(* Copyright (C) 2004-2005, HELM Team.
*
* This file is part of HELM, an Hypertextual, Electronic
* Library of Mathematics, developed at the Computer Science
* Department, University of Bologna, Italy.
*
* HELM is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* HELM is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HELM; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston,
* MA 02111-1307, USA.
*
* For details, see the HELM World-Wide-Web page,
* http://cs.unibo.it/helm/.
*)
(* $Id$ *)
open Printf
open GrafiteTypes
open MatitaGtkMisc
open MatitaGuiTypes
module Stack = Continuationals.Stack
(** inherit from this class if you want to access current script *)
class scriptAccessor =
object (self)
method private script = MatitaScript.current ()
end
let cicBrowsers = ref []
let gui_instance = ref None
let set_gui gui = gui_instance := Some gui
let get_gui () =
match !gui_instance with
| None -> assert false
| Some gui -> gui
let default_font_size () =
Helm_registry.get_opt_default Helm_registry.int
~default:BuildTimeConf.default_font_size "matita.font_size"
let current_font_size = ref ~-1
let increase_font_size () = incr current_font_size
let decrease_font_size () = decr current_font_size
let reset_font_size () = current_font_size := default_font_size ()
(* is there any lablgtk2 constant corresponding to the various mouse
* buttons??? *)
let left_button = 1
let middle_button = 2
let right_button = 3
let near (x1, y1) (x2, y2) =
let distance = sqrt (((x2 -. x1) ** 2.) +. ((y2 -. y1) ** 2.)) in
(distance < 4.)
let mathml_ns = Gdome.domString "http://www.w3.org/1998/Math/MathML"
let xlink_ns = Gdome.domString "http://www.w3.org/1999/xlink"
let helm_ns = Gdome.domString "http://www.cs.unibo.it/helm"
let href_ds = Gdome.domString "href"
let maction_ds = Gdome.domString "maction"
let xref_ds = Gdome.domString "xref"
let domImpl = Gdome.domImplementation ()
(** Gdome.element of a MathML document whose rendering should be blank. Used
* by cicBrowser to render "about:blank" document *)
let empty_mathml = lazy (
domImpl#createDocument ~namespaceURI:(Some DomMisc.mathml_ns)
~qualifiedName:(Gdome.domString "math") ~doctype:None)
let empty_boxml = lazy (
domImpl#createDocument ~namespaceURI:(Some DomMisc.boxml_ns)
~qualifiedName:(Gdome.domString "box") ~doctype:None)
(** shown for goals closed by side effects *)
let closed_goal_mathml = lazy (
domImpl#createDocumentFromURI ~uri:BuildTimeConf.closed_xml ())
(* ids_to_terms should not be passed here, is just for debugging *)
let find_root_id annobj id ids_to_father_ids ids_to_terms ids_to_inner_types =
let find_parent id ids =
let rec aux id =
(* (prerr_endline (sprintf "id %s = %s" id
(try
CicPp.ppterm (Hashtbl.find ids_to_terms id)
with Not_found -> "NONE"))); *)
if List.mem id ids then Some id
else
(match
(try Hashtbl.find ids_to_father_ids id with Not_found -> None)
with
| None -> None
| Some id' -> aux id')
in
aux id
in
let return_father id ids =
match find_parent id ids with
| None -> assert false
| Some parent_id -> parent_id
in
let mk_ids terms = List.map CicUtil.id_of_annterm terms in
let inner_types =
Hashtbl.fold
(fun _ types acc ->
match types.Cic2acic.annexpected with
None -> types.Cic2acic.annsynthesized :: acc
| Some ty -> ty :: types.Cic2acic.annsynthesized :: acc
) ids_to_inner_types [] in
match annobj with
| Cic.AConstant (_, _, _, Some bo, ty, _, _)
| Cic.AVariable (_, _, Some bo, ty, _, _)
| Cic.ACurrentProof (_, _, _, _, bo, ty, _, _) ->
return_father id (mk_ids (ty :: bo :: inner_types))
| Cic.AConstant (_, _, _, None, ty, _, _)
| Cic.AVariable (_, _, None, ty, _, _) ->
return_father id (mk_ids (ty::inner_types))
| Cic.AInductiveDefinition _ ->
assert false (* TODO *)
(** @return string content of a dom node having a single text child node, e.g.
* bool *)
let string_of_dom_node node =
match node#get_firstChild with
| None -> ""
| Some node ->
(try
let text = new Gdome.text_of_node node in
text#get_data#to_string
with GdomeInit.DOMCastException _ -> "")
let name_of_hypothesis = function
| Some (Cic.Name s, _) -> s
| _ -> assert false
let id_of_node (node: Gdome.element) =
let xref_attr =
node#getAttributeNS ~namespaceURI:helm_ns ~localName:xref_ds in
try
List.hd (HExtlib.split ~sep:' ' xref_attr#to_string)
with Failure _ -> assert false
type selected_term =
| SelTerm of Cic.term * string option (* term, parent hypothesis (if any) *)
| SelHyp of string * Cic.context (* hypothesis, context *)
let hrefs_of_elt elt =
let localName = href_ds in
if elt#hasAttributeNS ~namespaceURI:xlink_ns ~localName then
let text =
(elt#getAttributeNS ~namespaceURI:xlink_ns ~localName)#to_string in
Some (HExtlib.split text)
else
None
let rec has_maction (elt :Gdome.element) =
(* fix this comparison *)
if elt#get_tagName#to_string = "m:maction" ||
elt#get_tagName#to_string = "b:action" then
true
else
match elt#get_parentNode with
| Some node when node#get_nodeType = GdomeNodeTypeT.ELEMENT_NODE ->
has_maction (new Gdome.element_of_node node)
| _ -> false
;;
class clickableMathView obj =
let text_width = 80 in
object (self)
inherit GMathViewAux.multi_selection_math_view obj
val mutable href_callback: (string -> unit) option = None
method set_href_callback f = href_callback <- f
val mutable _cic_info = None
method private set_cic_info info = _cic_info <- info
method private cic_info = _cic_info
val normal_cursor = Gdk.Cursor.create `LEFT_PTR
val href_cursor = Gdk.Cursor.create `HAND2
val maction_cursor = Gdk.Cursor.create `QUESTION_ARROW
initializer
self#set_font_size !current_font_size;
ignore (self#connect#selection_changed self#choose_selection_cb);
ignore (self#event#connect#button_press self#button_press_cb);
ignore (self#event#connect#button_release self#button_release_cb);
ignore (self#event#connect#selection_clear self#selection_clear_cb);
ignore (self#connect#element_over self#element_over_cb);
ignore (self#coerce#misc#connect#selection_get self#selection_get_cb)
val mutable button_press_x = -1.
val mutable button_press_y = -1.
