1 (* Copyright (C) 2000-2002, HELM Team.
3 * This file is part of HELM, an Hypertextual, Electronic
4 * Library of Mathematics, developed at the Computer Science
5 * Department, University of Bologna, Italy.
7 * HELM is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License
9 * as published by the Free Software Foundation; either version 2
10 * of the License, or (at your option) any later version.
12 * HELM is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License
18 * along with HELM; if not, write to the Free Software
19 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
22 * For details, see the HELM World-Wide-Web page,
23 * http://cs.unibo.it/helm/.
26 (***************************************************************************)
30 (* Andrea Asperti <asperti@cs.unibo.it> *)
34 (***************************************************************************)
38 module UM = UriManager
41 module E = CicEnvironment
42 module TC = CicTypeChecker
44 module GE = GrafiteEngine
45 module LS = LibrarySync
46 module Ds = CicDischarge
47 module PO = ProceduralOptimizer
48 module N = CicNotationPt
50 let mpres_document pres_box =
51 Xml.add_xml_declaration (CicNotationPres.print_box pres_box)
53 let mml_of_cic_sequent metasenv sequent =
54 let unsh_sequent,(asequent,ids_to_terms,
55 ids_to_father_ids,ids_to_inner_sorts,ids_to_hypotheses)
57 Cic2acic.asequent_of_sequent metasenv sequent
59 let content_sequent = Acic2content.map_sequent asequent in
61 Sequent2pres.sequent2pres ~ids_to_inner_sorts content_sequent in
62 let xmlpres = mpres_document pres_sequent in
63 (Xml2Gdome.document_of_xml DomMisc.domImpl xmlpres,
66 (ids_to_terms,ids_to_father_ids,ids_to_hypotheses,ids_to_inner_sorts)))
68 let nmml_of_cic_sequent metasenv subst sequent =
69 let content_sequent,ids_to_refs =
70 NTermCicContent.nmap_sequent ~subst sequent in
72 Sequent2pres.nsequent2pres ids_to_refs subst content_sequent in
73 let xmlpres = mpres_document pres_sequent in
74 Xml2Gdome.document_of_xml DomMisc.domImpl xmlpres
76 let mml_of_cic_object obj =
77 let (annobj, ids_to_terms, ids_to_father_ids, ids_to_inner_sorts,
78 ids_to_inner_types, ids_to_conjectures, ids_to_hypotheses)
80 Cic2acic.acic_object_of_cic_object obj
83 Acic2content.annobj2content ~ids_to_inner_sorts ~ids_to_inner_types annobj
85 let pres = Content2pres.content2pres ~ids_to_inner_sorts content in
86 let xmlpres = mpres_document pres in
87 let mathml = Xml2Gdome.document_of_xml DomMisc.domImpl xmlpres in
89 (ids_to_terms, ids_to_father_ids, ids_to_conjectures, ids_to_hypotheses,
90 ids_to_inner_sorts,ids_to_inner_types)))
92 let nmml_of_cic_object obj =
93 let cobj,ids_to_nrefs = NTermCicContent.nmap_obj obj in
94 let pres_sequent = Content2pres.ncontent2pres ~ids_to_nrefs cobj in
95 let xmlpres = mpres_document pres_sequent in
96 Xml2Gdome.document_of_xml DomMisc.domImpl xmlpres
99 let txt_of_cic_sequent ~map_unicode_to_tex size metasenv sequent =
100 let unsh_sequent,(asequent,ids_to_terms,
101 ids_to_father_ids,ids_to_inner_sorts,ids_to_hypotheses)
103 Cic2acic.asequent_of_sequent metasenv sequent
105 let content_sequent = Acic2content.map_sequent asequent in
107 CicNotationPres.mpres_of_box
108 (Sequent2pres.sequent2pres ~ids_to_inner_sorts content_sequent)
110 BoxPp.render_to_string ~map_unicode_to_tex
111 (function x::_ -> x | _ -> assert false) size pres_sequent
113 let txt_of_cic_sequent_conclusion ~map_unicode_to_tex ~output_type size
115 let _,(asequent,_,_,ids_to_inner_sorts,_) =
116 Cic2acic.asequent_of_sequent metasenv sequent
118 let _,_,_,t = Acic2content.map_sequent asequent in
120 TermAcicContent.ast_of_acic ~output_type ids_to_inner_sorts t in
121 let t = TermContentPres.pp_ast t in
123 CicNotationPres.render ~lookup_uri:(CicNotationPres.lookup_uri ids_to_uris) t
125 BoxPp.render_to_string ~map_unicode_to_tex
126 (function x::_ -> x | _ -> assert false) size t
128 let txt_of_cic_term ~map_unicode_to_tex size metasenv context t =
