module Ds = CicDischarge
module PO = ProceduralOptimizer
module N = CicNotationPt
+module A2P = Acic2Procedural
let mpres_document pres_box =
Xml.add_xml_declaration (CicNotationPres.print_box pres_box)
(asequent,
(ids_to_terms,ids_to_father_ids,ids_to_hypotheses,ids_to_inner_sorts)))
-let nmml_of_cic_sequent metasenv subst sequent =
+let nmml_of_cic_sequent status metasenv subst sequent =
let content_sequent,ids_to_refs =
- NTermCicContent.nmap_sequent ~subst sequent in
+ NTermCicContent.nmap_sequent status ~metasenv ~subst sequent in
let pres_sequent =
Sequent2pres.nsequent2pres ids_to_refs subst content_sequent in
let xmlpres = mpres_document pres_sequent in
(ids_to_terms, ids_to_father_ids, ids_to_conjectures, ids_to_hypotheses,
ids_to_inner_sorts,ids_to_inner_types)))
-let nmml_of_cic_object obj =
- prerr_endline (NCicPp.ppobj obj);
- assert false
+let nmml_of_cic_object status obj =
+ let cobj,ids_to_nrefs = NTermCicContent.nmap_obj status obj in
+ let pres_sequent = Content2pres.ncontent2pres ~ids_to_nrefs cobj in
+ let xmlpres = mpres_document pres_sequent in
+ Xml2Gdome.document_of_xml DomMisc.domImpl xmlpres
;;
let txt_of_cic_sequent ~map_unicode_to_tex size metasenv sequent =
failwith msg
in
if List.mem G.IPProcedural params then begin
-(*
- PO.debug := true;
+
+ Procedural2.debug := A2P.is_debug 1 params;
+ PO.debug := A2P.is_debug 2 params;
+(*
PO.critical := false;
- Acic2Procedural.tex_formatter := Some Format.std_formatter;
+ A2P.tex_formatter := Some Format.std_formatter;
let _ = ProceduralTeX.tex_of_obj Format.std_formatter obj in
*)
let obj, info = PO.optimize_obj obj in
~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp
in
let aux = function
- | G.Executable (_, G.Command (_, G.Obj (_, N.Inductive _))) as stm
+ | G.Executable (_, G.Command (_, G.Obj (_, N.Inductive _)))
+ | G.Executable (_, G.Command (_, G.Obj (_, N.Record _))) as stm
->
+ let hc = !Acic2content.hide_coercions in
+ if List.mem G.IPCoercions params then
+ Acic2content.hide_coercions := false;
enable_notations false;
let str = stm_pp stm in
enable_notations true;
+ Acic2content.hide_coercions := hc;
str
-(* FG: we disable notation for Inductive to avoid recursive notation *)
+(* FG: we disable notation for inductive types to avoid recursive notation *)
| G.Executable (_, G.Tactic _) as stm ->
let hc = !Acic2content.hide_coercions in
Acic2content.hide_coercions := false;
Acic2content.hide_coercions := hc;
str
(* FG: we show coercion because the reconstruction is not aware of them *)
- | stm -> stm_pp stm
+ | stm ->
+ let hc = !Acic2content.hide_coercions in
+ if List.mem G.IPCoercions params then
+ Acic2content.hide_coercions := false;
+ let str = stm_pp stm in
+ Acic2content.hide_coercions := hc;
+ str
in
let script =
- Acic2Procedural.procedural_of_acic_object
+ A2P.procedural_of_acic_object
~ids_to_inner_sorts ~ids_to_inner_types ~info params aobj
in
String.concat "" (List.map aux script) ^ "\n\n"
let aux = GrafiteAstPp.pp_statement
~map_unicode_to_tex ~term_pp ~lazy_term_pp ~obj_pp in
let script =
- Acic2Procedural.procedural_of_acic_term
+ A2P.procedural_of_acic_term
~ids_to_inner_sorts ~ids_to_inner_types params context annterm
in
String.concat "" (List.map aux script)