val mutable selection_changed = false
val mutable href_statusbar_msg:
(GMisc.statusbar_context * Gtk.statusbar_message) option = None
(* *)
method private selection_get_cb ctxt ~info ~time =
let text =
match ctxt#target with
| "PATTERN" -> self#text_of_selection `Pattern
| "TERM" | _ -> self#text_of_selection `Term
in
match text with
| None -> ()
| Some s -> ctxt#return s
method private text_of_selection fmt =
match self#get_selections with
| [] -> None
| node :: _ -> Some (self#string_of_node ~paste_kind:fmt node)
method private selection_clear_cb sel_event =
self#remove_selections;
(GData.clipboard Gdk.Atom.clipboard)#clear ();
false
method private button_press_cb gdk_button =
let button = GdkEvent.Button.button gdk_button in
if button = left_button then begin
button_press_x <- GdkEvent.Button.x gdk_button;
button_press_y <- GdkEvent.Button.y gdk_button;
selection_changed <- false
end else if button = right_button then
self#popup_contextual_menu
(self#get_element_at
(int_of_float (GdkEvent.Button.x gdk_button))
(int_of_float (GdkEvent.Button.y gdk_button)))
(GdkEvent.Button.time gdk_button);
false
method private element_over_cb (elt_opt, _, _, _) =
let win () = self#misc#window in
let leave_href () =
Gdk.Window.set_cursor (win ()) normal_cursor;
HExtlib.iter_option (fun (ctxt, msg) -> ctxt#remove msg)
href_statusbar_msg
in
match elt_opt with
| Some elt ->
if has_maction elt then
Gdk.Window.set_cursor (win ()) maction_cursor
else
(match hrefs_of_elt elt with
| Some ((_ :: _) as hrefs) ->
Gdk.Window.set_cursor (win ()) href_cursor;
let msg_text = (* now create statusbar msg and store it *)
match hrefs with
| [ href ] -> sprintf "Hyperlink to %s" href
| _ -> sprintf "Hyperlinks to: %s" (String.concat ", " hrefs) in
let ctxt = (get_gui ())#main#statusBar#new_context ~name:"href" in
let msg = ctxt#push msg_text in
href_statusbar_msg <- Some (ctxt, msg)
| _ -> leave_href ())
| None -> leave_href ()
method private tactic_text_pattern_of_node node =
let id = id_of_node node in
let cic_info, unsh_sequent = self#get_cic_info id in
match self#get_term_by_id cic_info id with
| SelTerm (t, father_hyp) ->
let sequent = self#sequent_of_id ~paste_kind:`Pattern id in
let text = self#string_of_cic_sequent ~output_type:`Pattern sequent in
(match father_hyp with
| None -> None, [], Some text
| Some hyp_name -> None, [ hyp_name, text ], None)
| SelHyp (hyp_name, _ctxt) -> None, [ hyp_name, "%" ], None
method private tactic_text_of_node node =
let id = id_of_node node in
let cic_info, unsh_sequent = self#get_cic_info id in
match self#get_term_by_id cic_info id with
| SelTerm (t, father_hyp) ->
let sequent = self#sequent_of_id ~paste_kind:`Term id in
let text = self#string_of_cic_sequent ~output_type:`Term sequent in
text
| SelHyp (hyp_name, _ctxt) -> hyp_name
(** @return a pattern structure which contains pretty printed terms *)
method private tactic_text_pattern_of_selection =
match self#get_selections with
| [] -> assert false (* this method is invoked only if there's a sel. *)
| node :: _ -> self#tactic_text_pattern_of_node node
method private popup_contextual_menu element time =
let menu = GMenu.menu () in
let add_menu_item ?(menu = menu) ?stock ?label () =
GMenu.image_menu_item ?stock ?label ~packing:menu#append () in
let check = add_menu_item ~label:"Check" () in
let reductions_menu_item = GMenu.menu_item ~label:"βδιζ-reduce" () in
let tactics_menu_item = GMenu.menu_item ~label:"Apply tactic" () in
let hyperlinks_menu_item = GMenu.menu_item ~label:"Hyperlinks" () in
menu#append reductions_menu_item;
menu#append tactics_menu_item;
menu#append hyperlinks_menu_item;
let reductions = GMenu.menu () in
let tactics = GMenu.menu () in
let hyperlinks = GMenu.menu () in
reductions_menu_item#set_submenu reductions;
tactics_menu_item#set_submenu tactics;
hyperlinks_menu_item#set_submenu hyperlinks;
let normalize = add_menu_item ~menu:reductions ~label:"Normalize" () in
let simplify = add_menu_item ~menu:reductions ~label:"Simplify" () in
let whd = add_menu_item ~menu:reductions ~label:"Weak head" () in
(match element with
| None -> hyperlinks_menu_item#misc#set_sensitive false
| Some elt ->
match hrefs_of_elt elt, href_callback with
| Some l, Some f ->
List.iter
(fun h ->
let item = add_menu_item ~menu:hyperlinks ~label:h () in
connect_menu_item item (fun () -> f h)) l
| _ -> hyperlinks_menu_item#misc#set_sensitive false);
menu#append (GMenu.separator_item ());
let copy = add_menu_item ~stock:`COPY () in
let gui = get_gui () in
List.iter (fun item -> item#misc#set_sensitive gui#canCopy)
[ copy; check; normalize; simplify; whd ];
let reduction_action kind () =
let pat = self#tactic_text_pattern_of_selection in
let statement =
let loc = HExtlib.dummy_floc in
"\n" ^
GrafiteAstPp.pp_executable ~term_pp:(fun s -> s)
~lazy_term_pp:(fun _ -> assert false) ~obj_pp:(fun _ -> assert false)
~map_unicode_to_tex:(Helm_registry.get_bool
"matita.paste_unicode_as_tex")
(GrafiteAst.Tactic (loc,
Some (GrafiteAst.Reduce (loc, kind, pat)),
GrafiteAst.Semicolon loc)) in
(MatitaScript.current ())#advance ~statement () in
connect_menu_item copy gui#copy;
connect_menu_item normalize (reduction_action `Normalize);
connect_menu_item simplify (reduction_action `Simpl);
connect_menu_item whd (reduction_action `Whd);
menu#popup ~button:right_button ~time
method private button_release_cb gdk_button =
if GdkEvent.Button.button gdk_button = left_button then begin
let button_release_x = GdkEvent.Button.x gdk_button in
let button_release_y = GdkEvent.Button.y gdk_button in
if selection_changed then
()
else (* selection _not_ changed *)
if near (button_press_x, button_press_y)
(button_release_x, button_release_y)
then
let x = int_of_float button_press_x in
let y = int_of_float button_press_y in
(match self#get_element_at x y with
| None -> ()
| Some elt ->
if has_maction elt then ignore(self#action_toggle elt) else
(match hrefs_of_elt elt with
| Some hrefs -> self#invoke_href_callback hrefs gdk_button
| None -> ()))
end;
false
method private invoke_href_callback hrefs gdk_button =
let button = GdkEvent.Button.button gdk_button in
if button = left_button then
let time = GdkEvent.Button.time gdk_button in
match href_callback with
| None -> ()
| Some f ->
(match hrefs with
| [ uri ] -> f uri
| uris ->
let menu = GMenu.menu () in
List.iter
(fun uri ->
let menu_item =
GMenu.menu_item ~label:uri ~packing:menu#append () in
connect_menu_item menu_item
(fun () -> try f uri with Not_found -> assert false))
uris;
menu#popup ~button ~time)
method private choose_selection_cb gdome_elt =
let set_selection elt =
let misc = self#coerce#misc in
self#set_selection (Some elt);
misc#add_selection_target ~target:"STRING" Gdk.Atom.primary;
ignore (misc#grab_selection Gdk.Atom.primary);
in
let rec aux elt =
if (elt#getAttributeNS ~namespaceURI:helm_ns
~localName:xref_ds)#to_string <> ""
then
set_selection elt
else
try
(match elt#get_parentNode with
| None -> assert false
| Some p -> aux (new Gdome.element_of_node p))
with GdomeInit.DOMCastException _ -> ()
in
(match gdome_elt with
| Some elt when (elt#getAttributeNS ~namespaceURI:xlink_ns
~localName:href_ds)#to_string <> "" ->
set_selection elt
| Some elt -> aux elt
