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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i*)
open Names
open Libnames
open Decl_kinds
open Term
open Sign
open Evd
open Environ
open Nametab
open Mod_subst
open Errors
open Util
open Pp
open Libobject
open Nameops
(*i*)
let empty_name_table = (Refmap.empty : name list list Refmap.t)
let name_table = ref empty_name_table
let _ =
Summary.declare_summary "rename-arguments"
{ Summary.freeze_function = (fun () -> !name_table);
Summary.unfreeze_function = (fun r -> name_table := r);
Summary.init_function = (fun () -> name_table := empty_name_table) }
type req =
| ReqLocal
| ReqGlobal of global_reference * name list list
let load_rename_args _ (_, (_, (r, names))) =
name_table := Refmap.add r names !name_table
let cache_rename_args o = load_rename_args 1 o
let classify_rename_args = function
| ReqLocal, _ -> Dispose
| ReqGlobal _, _ as o -> Substitute o
let subst_rename_args (subst, (_, (r, names as orig))) =
ReqLocal,
let r' = fst (subst_global subst r) in
if r==r' then orig else (r', names)
let section_segment_of_reference = function
| ConstRef con -> Lib.section_segment_of_constant con
| IndRef (kn,_) | ConstructRef ((kn,_),_) ->
Lib.section_segment_of_mutual_inductive kn
| _ -> []
let discharge_rename_args = function
| _, (ReqGlobal (c, names), _) ->
let c' = pop_global_reference c in
let vars = section_segment_of_reference c in
let var_names = List.map (fun (id, _,_,_) -> Name id) vars in
let names' = List.map (fun l -> var_names @ l) names in
Some (ReqGlobal (c', names), (c', names'))
| _ -> None
let rebuild_rename_args x = x
let inRenameArgs = declare_object { (default_object "RENAME-ARGUMENTS" ) with
load_function = load_rename_args;
cache_function = cache_rename_args;
classify_function = classify_rename_args;
subst_function = subst_rename_args;
discharge_function = discharge_rename_args;
rebuild_function = rebuild_rename_args;
}
let rename_arguments local r names =
let req = if local then ReqLocal else ReqGlobal (r, names) in
Lib.add_anonymous_leaf (inRenameArgs (req, (r, names)))
let arguments_names r = Refmap.find r !name_table
let rec rename_prod c = function
| [] -> c
| (Name _ as n) :: tl ->
(match kind_of_type c with
| ProdType (_, s, t) -> mkProd (n, s, rename_prod t tl)
| _ -> c)
| _ :: tl ->
match kind_of_type c with
| ProdType (n, s, t) -> mkProd (n, s, rename_prod t tl)
| _ -> c
let rename_type ty ref =
try rename_prod ty (List.hd (arguments_names ref))
with Not_found -> ty
let rename_type_of_constant env c =
let ty = Typeops.type_of_constant env c in
rename_type ty (ConstRef c)
let rename_type_of_inductive env ind =
let ty = Inductiveops.type_of_inductive env ind in
rename_type ty (IndRef ind)
let rename_type_of_constructor env cstruct =
let ty = Inductiveops.type_of_constructor env cstruct in
rename_type ty (ConstructRef cstruct)
let rename_typing env c =
let j = Typeops.typing env c in
match kind_of_term c with
| Const c -> { j with uj_type = rename_type j.uj_type (ConstRef c) }
| Ind i -> { j with uj_type = rename_type j.uj_type (IndRef i) }
| Construct k -> { j with uj_type = rename_type j.uj_type (ConstructRef k) }
| _ -> j
|