(* no idea why ocaml wants this *)
let parsed_text_length = String.length parsed_text in
let dbd = LibraryDb.instance () in
- let pp_macro =
- let f t = ProofEngineReduction.replace
- ~equality:(fun _ t -> match t with Cic.Meta _ -> true | _ -> false)
- ~what:[()] ~with_what:[Cic.Implicit None] ~where:t
- in
- let metasenv = GrafiteTypes.get_proof_metasenv grafite_status in
- TAPp.pp_macro
- ~term_pp:(fun x ->
- ApplyTransformation.txt_of_cic_term max_int metasenv [] (f x)
- ~map_unicode_to_tex:(Helm_registry.get_bool
- "matita.paste_unicode_as_tex"))
- in
+ let pp_macro = ApplyTransformation.txt_of_macro ~map_unicode_to_tex:true in
match mac with
(* WHELP's stuff *)
| TA.WMatch (loc, term) ->
let l = Whelp.match_term ~dbd term in
- let entry = `Whelp (pp_macro mac, l) in
+ let entry = `Whelp (pp_macro [] [] mac, l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
| TA.WInstance (loc, term) ->
let l = Whelp.instance ~dbd term in
- let entry = `Whelp (pp_macro mac, l) in
+ let entry = `Whelp (pp_macro [] [] mac, l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
| TA.WLocate (loc, s) ->
let l = Whelp.locate ~dbd s in
- let entry = `Whelp (pp_macro mac, l) in
+ let entry = `Whelp (pp_macro [] [] mac, l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
| TA.WElim (loc, term) ->
| _ -> failwith "Not a MutInd"
in
let l = Whelp.elim ~dbd uri in
- let entry = `Whelp (pp_macro mac, l) in
+ let entry = `Whelp (pp_macro [] [] mac, l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
| TA.WHint (loc, term) ->
let _subst = [] in
let s = ((None,[0,[],term], _subst, lazy (Cic.Meta (0,[])) ,term, []),0) in
let l = List.map fst (MQ.experimental_hint ~dbd s) in
- let entry = `Whelp (pp_macro mac, l) in
+ let entry = `Whelp (pp_macro [] [] mac, l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
(* REAL macro *)
if rewrite then
let l = MQ.equations_for_goal ~dbd proof_status in
let l = List.filter (fun u -> not (LibraryObjects.in_eq_URIs u)) l in
- let entry = `Whelp (pp_macro (TA.WHint(loc, Cic.Implicit None)), l) in
+ let entry =
+ `Whelp (pp_macro [] [] (TA.WHint(loc, Cic.Implicit None)), l) in
guistuff.mathviewer#show_uri_list ~reuse:true ~entry l;
[], "", parsed_text_length
else
fun u -> HLog.error (UriManager.string_of_uri u ^ "\n")
) selected;
assert false)
+ | TA.Eval (_, kind, term) ->
+ let metasenv = GrafiteTypes.get_proof_metasenv grafite_status in
+ let context =
+ match user_goal with
+ None -> []
+ | Some n -> GrafiteTypes.get_proof_context grafite_status n in
+ let ty,_ = CTC.type_of_aux' metasenv context term CicUniv.empty_ugraph in
+ let term =
+ match kind with
+ | `Normalize ->
+ CicReduction.normalize ~delta:true ~subst:[] context term
+ | `Simpl ->
+ ProofEngineReduction.simpl context term
+ | `Unfold None ->
+ ProofEngineReduction.unfold ?what:None context term
+ | `Unfold (Some lazy_term) ->
+ let what, _, _ =
+ lazy_term context metasenv CicUniv.empty_ugraph in
+ ProofEngineReduction.unfold ~what context term
+ | `Whd ->
+ CicReduction.whd ~delta:true ~subst:[] context term
+ in
+ let t_and_ty = Cic.Cast (term,ty) in
+ guistuff.mathviewer#show_entry (`Cic (t_and_ty,metasenv));
+ [({grafite_status with proof_status = No_proof},lexicon_status), parsed_text ],"",
+ parsed_text_length
| TA.Check (_,term) ->
let metasenv = GrafiteTypes.get_proof_metasenv grafite_status in
let context =