| None -> self#set_selection None);
selection_changed <- true
method update_font_size = self#set_font_size !current_font_size
(** find a term by id from stored CIC infos @return either `Hyp if the id
* correspond to an hypothesis or `Term (cic, hyp) if the id correspond to a
* term. In the latter case hyp is either None (if the term is a subterm of
* the sequent conclusion) or Some hyp_name if the term belongs to an
* hypothesis *)
method private get_term_by_id cic_info id =
let unsh_item, ids_to_terms, ids_to_hypotheses, ids_to_father_ids, _, _ =
cic_info in
let rec find_father_hyp id =
if Hashtbl.mem ids_to_hypotheses id
then Some (name_of_hypothesis (Hashtbl.find ids_to_hypotheses id))
else
let father_id =
try Hashtbl.find ids_to_father_ids id
with Not_found -> assert false in
match father_id with
| Some id -> find_father_hyp id
| None -> None
in
try
let term = Hashtbl.find ids_to_terms id in
let father_hyp = find_father_hyp id in
SelTerm (term, father_hyp)
with Not_found ->
try
let hyp = Hashtbl.find ids_to_hypotheses id in
let _, context, _ =
match unsh_item with Some seq -> seq | None -> assert false in
let context' = MatitaMisc.list_tl_at hyp context in
SelHyp (name_of_hypothesis hyp, context')
with Not_found -> assert false
method private find_obj_conclusion id =
match self#cic_info with
| None
| Some (_, _, _, _, _, None) -> assert false
| Some (_, ids_to_terms, _, ids_to_father_ids, ids_to_inner_types, Some annobj) ->
let id =
find_root_id annobj id ids_to_father_ids ids_to_terms ids_to_inner_types
in
(try Hashtbl.find ids_to_terms id with Not_found -> assert false)
method private string_of_node ~(paste_kind:paste_kind) node =
if node#hasAttributeNS ~namespaceURI:helm_ns ~localName:xref_ds
then
match paste_kind with
| `Pattern ->
let tactic_text_pattern = self#tactic_text_pattern_of_node node in
GrafiteAstPp.pp_tactic_pattern
~term_pp:(fun s -> s) ~lazy_term_pp:(fun _ -> assert false)
~map_unicode_to_tex:(Helm_registry.get_bool
"matita.paste_unicode_as_tex")
tactic_text_pattern
| `Term -> self#tactic_text_of_node node
else string_of_dom_node node
method private string_of_cic_sequent ~output_type cic_sequent =
let script = MatitaScript.current () in
let metasenv =
if script#onGoingProof () then script#proofMetasenv else [] in
let map_unicode_to_tex =
Helm_registry.get_bool "matita.paste_unicode_as_tex" in
ApplyTransformation.txt_of_cic_sequent_conclusion ~map_unicode_to_tex
~output_type text_width metasenv cic_sequent
method private pattern_of term father_hyp unsh_sequent =
let _, unsh_context, conclusion = unsh_sequent in
let where =
match father_hyp with
None -> conclusion
| Some name ->
let rec aux =
function
[] -> assert false
| Some (Cic.Name name', Cic.Decl ty)::_ when name' = name -> ty
| Some (Cic.Name name', Cic.Def (bo,_))::_ when name' = name-> bo
| _::tl -> aux tl
in
aux unsh_context
in
ProofEngineHelpers.pattern_of ~term:where [term]
method private get_cic_info id =
match self#cic_info with
| Some ((Some unsh_sequent, _, _, _, _, _) as info) -> info, unsh_sequent
| Some ((None, _, _, _, _, _) as info) ->
let t = self#find_obj_conclusion id in
info, (~-1, [], t) (* dummy sequent for obj *)
| None -> assert false
method private sequent_of_id ~(paste_kind:paste_kind) id =
let cic_info, unsh_sequent = self#get_cic_info id in
let cic_sequent =
match self#get_term_by_id cic_info id with
| SelTerm (t, father_hyp) ->
(*
IDIOTA: PRIMA SI FA LA LOCATE, POI LA PATTERN_OF. MEGLIO UN'UNICA pattern_of CHE PRENDA IN INPUT UN TERMINE E UN SEQUENTE. PER IL MOMENTO RISOLVO USANDO LA father_hyp PER RITROVARE L'IPOTESI PERDUTA
*)
let occurrences =
ProofEngineHelpers.locate_in_conjecture t unsh_sequent in
(match occurrences with
| [ context, _t ] ->
(match paste_kind with
| `Term -> ~-1, context, t
| `Pattern -> ~-1, [], self#pattern_of t father_hyp unsh_sequent)
| _ ->
HLog.error (sprintf "found %d occurrences while 1 was expected"
(List.length occurrences));
assert false) (* since it uses physical equality *)
| SelHyp (_name, context) -> ~-1, context, Cic.Rel 1 in
cic_sequent
method private string_of_selection ~(paste_kind:paste_kind) =
match self#get_selections with
| [] -> None
| node :: _ -> Some (self#string_of_node ~paste_kind node)
method has_selection = self#get_selections <> []
(** @return an associative list format -> string with all possible selection
* formats. Rationale: in order to convert the selection to TERM or PATTERN
* format we need the sequent, the metasenv, ... keeping all of them in a
* closure would be more expensive than keeping their already converted
* forms *)
method strings_of_selection =
try
let misc = self#coerce#misc in
List.iter
(fun target -> misc#add_selection_target ~target Gdk.Atom.clipboard)
[ "TERM"; "PATTERN"; "STRING" ];
ignore (misc#grab_selection Gdk.Atom.clipboard);
List.map
(fun paste_kind ->
paste_kind, HExtlib.unopt (self#string_of_selection ~paste_kind))
[ `Term; `Pattern ]
with Failure _ -> failwith "no selection"
end
let clickableMathView ?hadjustment ?vadjustment ?font_size ?log_verbosity =
GtkBase.Widget.size_params
~cont:(OgtkMathViewProps.pack_return (fun p ->
OgtkMathViewProps.set_params
(new clickableMathView (GtkMathViewProps.MathView_GMetaDOM.create p))
~font_size:None ~log_verbosity:None))
[]
class cicMathView obj =
object (self)
inherit clickableMathView obj
val mutable current_mathml = None
method load_sequent metasenv metano =
let sequent = CicUtil.lookup_meta metano metasenv in
let (mathml, unsh_sequent,
(_, (ids_to_terms, ids_to_father_ids, ids_to_hypotheses,_ )))
=
ApplyTransformation.mml_of_cic_sequent metasenv sequent
in
self#set_cic_info
(Some (Some unsh_sequent,
ids_to_terms, ids_to_hypotheses, ids_to_father_ids,
Hashtbl.create 1, None));
if BuildTimeConf.debug then begin
let name =
"/tmp/sequent_viewer_" ^ string_of_int (Unix.getuid ()) ^ ".xml" in
HLog.debug ("load_sequent: dumping MathML to ./" ^ name);
ignore (domImpl#saveDocumentToFile ~name ~doc:mathml ())
end;
self#load_root ~root:mathml#get_documentElement
method nload_sequent:
'status. #NCicCoercion.status as 'status -> NCic.metasenv ->
NCic.substitution -> int -> unit
= fun status metasenv subst metano ->
let sequent = List.assoc metano metasenv in
let mathml =
ApplyTransformation.nmml_of_cic_sequent status metasenv subst
(metano,sequent)
in
if BuildTimeConf.debug then begin
let name =
"/tmp/sequent_viewer_" ^ string_of_int (Unix.getuid ()) ^ ".xml" in
HLog.debug ("load_sequent: dumping MathML to ./" ^ name);
ignore (domImpl#saveDocumentToFile ~name ~doc:mathml ())
end;
self#load_root ~root:mathml#get_documentElement
method load_object obj =
let use_diff = false in (* ZACK TODO use XmlDiff when re-rendering? *)
let (mathml,
(annobj, (ids_to_terms, ids_to_father_ids, _, ids_to_hypotheses, _, ids_to_inner_types)))
=
ApplyTransformation.mml_of_cic_object obj
in
self#set_cic_info
(Some (None, ids_to_terms, ids_to_hypotheses, ids_to_father_ids, ids_to_inner_types, Some annobj));
(match current_mathml with
| Some current_mathml when use_diff ->
self#freeze;
XmlDiff.update_dom ~from:current_mathml mathml;
self#thaw
| _ ->
if BuildTimeConf.debug then begin
let name =
"/tmp/cic_browser_" ^ string_of_int (Unix.getuid ()) ^ ".xml" in
