal_hints = match hints with
| None -> [], []
| Some (hl, h) -> (hl, h)
in
let width = Ideutils.textview_width proof in
let rec insert_hyp hints hs = match hs with
| [] -> ()
| hyp :: hs ->
let tags, rem_hints = match hints with
| [] -> [], []
| hint :: hints ->
let tag = proof#buffer#create_tag [] in
let () = hook_tag_cb tag hint sel_cb on_hover in
[tag], hints
in
let () = insert_xml ~tags proof#buffer (Richpp.richpp_of_pp width hyp) in
proof#buffer#insert "\n";
insert_hyp rem_hints hs
in
let () = proof#buffer#insert head_str in
let () = insert_hyp hyps_hints hyps in
let () =
let _ = if goal_hints <> [] then
let tag = proof#buffer#create_tag [] in
let () = hook_tag_cb tag goal_hints sel_cb on_hover in
[tag]
else []
in
proof#buffer#insert (goal_str ~shownum:true 1 goals_cnt);
insert_xml ~tags:[Tags.Proof.goal] proof#buffer (Richpp.richpp_of_pp width cur_goal);
proof#buffer#insert "\n"
in
(* Insert remaining goals (no hypotheses) *)
let fold_goal ?(shownum=false) i _ { Interface.goal_ccl = g } =
proof#buffer#insert (goal_str ~shownum i goals_cnt);
insert_xml proof#buffer (Richpp.richpp_of_pp width g);
proof#buffer#insert "\n"
in
let () = Util.List.fold_left_i (fold_goal ~shownum:true) 2 () rem_goals in
(* show unfocused goal if option set *)
(* Insert remaining goals (no hypotheses) *)
if Coq.PrintOpt.printing_unfocused () then
begin
ignore(proof#buffer#place_cursor ~where:(proof#buffer#end_iter));
let unfoc = List.flatten (List.rev (List.map (fun (x,y) -> x@y) unfoc_goals)) in
if unfoc<>[] then
begin
proof#buffer#insert "\nUnfocused Goals:\n";
Util.List.fold_left_i (fold_goal ~shownum:false) 0 () unfoc
end
end;
ignore(proof#buffer#place_cursor
~where:(proof#buffer#end_iter#backward_to_tag_toggle
(Some Tags.Proof.goal)));
ignore(proof#scroll_to_mark `INSERT)
let rec flatten = function
| [] -> []
| (lg, rg) :: l ->
let inner = flatten l in
List.rev_append lg inner @ rg
let display mode (view : #GText.view_skel) goals hints evars =
let () = view#buffer#set_text "" in
let width = Ideutils.textview_width view in
match goals with
| None -> ()
(* No proof in progress *)
| Some { Interface.fg_goals = []; bg_goals = bg; shelved_goals; given_up_goals; } ->
let bg = flatten (List.rev bg) in
let evars = match evars with None -> [] | Some evs -> evs in
begin match (bg, shelved_goals,given_up_goals, evars) with
| [], [], [], [] ->
view#buffer#insert "No more subgoals."
| [], [], [], _ :: _ ->
(* A proof has been finished, but not concluded *)
view#buffer#insert "No more subgoals, but there are non-instantiated existential variables:\n\n";
let iter evar =
let msg = Printf.sprintf "%s\n" evar.Interface.evar_info in
view#buffer#insert msg
in
List.iter iter evars;
view#buffer#insert "\nYou can use Grab Existential Variables."
| [], [], _, _ ->
(* The proof is finished, with the exception of given up goals. *)
view#buffer#insert "No more subgoals, but there are some goals you gave up:\n\n";
let iter goal =
insert_xml view#buffer (Richpp.richpp_of_pp width goal.Interface.goal_ccl);
view#buffer#insert "\n"
in
List.iter iter given_up_goals;
view#buffer#insert "\nYou need to go back and solve them."
| [], _, _, _ ->
(* All the goals have been resolved but those on the shelf. *)
view#buffer#insert "All the remaining goals are on the shelf:\n\n";
let iter goal =
insert_xml view#buffer (Richpp.richpp_of_pp width goal.Interface.goal_ccl);
view#buffer#insert "\n"
in
List.iter iter shelved_goals
| _, _, _, _ ->
(* No foreground proofs, but still unfocused ones *)
let total = List.length bg in
let goal_str index = Printf.sprintf
"______________________________________(%d/%d)\n" index total
in
view#buffer#insert "This subproof is complete, but there are some unfocused goals:\n\n";
let iter i goal =
let () = view#buffer#insert (goal_str (succ i)) in
insert_xml view#buffer (Richpp.richpp_of_pp width goal.Interface.goal_ccl);
view#buffer#insert "\n"
in
List.iteri iter bg
end
| Some { Interface.fg_goals = fg; bg_goals = bg } ->
mode view fg ~unfoc_goals:bg hints
let proof_view () =
let buffer = GSourceView2.source_buffer
~highlight_matching_brackets:true
~tag_table:Tags.Proof.table ()
in
let text_buffer = new GText.buffer buffer#as_buffer in
let view = GSourceView2.source_view
~source_buffer:buffer ~editable:false ~wrap_mode:`WORD ()
in
let () = Gtk_parsing.fix_double_click view in
let default_clipboard = GData.clipboard Gdk.Atom.primary in
let _ = buffer#add_selection_clipboard default_clipboard in
let cb clr = view#misc#modify_base [`NORMAL, `NAME clr] in
let _ = background_color#connect#changed ~callback:cb in
let _ = view#misc#connect#realize ~callback:(fun () -> cb background_color#get) in
let cb ft = view#misc#modify_font (Pango.Font.from_string ft) in
stick text_font view cb;
let pf = object
inherit GObj.widget view#as_widget
val mutable goals = None
val mutable evars = None
val mutable last_width = -1
method buffer = text_buffer
method clear () = buffer#set_text ""
method set_goals gls = goals <- gls
method set_evars evs = evars <- evs
method refresh ~force =
(* We need to block updates here due to the following race:
insertion of messages may create a vertical scrollbar, this
will trigger a width change, calling refresh again and
going into an infinite loop. *)
let width = Ideutils.textview_width view in
(* Could still this method race if the scrollbar changes the
textview_width ?? *)
let needed = force || last_width <> width in
if needed then begin
last_width <- width;
let dummy _ () = () in
display (mode_tactic dummy) view goals None evars
end
end
in
(* Is there a better way to connect the signal ? *)
(* Can this be done in the object constructor? *)
let w_cb _ = pf#refresh ~force:false in
ignore (view#misc#connect#size_allocate ~callback:w_cb);
pf
|