module Ast = CicNotationPt
module NRef = NReference
+let debug_print s = prerr_endline (Lazy.force s);;
let debug_print _ = ();;
-(* let debug_print s = prerr_endline (Lazy.force s);; *)
+
+let reference_of_oxuri = ref (fun _ -> assert false);;
+let set_reference_of_oxuri f = reference_of_oxuri := f;;
let cic_name_of_name = function
| Ast.Ident (n, None) -> n
;;
let refine_obj
- ~rdb metasenv subst context _uri
+ ~rdb metasenv subst _context _uri
~use_coercions obj _ _ugraph ~localization_tbl
=
assert (metasenv=[]);
let localise t =
try NCicUntrusted.NCicHash.find localization_tbl t
with Not_found ->
- prerr_endline (NCicPp.ppterm ~metasenv ~subst ~context t);
(*assert false*)HExtlib.dummy_floc
in
try
NCicUntrusted.NCicHash.add localization_tbl res loc;
res
| CicNotationPt.AttributedTerm (_, term) -> aux ~localize loc context term
+ | CicNotationPt.Appl (CicNotationPt.Appl inner :: args) ->
+ aux ~localize loc context (CicNotationPt.Appl (inner @ args))
+ | CicNotationPt.Appl
+ (CicNotationPt.AttributedTerm (att,(CicNotationPt.Appl inner))::args)->
+ aux ~localize loc context
+ (CicNotationPt.AttributedTerm (att,CicNotationPt.Appl (inner @ args)))
| CicNotationPt.Appl (CicNotationPt.Symbol (symb, i) :: args) ->
let cic_args = List.map (aux ~localize loc context) args in
Disambiguate.resolve ~mk_choice ~env (Symbol (symb, i)) (`Args cic_args)
with Not_found ->
try NCic.Const (List.assoc name obj_context)
with Not_found ->
- Disambiguate.resolve ~env ~mk_choice (Id name) (`Args []))
+ Disambiguate.resolve ~env ~mk_choice (Id name) (`Args []))
| CicNotationPt.Uri (uri, subst) ->
assert (subst = None);
(try
- NCic.Const (OCic2NCic.reference_of_oxuri(UriManager.uri_of_string uri))
+ NCic.Const (!reference_of_oxuri(UriManager.uri_of_string uri))
with NRef.IllFormedReference _ ->
CicNotationPt.fail loc "Ill formed reference")
| CicNotationPt.NRef nref -> NCic.Const nref
+ | CicNotationPt.NCic t ->
+ let context = (* to make metas_of_term happy *)
+ List.map (fun x -> x,NCic.Decl (NCic.Implicit `Type)) context in
+ assert(NCicUntrusted.metas_of_term [] context t = []); t
| CicNotationPt.Implicit `Vector -> NCic.Implicit `Vector
| CicNotationPt.Implicit `JustOne -> NCic.Implicit `Term
+ | CicNotationPt.Implicit (`Tagged s) -> NCic.Implicit (`Tagged s)
| CicNotationPt.UserInput -> NCic.Implicit `Hole
| CicNotationPt.Num (num, i) ->
Disambiguate.resolve ~env ~mk_choice (Num i) (`Num_arg num)
NCic.Meta (index, (0, NCic.Ctx cic_subst))
| CicNotationPt.Sort `Prop -> NCic.Sort NCic.Prop
| CicNotationPt.Sort `Set -> NCic.Sort (NCic.Type
- [false,NUri.uri_of_string "cic:/matita/pts/Type.univ"])
+ [`Type,NUri.uri_of_string "cic:/matita/pts/Type.univ"])
| CicNotationPt.Sort (`Type _u) -> NCic.Sort (NCic.Type
- [false,NUri.uri_of_string "cic:/matita/pts/Type0.univ"])
+ [`Type,NUri.uri_of_string "cic:/matita/pts/Type0.univ"])
| CicNotationPt.Sort (`NType s) -> NCic.Sort (NCic.Type
- [false,NUri.uri_of_string ("cic:/matita/pts/Type" ^ s ^ ".univ")])
+ [`Type,NUri.uri_of_string ("cic:/matita/pts/Type" ^ s ^ ".univ")])
| CicNotationPt.Sort (`NCProp s) -> NCic.Sort (NCic.Type
- [false,NUri.uri_of_string ("cic:/matita/pts/CProp" ^ s ^ ".univ")])
+ [`CProp,NUri.uri_of_string ("cic:/matita/pts/Type" ^ s ^ ".univ")])
| CicNotationPt.Sort (`CProp _u) -> NCic.Sort (NCic.Type
- [false,NUri.uri_of_string "cic:/matita/pts/CProp0.univ"])
+ [`CProp,NUri.uri_of_string "cic:/matita/pts/Type.univ"])
| CicNotationPt.Symbol (symbol, instance) ->
Disambiguate.resolve ~env ~mk_choice
(Symbol (symbol, instance)) (`Args [])
interpretate_term_option ~mk_choice ~localization_tbl ~obj_context in
let uri = match uri with | None -> assert false | Some u -> u in
match obj with
- | CicNotationPt.Theorem (flavour, name, ty, bo) ->
+ | CicNotationPt.Theorem (flavour, name, ty, bo, pragma) ->
let ty' =
interpretate_term
~obj_context:[] ~context:[] ~env ~uri:None ~is_path:false ty
uri, height, [], [],
(match bo,flavour with
| None,`Axiom ->
- let attrs = `Provided, new_flavour_of_flavour flavour, `Regular in
+ let attrs = `Provided, new_flavour_of_flavour flavour, pragma in
NCic.Constant ([],name,None,ty',attrs)
| Some _,`Axiom -> assert false
| None,_ ->
- let attrs = `Provided, new_flavour_of_flavour flavour, `Regular in
+ let attrs = `Provided, new_flavour_of_flavour flavour, pragma in
NCic.Constant ([],name,Some (NCic.Implicit `Term),ty',attrs)
| Some bo,_ ->
(match bo with
([],ncic_name_of_ident name, decr_idx, cic_type, cic_body))
defs
in
- let attrs = `Provided, new_flavour_of_flavour flavour in
+ let attrs = `Provided, new_flavour_of_flavour flavour, pragma in
NCic.Fixpoint (inductive,inductiveFuns,attrs)
| bo ->
let bo =
interpretate_term
~obj_context:[] ~context:[] ~env ~uri:None ~is_path:false bo
in
- let attrs = `Provided, new_flavour_of_flavour flavour, `Regular in
+ let attrs = `Provided, new_flavour_of_flavour flavour, pragma in
NCic.Constant ([],name,Some bo,ty',attrs)))
| CicNotationPt.Inductive (params,tyl) ->
let context,params =
let add_params =
List.fold_right (fun (name,ty) t -> NCic.Prod (name,ty,t)) params in
let leftno = List.length params in
+ let _,inductive,_,_ = try List.hd tyl with Failure _ -> assert false in
let obj_context =
snd (
List.fold_left
(fun (i,res) (name,_,_,_) ->
- let _,inductive,_,_ =
- (* ??? *)
- try List.hd tyl with Failure _ -> assert false in
let nref =
NReference.reference_of_spec uri (NReference.Ind (inductive,i,leftno))
in
let height = (* XXX calculate *) 0 in
let attrs = `Provided, `Regular in
uri, height, [], [],
- NCic.Inductive (true,leftno,tyl,attrs)
+ NCic.Inductive (inductive,leftno,tyl,attrs)
| CicNotationPt.Record (params,name,ty,fields) ->
let context,params =
let context,res =