HLog.debug ("cic_browser: dumping MathML to ./" ^ name);
ignore (domImpl#saveDocumentToFile ~name ~doc:mathml ())
end;
self#load_root ~root:mathml#get_documentElement;
current_mathml <- Some mathml);
method load_nobject :
'status. #NCicCoercion.status as 'status -> NCic.obj -> unit
= fun status obj ->
let mathml = ApplyTransformation.nmml_of_cic_object status obj in
(*
self#set_cic_info
(Some (None, ids_to_terms, ids_to_hypotheses, ids_to_father_ids, ids_to_inner_types, Some annobj));
(match current_mathml with
| Some current_mathml when use_diff ->
self#freeze;
XmlDiff.update_dom ~from:current_mathml mathml;
self#thaw
| _ ->
*)
if BuildTimeConf.debug then begin
let name =
"/tmp/cic_browser_" ^ string_of_int (Unix.getuid ()) ^ ".xml" in
HLog.debug ("cic_browser: dumping MathML to ./" ^ name);
ignore (domImpl#saveDocumentToFile ~name ~doc:mathml ())
end;
self#load_root ~root:mathml#get_documentElement;
(*current_mathml <- Some mathml*)(*)*);
end
let tab_label meta_markup =
let rec aux =
function
| `Closed m -> sprintf "%s" (aux m)
| `Current m -> sprintf "%s" (aux m)
| `Shift (pos, m) -> sprintf "|%d: %s" pos (aux m)
| `Meta n -> sprintf "?%d" n
in
let markup = aux meta_markup in
(GMisc.label ~markup ~show:true ())#coerce
let goal_of_switch = function Stack.Open g | Stack.Closed g -> g
class sequentsViewer ~(notebook:GPack.notebook) ~(cicMathView:cicMathView) () =
object (self)
inherit scriptAccessor
method cicMathView = cicMathView (** clickableMathView accessor *)
val mutable pages = 0
val mutable switch_page_callback = None
val mutable page2goal = [] (* associative list: page no -> goal no *)
val mutable goal2page = [] (* the other way round *)
val mutable goal2win = [] (* associative list: goal no -> scrolled win *)
val mutable _metasenv = `Old []
val mutable scrolledWin: GBin.scrolled_window option = None
(* scrolled window to which the sequentViewer is currently attached *)
val logo = (GMisc.image
~file:(MatitaMisc.image_path "matita_medium.png") ()
:> GObj.widget)
val logo_with_qed = (GMisc.image
~file:(MatitaMisc.image_path "matita_small.png") ()
:> GObj.widget)
method load_logo =
notebook#set_show_tabs false;
ignore(notebook#append_page logo)
method load_logo_with_qed =
notebook#set_show_tabs false;
ignore(notebook#append_page logo_with_qed)
method reset =
cicMathView#remove_selections;
(match scrolledWin with
| Some w ->
(* removing page from the notebook will destroy all contained widget,
* we do not want the cicMathView to be destroyed as well *)
w#remove cicMathView#coerce;
scrolledWin <- None
| None -> ());
(match switch_page_callback with
| Some id ->
GtkSignal.disconnect notebook#as_widget id;
switch_page_callback <- None
| None -> ());
for i = 0 to pages do notebook#remove_page 0 done;
notebook#set_show_tabs true;
pages <- 0;
page2goal <- [];
goal2page <- [];
goal2win <- [];
_metasenv <- `Old [];
self#script#setGoal None
method load_sequents : 'status. #NCicCoercion.status as 'status -> 'a
= fun status { proof= (_,metasenv,_subst,_,_, _) as proof; stack = stack }
->
_metasenv <- `Old metasenv;
pages <- 0;
let win goal_switch =
let w =
GBin.scrolled_window ~hpolicy:`AUTOMATIC ~vpolicy:`ALWAYS
~shadow_type:`IN ~show:true ()
in
let reparent () =
scrolledWin <- Some w;
match cicMathView#misc#parent with
| None -> w#add cicMathView#coerce
| Some parent ->
let parent =
match cicMathView#misc#parent with
None -> assert false
| Some p -> GContainer.cast_container p
in
parent#remove cicMathView#coerce;
w#add cicMathView#coerce
in
goal2win <- (goal_switch, reparent) :: goal2win;
w#coerce
in
assert (
let stack_goals = Stack.open_goals stack in
let proof_goals = ProofEngineTypes.goals_of_proof proof in
if
HExtlib.list_uniq (List.sort Pervasives.compare stack_goals)
<> List.sort Pervasives.compare proof_goals
then begin
prerr_endline ("STACK GOALS = " ^ String.concat " " (List.map string_of_int stack_goals));
prerr_endline ("PROOF GOALS = " ^ String.concat " " (List.map string_of_int proof_goals));
false
end
else true
);
let render_switch =
function Stack.Open i ->`Meta i | Stack.Closed i ->`Closed (`Meta i)
in
let page = ref 0 in
let added_goals = ref [] in
(* goals can be duplicated on the tack due to focus, but we should avoid
* multiple labels in the user interface *)
let add_tab markup goal_switch =
let goal = Stack.goal_of_switch goal_switch in
if not (List.mem goal !added_goals) then begin
ignore(notebook#append_page
~tab_label:(tab_label markup) (win goal_switch));
page2goal <- (!page, goal_switch) :: page2goal;
goal2page <- (goal_switch, !page) :: goal2page;
incr page;
pages <- pages + 1;
added_goals := goal :: !added_goals
end
in
let add_switch _ _ (_, sw) = add_tab (render_switch sw) sw in
Stack.iter (** populate notebook with tabs *)
~env:(fun depth tag (pos, sw) ->
let markup =
match depth, pos with
| 0, 0 -> `Current (render_switch sw)
| 0, _ -> `Shift (pos, `Current (render_switch sw))
| 1, pos when Stack.head_tag stack = `BranchTag ->
`Shift (pos, render_switch sw)
| _ -> render_switch sw
in
add_tab markup sw)
~cont:add_switch ~todo:add_switch
stack;
switch_page_callback <-
Some (notebook#connect#switch_page ~callback:(fun page ->
let goal_switch =
try List.assoc page page2goal with Not_found -> assert false
in
self#script#setGoal (Some (goal_of_switch goal_switch));
self#render_page status ~page ~goal_switch))
method nload_sequents : 'status. #NTacStatus.tac_status as 'status -> unit
= fun status ->
let _,_,metasenv,subst,_ = status#obj in
_metasenv <- `New (metasenv,subst);
pages <- 0;
let win goal_switch =
let w =
GBin.scrolled_window ~hpolicy:`AUTOMATIC ~vpolicy:`ALWAYS
~shadow_type:`IN ~show:true ()
in
let reparent () =
scrolledWin <- Some w;
match cicMathView#misc#parent with
| None -> w#add cicMathView#coerce
| Some parent ->
let parent =
match cicMathView#misc#parent with
None -> assert false
| Some p -> GContainer.cast_container p
in
parent#remove cicMathView#coerce;
w#add cicMathView#coerce
in
goal2win <- (goal_switch, reparent) :: goal2win;
w#coerce
in
assert (
let stack_goals = Stack.open_goals status#stack in
let proof_goals = List.map fst metasenv in
if
HExtlib.list_uniq (List.sort Pervasives.compare stack_goals)
<> List.sort Pervasives.compare proof_goals
then begin
prerr_endline ("STACK GOALS = " ^ String.concat " " (List.map string_of_int stack_goals));
prerr_endline ("PROOF GOALS = " ^ String.concat " " (List.map string_of_int proof_goals));
false
end
else true
);
let render_switch =
function Stack.Open i ->`Meta i | Stack.Closed i ->`Closed (`Meta i)
in
let page = ref 0 in
let added_goals = ref [] in
(* goals can be duplicated on the tack due to focus, but we should avoid
* multiple labels in the user interface *)
let add_tab markup goal_switch =
let goal = Stack.goal_of_switch goal_switch in
if not (List.mem goal !added_goals) then begin
ignore(notebook#append_page
~tab_label:(tab_label markup) (win goal_switch));
page2goal <- (!page, goal_switch) :: page2goal;
goal2page <- (goal_switch, !page) :: goal2page;
incr page;
pages <- pages + 1;
added_goals := goal :: !added_goals
end
in
let add_switch _ _ (_, sw) = add_tab (render_switch sw) sw in
