| B.Text (attrs, t) -> B.Text (((Some "helm", "xref", id) :: attrs), t)
| _ -> assert false (* TODO, add_xref is meaningful for all boxes *)
-let rec justification ~ignore_atoms term2pres p =
+let rec justification ~for_rewriting_step ~ignore_atoms term2pres p =
if p.Con.proof_conclude.Con.conclude_method = "Exact" &&
ignore_atoms
then
make_args_for_apply term2pres p.Con.proof_conclude.Con.conclude_args
in
[B.H([],
- (B.b_kw "by")::B.b_space::
+ (if for_rewriting_step then (B.b_kw "exact") else (B.b_kw "by"))::
+ B.b_space::
B.Text([],"(")::pres_args@[B.Text([],")")])], None
else
- [B.H([],[B.b_kw "by"; B.b_space; B.b_kw "proof"])],
+ [B.H([],
+ if for_rewriting_step then
+ [B.b_kw "proof"]
+ else
+ [B.b_kw "by"; B.b_space; B.b_kw "proof"]
+ )],
Some (B.b_toggle [B.b_kw "proof";B.indent (proof2pres true term2pres p)])
and proof2pres ?skip_initial_lambdas is_top_down term2pres p =
|| conclude.Con.conclude_method = "RewriteRL" then
let justif1,justif2 =
(match (List.nth conclude.Con.conclude_args 6) with
- Con.ArgProof p -> justification ~ignore_atoms:true term2pres p
+ Con.ArgProof p ->
+ justification ~for_rewriting_step:true ~ignore_atoms:true
+ term2pres p
| _ -> assert false) in
let justif =
match justif2 with
| Some j -> [j]
in
let index_term1, index_term2 =
- if (conclude.Con.conclude_method = "RewriteLR" && is_top_down)
- || (conclude.Con.conclude_method = "RewriteRL" && not is_top_down)
- then 2,5 else 5,2
+ if conclude.Con.conclude_method = "RewriteLR" then 2,5 else 5,2
in
let term1 =
(match List.nth conclude.Con.conclude_args index_term1 with
B.V([], justif @ [B.b_kw "by _"])
else if conclude.Con.conclude_method = "Eq_chain" then
let justification p =
- let j1,j2 = justification ~ignore_atoms:false term2pres p in
+ let j1,j2 =
+ justification ~for_rewriting_step:true ~ignore_atoms:false term2pres p
+ in
j1, match j2 with Some j -> [j] | None -> []
in
let rec aux args =
(B.b_hv [Some "helm", "xref", id]
((B.b_toggle [
B.b_h [] [B.b_text [] "{...}"; B.b_space];
- B.b_hv [] (List.map
+ B.b_hv [] (HExtlib.list_concat ~sep:[B.b_text [] ";"; B.b_space]
+ (List.map (fun x -> [x])
+ (List.map
(function
| None ->
B.b_h []
(match dec_name with
None -> "_"
| Some n -> n));
- B.b_text [] ":";
+ B.b_text [] ":"; B.b_space;
term2pres ty ]
| Some (`Definition d) ->
let
None -> "_"
| Some n -> n)) ;
B.b_text [] (Utf8Macro.unicode_of_tex "\\Assign");
+ B.b_space;
term2pres bo]
| Some (`Proof p) ->
let proof_name = p.Content.proof_name in
None -> "_"
| Some n -> n)) ;
B.b_text [] (Utf8Macro.unicode_of_tex "\\Assign");
+ B.b_space;
proof2pres true term2pres p])
- (List.rev context)) ] ::
+ (List.rev context)))) ] ::
[ B.b_h []
- [ B.b_text [] (Utf8Macro.unicode_of_tex "\\vdash");
+ [ B.b_space;
+ B.b_text [] (Utf8Macro.unicode_of_tex "\\vdash");
+ B.b_space;
B.b_object (p_mi [] (string_of_int n)) ;
B.b_text [] ":" ;
+ B.b_space;
term2pres ty ]])))
let metasenv2pres term2pres = function
match kind with
| `Recursive _ -> "Recursive definition"
| `CoRecursive -> "CoRecursive definition"
- | `Inductive _ -> "Inductive definition"
- | `CoInductive _ -> "CoInductive definition"