129 let fake_sequent = (-1,context,t) in
130 txt_of_cic_sequent_conclusion ~map_unicode_to_tex ~output_type:`Term size
131 metasenv fake_sequent
135 CicMetaSubst.set_ppterm_in_context
136 (fun ~metasenv subst term context ->
138 let context' = CicMetaSubst.apply_subst_context subst context in
139 let metasenv = CicMetaSubst.apply_subst_metasenv subst metasenv in
140 let term' = CicMetaSubst.apply_subst subst term in
143 ~map_unicode_to_tex:(Helm_registry.get_bool "matita.paste_unicode_as_tex")
144 30 metasenv context' term' in
145 if String.contains res '\n' then
150 Sys.Break as exn -> raise exn
152 "[[ Exception raised during pretty-printing: " ^
154 Printexc.to_string exn
156 Sys.Break as exn -> raise exn
157 | _ -> "<<exception raised pretty-printing the exception>>"
159 (CicMetaSubst.use_low_level_ppterm_in_context := true;
162 CicMetaSubst.ppterm_in_context ~metasenv subst term context
164 CicMetaSubst.use_low_level_ppterm_in_context := false;
168 CicMetaSubst.use_low_level_ppterm_in_context := false;
172 (****************************************************************************)
173 (* txt_of_cic_object: IMPROVE ME *)
175 let remove_closed_substs s =
176 Pcre.replace ~pat:"{...}" ~templ:"" s
178 let term2pres ~map_unicode_to_tex n ids_to_inner_sorts annterm =
179 let ast, ids_to_uris =
180 TermAcicContent.ast_of_acic ~output_type:`Term ids_to_inner_sorts annterm in
182 CicNotationPres.box_of_mpres (
183 CicNotationPres.render ~prec:90
184 ~lookup_uri:(CicNotationPres.lookup_uri ids_to_uris)
185 (TermContentPres.pp_ast ast)) in
186 let render = function _::x::_ -> x | _ -> assert false in
187 let mpres = CicNotationPres.mpres_of_box bobj in
188 let s = BoxPp.render_to_string ~map_unicode_to_tex render n mpres in
189 remove_closed_substs s
191 let enable_notations = function
193 CicNotation.set_active_notations
194 (List.map fst (CicNotation.get_all_notations ()))
196 CicNotation.set_active_notations []
198 let txt_of_cic_object
199 ~map_unicode_to_tex ?skip_thm_and_qed ?skip_initial_lambdas n params obj
203 let aobj,_,_,ids_to_inner_sorts,ids_to_inner_types,_,_ =
204 Cic2acic.acic_object_of_cic_object obj
206 aobj, ids_to_inner_sorts, ids_to_inner_types
208 | E.Object_not_found uri ->
209 let msg = "txt_of_cic_object: object not found: " ^ UM.string_of_uri uri in
212 let msg = "txt_of_cic_object: " ^ Printexc.to_string e in
215 if List.mem G.IPProcedural params then begin
218 PO.critical := false;
219 Acic2Procedural.tex_formatter := Some Format.std_formatter;
220 let _ = ProceduralTeX.tex_of_obj Format.std_formatter obj in
222 let obj, info = PO.optimize_obj obj in
224 let _ = ProceduralTeX.tex_of_obj Format.std_formatter obj in
226 let aobj, ids_to_inner_sorts, ids_to_inner_types = get_aobj obj in
227 let term_pp = term2pres ~map_unicode_to_tex (n - 8) ids_to_inner_sorts in
228 let lazy_term_pp = term_pp in
229 let obj_pp = CicNotationPp.pp_obj term_pp in
231 GrafiteAstPp.pp_statement
232 ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp
235 | G.Executable (_, G.Command (_, G.Obj (_, N.Inductive _))) as stm
237 enable_notations false;
238 let str = stm_pp stm in
239 enable_notations true;
241 (* FG: we disable notation for Inductive to avoid recursive notation *)
242 | G.Executable (_, G.Tactic _) as stm ->
243 let hc = !Acic2content.hide_coercions in
244 Acic2content.hide_coercions := false;
245 let str = stm_pp stm in
246 Acic2content.hide_coercions := hc;
248 (* FG: we show coercion because the reconstruction is not aware of them *)
252 Acic2Procedural.procedural_of_acic_object
253 ~ids_to_inner_sorts ~ids_to_inner_types ~info params aobj
255 String.concat "" (List.map aux script) ^ "\n\n"
257 let aobj, ids_to_inner_sorts, ids_to_inner_types = get_aobj obj in
259 Acic2content.annobj2content ids_to_inner_sorts ids_to_inner_types aobj
262 Content2pres.content2pres
263 ?skip_initial_lambdas ?skip_thm_and_qed ~ids_to_inner_sorts cobj
265 remove_closed_substs (
266 BoxPp.render_to_string ~map_unicode_to_tex