Stack.iter (** populate notebook with tabs *)
~env:(fun depth tag (pos, sw) ->
let markup =
match depth, pos with
| 0, 0 -> `Current (render_switch sw)
| 0, _ -> `Shift (pos, `Current (render_switch sw))
| 1, pos when Stack.head_tag status#stack = `BranchTag ->
`Shift (pos, render_switch sw)
| _ -> render_switch sw
in
add_tab markup sw)
~cont:add_switch ~todo:add_switch
status#stack;
switch_page_callback <-
Some (notebook#connect#switch_page ~callback:(fun page ->
let goal_switch =
try List.assoc page page2goal with Not_found -> assert false
in
self#script#setGoal (Some (goal_of_switch goal_switch));
self#render_page status ~page ~goal_switch))
method private render_page:
'status. #NCicCoercion.status as 'status -> page:int ->
goal_switch:Stack.switch -> unit
= fun status ~page ~goal_switch ->
(match goal_switch with
| Stack.Open goal ->
(match _metasenv with
`Old menv -> cicMathView#load_sequent menv goal
| `New (menv,subst) ->
cicMathView#nload_sequent status menv subst goal)
| Stack.Closed goal ->
let doc = Lazy.force closed_goal_mathml in
cicMathView#load_root ~root:doc#get_documentElement);
(try
cicMathView#set_selection None;
List.assoc goal_switch goal2win ()
with Not_found -> assert false)
method goto_sequent: 'status. #NCicCoercion.status as 'status -> int -> unit
= fun status goal ->
let goal_switch, page =
try
List.find
(function Stack.Open g, _ | Stack.Closed g, _ -> g = goal)
goal2page
with Not_found -> assert false
in
notebook#goto_page page;
self#render_page status ~page ~goal_switch
end
(** constructors *)
type 'widget constructor =
?hadjustment:GData.adjustment ->
?vadjustment:GData.adjustment ->
?font_size:int ->
?log_verbosity:int ->
?width:int ->
?height:int ->
?packing:(GObj.widget -> unit) ->
?show:bool ->
unit ->
'widget
let cicMathView ?hadjustment ?vadjustment ?font_size ?log_verbosity =
GtkBase.Widget.size_params
~cont:(OgtkMathViewProps.pack_return (fun p ->
OgtkMathViewProps.set_params
(new cicMathView (GtkMathViewProps.MathView_GMetaDOM.create p))
~font_size ~log_verbosity))
[]
let blank_uri = BuildTimeConf.blank_uri
let current_proof_uri = BuildTimeConf.current_proof_uri
type term_source =
[ `Ast of CicNotationPt.term
| `Cic of Cic.term * Cic.metasenv
| `NCic of NCic.term * NCic.context * NCic.metasenv * NCic.substitution
| `String of string
]
class cicBrowser_impl ~(history:MatitaTypes.mathViewer_entry MatitaMisc.history)
()
=
let whelp_RE = Pcre.regexp "^\\s*whelp" in
let uri_RE =
Pcre.regexp
"^cic:/([^/]+/)*[^/]+\\.(con|ind|var)(#xpointer\\(\\d+(/\\d+)+\\))?$"
in
let dir_RE = Pcre.regexp "^cic:((/([^/]+/)*[^/]+(/)?)|/|)$" in
let metadata_RE = Pcre.regexp "^metadata:/(deps)/(forward|backward)/(.*)$" in
let whelp_query_RE = Pcre.regexp
"^\\s*whelp\\s+([^\\s]+)\\s+(\"|\\()(.*)(\\)|\")$"
in
let is_metadata txt = Pcre.pmatch ~rex:metadata_RE txt in
let is_whelp txt = Pcre.pmatch ~rex:whelp_RE txt in
let is_uri txt = Pcre.pmatch ~rex:uri_RE txt in
let is_dir txt = Pcre.pmatch ~rex:dir_RE txt in
let gui = get_gui () in
let (win: MatitaGuiTypes.browserWin) = gui#newBrowserWin () in
let gviz = LablGraphviz.graphviz ~packing:win#graphScrolledWin#add () in
let queries = ["Locate";"Hint";"Match";"Elim";"Instance"] in
let combo,_ = GEdit.combo_box_text ~strings:queries () in
let activate_combo_query input q =
let q' = String.lowercase q in
let rec aux i = function
| [] -> failwith ("Whelp query '" ^ q ^ "' not found")
| h::_ when String.lowercase h = q' -> i
| _::tl -> aux (i+1) tl
in
win#queryInputText#set_text input;
combo#set_active (aux 0 queries);
in
let searchText =
GSourceView2.source_view ~auto_indent:false ~editable:false ()
in
let _ =
win#scrolledwinContent#add (searchText :> GObj.widget);
let callback () =
let text = win#entrySearch#text in
let highlight start end_ =
searchText#source_buffer#move_mark `INSERT ~where:start;
searchText#source_buffer#move_mark `SEL_BOUND ~where:end_;
searchText#scroll_mark_onscreen `INSERT
in
let iter = searchText#source_buffer#get_iter `SEL_BOUND in
match iter#forward_search text with
| None ->
(match searchText#source_buffer#start_iter#forward_search text with
| None -> ()
| Some (start,end_) -> highlight start end_)
| Some (start,end_) -> highlight start end_
in
ignore(win#entrySearch#connect#activate ~callback);
ignore(win#buttonSearch#connect#clicked ~callback);
in
let set_whelp_query txt =
let query, arg =
try
let q = Pcre.extract ~rex:whelp_query_RE txt in
q.(1), q.(3)
with Not_found -> failwith "Malformed Whelp query"
in
activate_combo_query arg query;
in
let toplevel = win#toplevel in
let mathView = cicMathView ~packing:win#scrolledBrowser#add () in
let fail message =
MatitaGtkMisc.report_error ~title:"Cic browser" ~message
~parent:toplevel ()
in
let tags =
[ "dir", GdkPixbuf.from_file (MatitaMisc.image_path "matita-folder.png");
"obj", GdkPixbuf.from_file (MatitaMisc.image_path "matita-object.png") ]
in
let b = (not (Helm_registry.get_bool "matita.debug")) in
let handle_error f =
try
f ()
with exn ->
if b then
fail (snd (MatitaExcPp.to_string exn))
else raise exn
in
let handle_error' f = (fun () -> handle_error (fun () -> f ())) in
let load_easter_egg = lazy (
win#browserImage#set_file (MatitaMisc.image_path "meegg.png"))
in
let load_hints () =
let module Pp = GraphvizPp.Dot in
let filename, oc = Filename.open_temp_file "matita" ".dot" in
let fmt = Format.formatter_of_out_channel oc in
let status = (MatitaScript.current ())#grafite_status in
Pp.header
~name:"Hints"
~graph_type:"graph"
~graph_attrs:["overlap", "false"]
~node_attrs:["fontsize", "9"; "width", ".4";
"height", ".4"; "shape", "box"]
~edge_attrs:["fontsize", "10"; "len", "2"] fmt;
NCicUnifHint.generate_dot_file status fmt;
Pp.trailer fmt;
Pp.raw "@." fmt;
close_out oc;
gviz#load_graph_from_file ~gviz_cmd:"neato -Tpng" filename;
(*HExtlib.safe_remove filename*)
in
let load_coerchgraph tred () =
let module Pp = GraphvizPp.Dot in
let filename, oc = Filename.open_temp_file "matita" ".dot" in
let fmt = Format.formatter_of_out_channel oc in
Pp.header
~name:"Coercions"
~node_attrs:["fontsize", "9"; "width", ".4"; "height", ".4"]
~edge_attrs:["fontsize", "10"] fmt;
let status = (MatitaScript.current ())#grafite_status in
NCicCoercion.generate_dot_file status fmt;
Pp.trailer fmt;
Pp.header
~name:"OLDCoercions"
~node_attrs:["fontsize", "9"; "width", ".4"; "height", ".4"]
~edge_attrs:["fontsize", "10"] fmt;
CoercGraph.generate_dot_file fmt;
Pp.trailer fmt;
Pp.raw "@." fmt;
close_out oc;
if tred then
gviz#load_graph_from_file
~gviz_cmd:"dot -Txdot | tred |gvpack -gv | dot" filename
else
gviz#load_graph_from_file
~gviz_cmd:"dot -Txdot | gvpack -gv | dot" filename;
HExtlib.safe_remove filename
in
object (self)
inherit scriptAccessor
(* Whelp bar queries *)
val mutable gviz_graph = MetadataDeps.DepGraph.dummy
val mutable gviz_uri = UriManager.uri_of_string "cic:/dummy.con";
val dep_contextual_menu = GMenu.menu ()
initializer
activate_combo_query "" "locate";
win#whelpBarComboVbox#add combo#coerce;
let start_query () =
let query =
try
String.lowercase (List.nth queries combo#active)
with Not_found -> assert false in
let input = win#queryInputText#text in
let statement =
if query = "locate" then
"whelp " ^ query ^ " \"" ^ input ^ "\"."