+ | `Inductive i ->
+ "Inductive definition with "^string_of_int i^" fixed parameter(s)"
+ | `CoInductive i ->
+ "Co-Inductive definition with "^string_of_int i^" fixed parameter(s)"
in
B.b_h [] (B.b_kw kind :: params2pres params)
| `Inductive ind -> inductive2pres term2pres ind
| _ -> assert false (* ZACK or raise ToDo? *)
-let content2pres
+let content2pres0
?skip_initial_lambdas ?(skip_thm_and_qed=false) term2pres
(id,params,metasenv,obj)
=
let name = get_name decl.Content.dec_name in
B.b_v
[Some "helm","xref","id"]
- ([B.b_h [] (B.b_kw ("Axiom " ^ name) :: params2pres params);
+ ([B.b_h [] (B.b_kw ("axiom " ^ name) :: params2pres params);
B.b_kw "Type:";
B.indent (term2pres decl.Content.dec_type)] @
metasenv2pres term2pres metasenv)
let content2pres
?skip_initial_lambdas ?skip_thm_and_qed ~ids_to_inner_sorts
=
- content2pres ?skip_initial_lambdas ?skip_thm_and_qed
+ content2pres0 ?skip_initial_lambdas ?skip_thm_and_qed
(fun ?(prec=90) annterm ->
let ast, ids_to_uris =
- TermAcicContent.ast_of_acic ids_to_inner_sorts annterm
+ TermAcicContent.ast_of_acic ~output_type:`Term ids_to_inner_sorts annterm
in
CicNotationPres.box_of_mpres
- (CicNotationPres.render ids_to_uris ~prec
+ (CicNotationPres.render
+ ~lookup_uri:(CicNotationPres.lookup_uri ids_to_uris) ~prec
(TermContentPres.pp_ast ast)))
+
+let ncontent2pres0
+ ?skip_initial_lambdas ?(skip_thm_and_qed=false) term2pres
+ (id,params,metasenv,obj)
+=
+ match obj with
+ | `Def (Content.Const, thesis, `Proof p) ->
+ let name = get_name p.Content.proof_name in
+ let proof = proof2pres true term2pres ?skip_initial_lambdas p in
+ if skip_thm_and_qed then
+ proof
+ else
+ B.b_v
+ [Some "helm","xref","id"]
+ ([ B.b_h [] (B.b_kw ("ntheorem " ^ name) ::
+ params2pres params @ [B.b_kw ":"]);
+ B.H ([],[B.indent (term2pres thesis) ; B.b_kw "." ])] @
+ metasenv2pres term2pres metasenv @
+ [proof ; B.b_kw "qed."])
+ | `Def (_, ty, `Definition body) ->
+ let name = get_name body.Content.def_name in
+ B.b_v
+ [Some "helm","xref","id"]
+ ([B.b_h []
+ (B.b_kw ("ndefinition " ^ name) :: params2pres params @ [B.b_kw ":"]);
+ B.indent (term2pres ty)] @
+ metasenv2pres term2pres metasenv @
+ [B.b_kw ":=";
+ B.indent (term2pres body.Content.def_term);
+ B.b_kw "."])
+ | `Decl (_, `Declaration decl)
+ | `Decl (_, `Hypothesis decl) ->
+ let name = get_name decl.Content.dec_name in
+ B.b_v
+ [Some "helm","xref","id"]
+ ([B.b_h [] (B.b_kw ("naxiom " ^ name) :: params2pres params);
+ B.b_kw "Type:";
+ B.indent (term2pres decl.Content.dec_type)] @
+ metasenv2pres term2pres metasenv)
+ | `Joint joint ->
+ B.b_v []
+ (recursion_kind2pres params joint.Content.joint_kind
+ :: List.map (joint_def2pres term2pres) joint.Content.joint_defs)
+ | _ -> raise ToDo
+
+let ncontent2pres ?skip_initial_lambdas ?skip_thm_and_qed ~ids_to_nrefs =
+ let lookup_uri id =
+ try
+ let nref = Hashtbl.find ids_to_nrefs id in
+ Some (NReference.string_of_reference nref)
+ with Not_found -> None
+ in
+ ncontent2pres0 ?skip_initial_lambdas ?skip_thm_and_qed
+ (fun ?(prec=90) ast ->
+ CicNotationPres.box_of_mpres
+ (CicNotationPres.render ~lookup_uri ~prec (TermContentPres.pp_ast ast)))