267 (function _::x::_ -> x | _ -> assert false) n
268 (CicNotationPres.mpres_of_box bobj)
272 let cic_prefix = Str.regexp_string "cic:/"
273 let matita_prefix = Str.regexp_string "cic:/matita/"
274 let suffixes = [".ind"; "_rec.con"; "_rect.con"; "_ind.con"; ".con"]
277 let map s = String.length s, s, Str.regexp_string s, "_discharged" ^ s in
278 List.map map suffixes
280 let replacement (ok, u) (l, s, x, t) =
281 if ok then ok, u else
282 if Str.last_chars u l = s then true, Str.replace_first x t u else ok, u
284 let discharge_uri params uri =
286 if List.mem G.IPProcedural params then "cic:/matita/procedural/"
287 else "cic:/matita/declarative/"
289 let s = UM.string_of_uri uri in
290 if Str.string_match matita_prefix s 0 then uri else
291 let s = Str.replace_first cic_prefix template s in
292 let _, s = List.fold_left replacement (false, s) replacements in
295 let discharge_name s = s ^ "_discharged"
297 let txt_of_inline_uri ~map_unicode_to_tex params suri =
301 let print_exc = function
302 | ProofEngineHelpers.Bad_pattern s as e ->
303 Printexc.to_string e ^ " " ^ Lazy.force s
304 | e -> Printexc.to_string e
306 let dbd = LibraryDb.instance () in
307 let sorted_uris = MetadataDeps.sorted_uris_of_baseuri ~dbd suri in
311 "ERROR IN THE GENERATION OF %s\nEXCEPTION: %s"
312 (UM.string_of_uri uri) e
314 Printf.eprintf "%s\n" msg;
315 GrafiteTypes.command_error msg
318 Librarian.time_stamp "AT: BEGIN MAP";
320 (* FG: for now the explicit variables must be discharged *)
322 let r = txt_of_cic_object ~map_unicode_to_tex 78 params obj in
323 Librarian.time_stamp "AT: END MAP "; r
326 let s = UM.string_of_uri uri in
327 if Str.string_match matita_prefix s 0 then begin
328 Librarian.time_stamp "AT: GETTING OBJECT";
329 let obj, _ = E.get_obj Un.default_ugraph uri in
330 Librarian.time_stamp "AT: DONE ";
333 Ds.discharge_uri discharge_name (discharge_uri params) uri
335 if real then do_it obj else
336 let newuri = discharge_uri params uri in
337 let _lemmas = LS.add_obj ~pack_coercion_obj:CicRefine.pack_coercion_obj newuri obj in
340 | TC.TypeCheckerFailure s ->
341 error uri ("failure : " ^ Lazy.force s)
342 | TC.AssertFailure s ->
343 error uri ("assert : " ^ Lazy.force s)
344 | E.Object_not_found u ->
345 error uri ("not found: " ^ UM.string_of_uri u)
346 | e -> error uri (print_exc e)
348 String.concat "" (List.map map sorted_uris)
350 let txt_of_inline_macro ~map_unicode_to_tex params name =
352 if Librarian.is_uri name then name else
354 Helm_registry.get_list Helm_registry.string "matita.includes"
356 let _, baseuri, _, _ =
357 Librarian.baseuri_of_script ~include_paths name
361 txt_of_inline_uri ~map_unicode_to_tex params suri
363 (****************************************************************************)
364 (* procedural_txt_of_cic_term *)
366 let procedural_txt_of_cic_term ~map_unicode_to_tex n params context term =
367 let term, _info = PO.optimize_term context term in
368 let annterm, ids_to_inner_sorts, ids_to_inner_types =
369 try Cic2acic.acic_term_of_cic_term context term
371 let msg = "procedural_txt_of_cic_term: " ^ Printexc.to_string e in
374 let term_pp = term2pres ~map_unicode_to_tex (n - 8) ids_to_inner_sorts in
375 let lazy_term_pp = term_pp in
376 let obj_pp = CicNotationPp.pp_obj term_pp in
377 let aux = GrafiteAstPp.pp_statement
378 ~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp in
380 Acic2Procedural.procedural_of_acic_term
381 ~ids_to_inner_sorts ~ids_to_inner_types params context annterm
383 String.concat "" (List.map aux script)
386 (****************************************************************************)
388 let txt_of_macro ~map_unicode_to_tex metasenv context m =
389 GrafiteAstPp.pp_macro
390 ~term_pp:(txt_of_cic_term ~map_unicode_to_tex 80 metasenv context)
391 ~lazy_term_pp:(fun (f : Cic.lazy_term) ->
392 let t,metasenv,_ = f context metasenv CicUniv.empty_ugraph in
393 txt_of_cic_term ~map_unicode_to_tex 80 metasenv context t)