else
"whelp " ^ query ^ " (" ^ input ^ ")."
in
(MatitaScript.current ())#advance ~statement ()
in
ignore(win#queryInputText#connect#activate ~callback:start_query);
ignore(combo#connect#changed ~callback:start_query);
win#whelpBarImage#set_file (MatitaMisc.image_path "whelp.png");
win#mathOrListNotebook#set_show_tabs false;
win#browserForwardButton#misc#set_sensitive false;
win#browserBackButton#misc#set_sensitive false;
ignore (win#browserUri#connect#activate (handle_error' (fun () ->
self#loadInput win#browserUri#text)));
ignore (win#browserHomeButton#connect#clicked (handle_error' (fun () ->
self#load (`About `Current_proof))));
ignore (win#browserRefreshButton#connect#clicked
(handle_error' (self#refresh ~force:true)));
ignore (win#browserBackButton#connect#clicked (handle_error' self#back));
ignore (win#browserForwardButton#connect#clicked
(handle_error' self#forward));
ignore (win#toplevel#event#connect#delete (fun _ ->
let my_id = Oo.id self in
cicBrowsers := List.filter (fun b -> Oo.id b <> my_id) !cicBrowsers;
false));
ignore(win#whelpResultTreeview#connect#row_activated
~callback:(fun _ _ ->
handle_error (fun () -> self#loadInput (self#_getSelectedUri ()))));
mathView#set_href_callback (Some (fun uri ->
handle_error (fun () ->
let uri =
try
`Uri (UriManager.uri_of_string uri)
with
UriManager.IllFormedUri _ ->
`NRef (NReference.reference_of_string uri)
in
self#load uri)));
gviz#connect_href (fun button_ev attrs ->
let time = GdkEvent.Button.time button_ev in
let uri = List.assoc "href" attrs in
gviz_uri <- UriManager.uri_of_string uri;
match GdkEvent.Button.button button_ev with
| button when button = left_button -> self#load (`Uri gviz_uri)
| button when button = right_button ->
dep_contextual_menu#popup ~button ~time
| _ -> ());
connect_menu_item win#depGraphMenuItem (fun () ->
match self#currentCicUri with
| Some uri -> self#load (`Metadata (`Deps (`Fwd, uri)))
| None -> ());
connect_menu_item win#invDepGraphMenuItem (fun () ->
match self#currentCicUri with
| Some uri -> self#load (`Metadata (`Deps (`Back, uri)))
| None -> ());
connect_menu_item win#browserCloseMenuItem (fun () ->
let my_id = Oo.id self in
cicBrowsers := List.filter (fun b -> Oo.id b <> my_id) !cicBrowsers;
win#toplevel#misc#hide(); win#toplevel#destroy ());
(* remove hbugs *)
(*
connect_menu_item win#hBugsTutorsMenuItem (fun () ->
self#load (`HBugs `Tutors));
*)
win#hBugsTutorsMenuItem#misc#hide ();
connect_menu_item win#browserUrlMenuItem (fun () ->
win#browserUri#misc#grab_focus ());
connect_menu_item win#univMenuItem (fun () ->
match self#currentCicUri with
| Some uri -> self#load (`Univs uri)
| None -> ());
(* fill dep graph contextual menu *)
let go_menu_item =
GMenu.image_menu_item ~label:"Browse it"
~packing:dep_contextual_menu#append () in
let expand_menu_item =
GMenu.image_menu_item ~label:"Expand"
~packing:dep_contextual_menu#append () in
let collapse_menu_item =
GMenu.image_menu_item ~label:"Collapse"
~packing:dep_contextual_menu#append () in
dep_contextual_menu#append (go_menu_item :> GMenu.menu_item);
dep_contextual_menu#append (expand_menu_item :> GMenu.menu_item);
dep_contextual_menu#append (collapse_menu_item :> GMenu.menu_item);
connect_menu_item go_menu_item (fun () -> self#load (`Uri gviz_uri));
connect_menu_item expand_menu_item (fun () ->
MetadataDeps.DepGraph.expand gviz_uri gviz_graph;
self#redraw_gviz ~center_on:gviz_uri ());
connect_menu_item collapse_menu_item (fun () ->
MetadataDeps.DepGraph.collapse gviz_uri gviz_graph;
self#redraw_gviz ~center_on:gviz_uri ());
self#_load (`About `Blank);
toplevel#show ()
val mutable current_entry = `About `Blank
(** @return None if no object uri can be built from the current entry *)
method private currentCicUri =
match current_entry with
| `Uri uri
| `Metadata (`Deps (_, uri)) -> Some uri
| _ -> None
val model =
new MatitaGtkMisc.taggedStringListModel tags win#whelpResultTreeview
val model_univs =
new MatitaGtkMisc.multiStringListModel ~cols:2 win#universesTreeview
val mutable lastDir = "" (* last loaded "directory" *)
method mathView = (mathView :> MatitaGuiTypes.clickableMathView)
method private _getSelectedUri () =
match model#easy_selection () with
| [sel] when is_uri sel -> sel (* absolute URI selected *)
(* | [sel] -> win#browserUri#entry#text ^ sel |+ relative URI selected +| *)
| [sel] -> lastDir ^ sel
| _ -> assert false
(** history RATIONALE
*
* All operations about history are done using _historyFoo.
* Only toplevel functions (ATM load and loadInput) call _historyAdd.
