let symbol_table = Hashtbl.create 503;;
(* eq *)
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic/eq.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic/eq.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
Appl
(Some aid, (Symbol (Some sid, "eq",
- None, Some "cic:/Coq/Init/Logic/eq.ind#(/1/0)"))
+ None, Some "cic:/Coq/Init/Logic/eq.ind"))
:: List.map acic2cexpr (List.tl args)));;
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic_Type/eqT.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic_Type/eqT.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
Appl
(Some aid, (Symbol (Some sid, "eq",
- None, Some "cic:/Coq/Init/Logic/eqT.ind#(/1/0)"))
+ None, Some "cic:/Coq/Init/Logic/eqT.ind"))
:: List.map acic2cexpr (List.tl args)));;
(* and *)
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic/and.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic/and.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
Appl
(Some aid, (Symbol (Some sid, "and",
- None, Some "cic:/Coq/Init/Logic/and.ind#(/1/0)"))
+ None, Some "cic:/Coq/Init/Logic/and.ind"))
:: List.map acic2cexpr args));;
(* or *)
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic/or.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic/or.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
Appl
(Some aid, (Symbol (Some sid, "or",
- None, Some "cic:/Coq/Init/Logic/or.ind#(/1/0)"))
+ None, Some "cic:/Coq/Init/Logic/or.ind"))
:: List.map acic2cexpr args));;
(* iff *)
:: List.map acic2cexpr args));;
(* exists *)
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic/ex.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic/ex.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
match (List.tl args) with
[Cic.ALambda (_,Cic.Name n,s,t)] ->
(Some aid, "Exists", (n,acic2cexpr s),acic2cexpr t)
| _ -> raise Not_found);;
-Hashtbl.add symbol_table "cic:/Coq/Init/Logic_Type/exT.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Logic_Type/exT.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
match (List.tl args) with
[Cic.ALambda (_,Cic.Name n,s,t)] ->
| _ -> raise Not_found);;
(* leq *)
-Hashtbl.add symbol_table "cic:/Coq/Init/Peano/le.ind#(/1/0)"
+Hashtbl.add symbol_table "cic:/Coq/Init/Peano/le.ind#xpointer(1/1)"
(fun aid sid args acic2cexpr ->
Appl
(Some aid, (Symbol (Some sid, "leq",
- None, Some "cic:/Coq/Init/Peano/le.ind#(/1/0)"))
+ None, Some "cic:/Coq/Init/Peano/le.ind"))
:: List.map acic2cexpr args));;
Hashtbl.add symbol_table "cic:/Coq/Reals/Rdefinitions/Rle.con"
) in
let (name,_,_,_) = List.nth inductive_types i in
let uri_str = UriManager.string_of_uri uri in
- let puri_str = (uri_str ^ "#(/1/" ^ (string_of_int i) ^ ")") in
+ let puri_str =
+ uri_str ^ "#xpointer(1/" ^ (string_of_int (i + 1)) ^ ")" in
(try
(let f = Hashtbl.find symbol_table puri_str in
f aid sid tl acic2cexpr)
with notfound ->
Appl (Some aid, Symbol (Some sid, name,
- make_subst subst, Some puri_str)::List.map acic2cexpr tl))
+ make_subst subst, Some uri_str)::List.map acic2cexpr tl))
| C.AAppl (id,li) ->
Appl (Some id, List.map acic2cexpr li)
| C.AConst (id,uri,subst) ->
) in
let (name,_,_,_) = List.nth inductive_types i in
let uri_str = UriManager.string_of_uri uri in
- let puri_str = (uri_str ^ "#(/1/" ^ (string_of_int i) ^ ")") in
- Symbol (Some id, name, make_subst subst, Some puri_str)
+ Symbol (Some id, name, make_subst subst, Some uri_str)
| C.AMutConstruct (id,uri,i,j,subst) ->
let constructors = get_constructors uri i in
let (name,_) = List.nth constructors (j-1) in
let uri_str = UriManager.string_of_uri uri in
- let puri_str = (uri_str ^ "#(/1/" ^ (string_of_int i) ^ "/" ^ (string_of_int j) ^ ")") in
- Symbol (Some id, name, make_subst subst, Some puri_str)
+ Symbol (Some id, name, make_subst subst, Some uri_str)
| C.AMutCase (id,uri,typeno,ty,te,patterns) ->
let constructors = get_constructors uri typeno in
let named_patterns =
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