*)
method private _historyAdd item =
history#add item;
win#browserBackButton#misc#set_sensitive true;
win#browserForwardButton#misc#set_sensitive false
method private _historyPrev () =
let item = history#previous in
if history#is_begin then win#browserBackButton#misc#set_sensitive false;
win#browserForwardButton#misc#set_sensitive true;
item
method private _historyNext () =
let item = history#next in
if history#is_end then win#browserForwardButton#misc#set_sensitive false;
win#browserBackButton#misc#set_sensitive true;
item
(** notebook RATIONALE
*
* Use only these functions to switch between the tabs
*)
method private _showMath = win#mathOrListNotebook#goto_page 0
method private _showList = win#mathOrListNotebook#goto_page 1
method private _showList2 = win#mathOrListNotebook#goto_page 5
method private _showSearch = win#mathOrListNotebook#goto_page 6
method private _showGviz = win#mathOrListNotebook#goto_page 3
method private _showHBugs = win#mathOrListNotebook#goto_page 4
method private back () =
try
self#_load (self#_historyPrev ())
with MatitaMisc.History_failure -> ()
method private forward () =
try
self#_load (self#_historyNext ())
with MatitaMisc.History_failure -> ()
(* loads a uri which can be a cic uri or an about:* uri
* @param uri string *)
method private _load ?(force=false) entry =
handle_error (fun () ->
if entry <> current_entry || entry = `About `Current_proof || entry =
`About `Coercions || entry = `About `CoercionsFull || force then
begin
(match entry with
| `About `Current_proof -> self#home ()
| `About `Blank -> self#blank ()
| `About `Us -> self#egg ()
| `About `CoercionsFull -> self#coerchgraph false ()
| `About `Coercions -> self#coerchgraph true ()
| `About `Hints -> self#hints ()
| `About `TeX -> self#tex ()
| `About `Grammar -> self#grammar ()
| `Check term -> self#_loadCheck term
| `Cic (term, metasenv) -> self#_loadTermCic term metasenv
| `NCic (term, ctx, metasenv, subst) ->
self#_loadTermNCic term metasenv subst ctx
| `Dir dir -> self#_loadDir dir
| `HBugs `Tutors -> self#_loadHBugsTutors
| `Metadata (`Deps ((`Fwd | `Back) as dir, uri)) ->
self#dependencies dir uri ()
| `Uri uri -> self#_loadUriManagerUri uri
| `NRef nref -> self#_loadNReference nref
| `Univs uri -> self#_loadUnivs uri
| `Whelp (query, results) ->
set_whelp_query query;
self#_loadList (List.map (fun r -> "obj",
UriManager.string_of_uri r) results));
self#setEntry entry
end)
method private blank () =
self#_showMath;
mathView#load_root (Lazy.force empty_mathml)#get_documentElement
method private _loadCheck term =
failwith "not implemented _loadCheck";
(* self#_showMath *)
method private egg () =
win#mathOrListNotebook#goto_page 2;
Lazy.force load_easter_egg
method private redraw_gviz ?center_on () =
if Sys.command "which dot" = 0 then
let tmpfile, oc = Filename.open_temp_file "matita" ".dot" in
let fmt = Format.formatter_of_out_channel oc in
MetadataDeps.DepGraph.render fmt gviz_graph;
close_out oc;
gviz#load_graph_from_file ~gviz_cmd:"tred | dot" tmpfile;
(match center_on with
| None -> ()
| Some uri -> gviz#center_on_href (UriManager.string_of_uri uri));
HExtlib.safe_remove tmpfile
else
MatitaGtkMisc.report_error ~title:"graphviz error"
~message:("Graphviz is not installed but is necessary to render "^
"the graph of dependencies amoung objects. Please install it.")
~parent:win#toplevel ()
method private dependencies direction uri () =
let dbd = LibraryDb.instance () in
let graph =
match direction with
| `Fwd -> MetadataDeps.DepGraph.direct_deps ~dbd uri
| `Back -> MetadataDeps.DepGraph.inverse_deps ~dbd uri in
gviz_graph <- graph; (** XXX check this for memory consuption *)
self#redraw_gviz ~center_on:uri ();
self#_showGviz
method private coerchgraph tred () =
load_coerchgraph tred ();
self#_showGviz
method private hints () =
load_hints ();
self#_showGviz
method private tex () =
let b = Buffer.create 1000 in
Printf.bprintf b "UTF-8 equivalence classes (rotate with ALT-L):\n\n";
List.iter
(fun l ->
List.iter (fun sym ->
Printf.bprintf b " %s" (Glib.Utf8.from_unichar sym)
) l;
Printf.bprintf b "\n";
)
(List.sort
(fun l1 l2 -> compare (List.hd l1) (List.hd l2))
(Virtuals.get_all_eqclass ()));
Printf.bprintf b "\n\nVirtual keys (trigger with ALT-L):\n\n";
List.iter
(fun tag, items ->
Printf.bprintf b " %s:\n" tag;
List.iter
(fun names, symbol ->
Printf.bprintf b " \t%s\t%s\n"
(Glib.Utf8.from_unichar symbol)
(String.concat ", " names))
(List.sort
(fun (_,a) (_,b) -> compare a b)
items);
Printf.bprintf b "\n")
(List.sort
(fun (a,_) (b,_) -> compare a b)
(Virtuals.get_all_virtuals ()));
self#_loadText (Buffer.contents b)
method private _loadText text =
searchText#source_buffer#set_text text;
win#entrySearch#misc#grab_focus ();
self#_showSearch
method private grammar () =
self#_loadText (Print_grammar.ebnf_of_term ());
method private home () =
self#_showMath;
match self#script#grafite_status#proof_status with
| Proof (uri, metasenv, _subst, bo, ty, attrs) ->
let name = UriManager.name_of_uri (HExtlib.unopt uri) in
let obj =
Cic.CurrentProof (name, metasenv, Lazy.force bo, ty, [], attrs)
in
self#_loadObj obj
| Incomplete_proof { proof = (uri, metasenv, _subst, bo, ty, attrs) } ->
let name = UriManager.name_of_uri (HExtlib.unopt uri) in
let obj =
Cic.CurrentProof (name, metasenv, Lazy.force bo, ty, [], attrs)
in
self#_loadObj obj
| _ ->
match self#script#grafite_status#ng_mode with
`ProofMode ->
self#_loadNObj self#script#grafite_status
self#script#grafite_status#obj
| _ -> self#blank ()
(** loads a cic uri from the environment
* @param uri UriManager.uri *)
method private _loadUriManagerUri uri =
let uri = UriManager.strip_xpointer uri in
let (obj, _) = CicEnvironment.get_obj CicUniv.empty_ugraph uri in
self#_loadObj obj
method private _loadNReference (NReference.Ref (uri,_)) =
let obj = NCicEnvironment.get_checked_obj uri in
self#_loadNObj self#script#grafite_status obj
method private _loadUnivs uri =
let uri = UriManager.strip_xpointer uri in
let (_, u) = CicEnvironment.get_obj CicUniv.empty_ugraph uri in
let _,us = CicUniv.do_rank u in
let l =
List.map
(fun u ->
[ CicUniv.string_of_universe u ; string_of_int (CicUniv.get_rank u)])
us
in
self#_loadList2 l
method private _loadDir dir =
let content = Http_getter.ls ~local:false dir in
let l =
List.fast_sort
Pervasives.compare
(List.map
(function
| Http_getter_types.Ls_section s -> "dir", s
| Http_getter_types.Ls_object o -> "obj", o.Http_getter_types.uri)
content)
in
lastDir <- dir;
self#_loadList l
method private _loadHBugsTutors =
self#_showHBugs
method private setEntry entry =
win#browserUri#set_text (MatitaTypes.string_of_entry entry);
current_entry <- entry
method private _loadObj obj =
(* showMath must be done _before_ loading the document, since if the
* widget is not mapped (hidden by the notebook) the document is not
* rendered *)
self#_showMath;
mathView#load_object obj
method private _loadNObj status obj =
(* showMath must be done _before_ loading the document, since if the
* widget is not mapped (hidden by the notebook) the document is not
* rendered *)
self#_showMath;
mathView#load_nobject status obj
method private _loadTermCic term metasenv =
let context = self#script#proofContext in
let dummyno = CicMkImplicit.new_meta metasenv [] in
let sequent = (dummyno, context, term) in
mathView#load_sequent (sequent :: metasenv) dummyno;
self#_showMath
method private _loadTermNCic term m s c =
let d = 0 in
let m = (0,([],c,term))::m in
let status = (MatitaScript.current ())#grafite_status in
mathView#nload_sequent status m s d;
self#_showMath
method private _loadList l =
model#list_store#clear ();
List.iter (fun (tag, s) -> model#easy_append ~tag s) l;
self#_showList
method private _loadList2 l =
model_univs#list_store#clear ();
List.iter model_univs#easy_mappend l;
self#_showList2
(** { public methods, all must call _load!! } *)
method load entry =
handle_error (fun () -> self#_load entry; self#_historyAdd entry)
(** this is what the browser does when you enter a string an hit enter *)
method loadInput txt =
let parse_metadata s =
let subs = Pcre.extract ~rex:metadata_RE s in
let uri = UriManager.uri_of_string ("cic:/" ^ subs.(3)) in
match subs.(1), subs.(2) with
| "deps", "forward" -> `Deps (`Fwd, uri)
| "deps", "backward" -> `Deps (`Back, uri)
| _ -> assert false
in
let txt = HExtlib.trim_blanks txt in
(* (* ZACK: what the heck? *)
let fix_uri txt =
UriManager.string_of_uri
(UriManager.strip_xpointer (UriManager.uri_of_string txt))
in
*)
if is_whelp txt then begin
set_whelp_query txt;
(MatitaScript.current ())#advance ~statement:(txt ^ ".") ()
end else begin
let entry =
match txt with
| txt when is_uri txt ->
`Uri (UriManager.uri_of_string ((*fix_uri*) txt))
| txt when is_dir txt -> `Dir (MatitaMisc.normalize_dir txt)
| txt when is_metadata txt -> `Metadata (parse_metadata txt)
| "hbugs:/tutors/" -> `HBugs `Tutors
| txt ->
(try
MatitaTypes.entry_of_string txt
with Invalid_argument _ ->
raise
(GrafiteTypes.Command_error(sprintf "unsupported uri: %s" txt)))
in
self#_load entry;
self#_historyAdd entry
end
(** {2 methods accessing underlying GtkMathView} *)
method updateFontSize = mathView#set_font_size !current_font_size
(** {2 methods used by constructor only} *)
method win = win
method history = history
method currentEntry = current_entry
method refresh ~force () = self#_load ~force current_entry
end
let sequentsViewer ~(notebook:GPack.notebook) ~(cicMathView:cicMathView) ():
MatitaGuiTypes.sequentsViewer
=
new sequentsViewer ~notebook ~cicMathView ()
let cicBrowser () =
let size = BuildTimeConf.browser_history_size in
let rec aux history =
let browser = new cicBrowser_impl ~history () in
let win = browser#win in
ignore (win#browserNewButton#connect#clicked (fun () ->
let history =
new MatitaMisc.browser_history ~memento:history#save size
(`About `Blank)
in
let newBrowser = aux history in
newBrowser#load browser#currentEntry));
(*
(* attempt (failed) to close windows on CTRL-W ... *)
MatitaGtkMisc.connect_key win#browserWinEventBox#event ~modifiers:[`CONTROL]
GdkKeysyms._W (fun () -> win#toplevel#destroy ());
*)
cicBrowsers := browser :: !cicBrowsers;
(browser :> MatitaGuiTypes.cicBrowser)
in
let history = new MatitaMisc.browser_history size (`About `Blank) in
aux history
let default_cicMathView () = cicMathView ~show:true ()
let cicMathView_instance = MatitaMisc.singleton default_cicMathView
let default_sequentsViewer () =
let gui = get_gui () in
let cicMathView = cicMathView_instance () in
sequentsViewer ~notebook:gui#main#sequentsNotebook ~cicMathView ()
let sequentsViewer_instance = MatitaMisc.singleton default_sequentsViewer
let mathViewer () =
object(self)
method private get_browser reuse =
if reuse then
(match !cicBrowsers with
| [] -> cicBrowser ()
| b :: _ -> (b :> MatitaGuiTypes.cicBrowser))
else
(cicBrowser ())
method show_entry ?(reuse=false) t = (self#get_browser reuse)#load t
method show_uri_list ?(reuse=false) ~entry l =
(self#get_browser reuse)#load entry
method screenshot status sequents metasenv subst (filename as ofn) =
let w = GWindow.window ~title:"screenshot" () in
let width = 500 in
let height = 2000 in
let m = GMathView.math_view
~font_size:!current_font_size ~width ~height
~packing:w#add
~show:true ()
in
w#show ();
let filenames =
HExtlib.list_mapi
(fun (mno,_ as sequent) i ->
let mathml =
ApplyTransformation.nmml_of_cic_sequent
status metasenv subst sequent
in
m#load_root ~root:mathml#get_documentElement;
let pixmap = m#get_buffer in
let pixbuf = GdkPixbuf.create ~width ~height () in
GdkPixbuf.get_from_drawable ~dest:pixbuf pixmap;
let filename =
filename ^ "-raw" ^ string_of_int i ^ ".png"
in
GdkPixbuf.save ~filename ~typ:"png" pixbuf;
filename,mno)
sequents
in
let items =
List.map (fun (x,mno) ->
ignore(Sys.command
(Printf.sprintf
("convert "^^
" '(' -gravity west -bordercolor grey -border 1 label:%d ')' "^^
" '(' -trim -bordercolor white -border 5 "^^
" -bordercolor grey -border 1 %s ')' -append %s ")
mno
(Filename.quote x)
(Filename.quote (x ^ ".label.png"))));
x ^ ".label.png")
filenames
in
let rec div2 = function
| [] -> []
| [x] -> [[x]]
| x::y::tl -> [x;y] :: div2 tl
in
let items = div2 items in
ignore(Sys.command (Printf.sprintf
"convert %s -append %s"
(String.concat ""
(List.map (fun items ->
Printf.sprintf " '(' %s +append ')' "
(String.concat
(" '(' -gravity center -size 10x10 xc: ')' ") items)) items))
(Filename.quote (ofn ^ ".png"))));
List.iter (fun x,_ -> Sys.remove x) filenames;
List.iter Sys.remove (List.flatten items);
w#destroy ();
end
let refresh_all_browsers () =
List.iter (fun b -> b#refresh ~force:false ()) !cicBrowsers
let update_font_sizes () =
List.iter (fun b -> b#updateFontSize) !cicBrowsers;
(cicMathView_instance ())#update_font_size
let get_math_views () =
((cicMathView_instance ()) :> MatitaGuiTypes.clickableMathView)
:: (List.map (fun b -> b#mathView) !cicBrowsers)
let find_selection_owner () =
let rec aux =
function
| [] -> raise Not_found
| mv :: tl ->
(match mv#get_selections with
| [] -> aux tl
| sel :: _ -> mv)
in
aux (get_math_views ())
let has_selection () =
try ignore (find_selection_owner ()); true
with Not_found -> false
let math_view_clipboard = ref None (* associative list target -> string *)
let has_clipboard () = !math_view_clipboard <> None
let empty_clipboard () = math_view_clipboard := None
let copy_selection () =
try
math_view_clipboard :=
Some ((find_selection_owner ())#strings_of_selection)
with Not_found -> failwith "no selection"
let paste_clipboard paste_kind =
match !math_view_clipboard with
| None -> failwith "empty clipboard"
| Some cb ->
(try List.assoc paste_kind cb with Not_found -> assert false)