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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id$ i*)
open Pp
open Util
open Names
open Nameops
open Term
open Mod_subst
(*s Global reference is a kernel side type for all references together *)
type global_reference =
| VarRef of variable
| ConstRef of constant
| IndRef of inductive
| ConstructRef of constructor
let isVarRef = function VarRef _ -> true | _ -> false
let subst_global subst ref = match ref with
| VarRef var -> ref, mkVar var
| ConstRef kn ->
let kn',t = subst_con subst kn in
if kn==kn' then ref, mkConst kn else ConstRef kn', t
| IndRef (kn,i) ->
let kn' = subst_kn subst kn in
if kn==kn' then ref, mkInd (kn,i) else IndRef(kn',i), mkInd (kn',i)
| ConstructRef ((kn,i),j) ->
let kn' = subst_kn subst kn in
if kn==kn' then ref, mkConstruct ((kn,i),j)
else ConstructRef ((kn',i),j), mkConstruct ((kn',i),j)
let global_of_constr c = match kind_of_term c with
| Const sp -> ConstRef sp
| Ind ind_sp -> IndRef ind_sp
| Construct cstr_cp -> ConstructRef cstr_cp
| Var id -> VarRef id
| _ -> raise Not_found
let constr_of_global = function
| VarRef id -> mkVar id
| ConstRef sp -> mkConst sp
| ConstructRef sp -> mkConstruct sp
| IndRef sp -> mkInd sp
let constr_of_reference = constr_of_global
let reference_of_constr = global_of_constr
module RefOrdered =
struct
type t = global_reference
let compare = Pervasives.compare
end
module Refset = Set.Make(RefOrdered)
module Refmap = Map.Make(RefOrdered)
let inductives_table = ref Indmap.empty
(**********************************************)
let pr_dirpath sl = (str (string_of_dirpath sl))
(*s Operations on dirpaths *)
(* Pop the last n module idents *)
let extract_dirpath_prefix n dir =
make_dirpath (list_skipn n (repr_dirpath dir))
let dirpath_prefix p = match repr_dirpath p with
| [] -> anomaly "dirpath_prefix: empty dirpath"
| _::l -> make_dirpath l
let is_dirpath_prefix_of d1 d2 =
list_prefix_of (List.rev (repr_dirpath d1)) (List.rev (repr_dirpath d2))
let chop_dirpath n d =
let d1,d2 = list_chop n (List.rev (repr_dirpath d)) in
make_dirpath (List.rev d1), make_dirpath (List.rev d2)
let drop_dirpath_prefix d1 d2 =
let d = Util.list_drop_prefix (List.rev (repr_dirpath d1)) (List.rev (repr_dirpath d2)) in
make_dirpath (List.rev d)
let append_dirpath d1 d2 = make_dirpath (repr_dirpath d2 @ repr_dirpath d1)
(* To know how qualified a name should be to be understood in the current env*)
let add_dirpath_prefix id d = make_dirpath (repr_dirpath d @ [id])
let split_dirpath d =
let l = repr_dirpath d in (make_dirpath (List.tl l), List.hd l)
let extend_dirpath p id = make_dirpath (id :: repr_dirpath p)
(*
let path_of_constructor env ((sp,tyi),ind) =
let mib = Environ.lookup_mind sp env in
let mip = mib.mind_packets.(tyi) in
let (pa,_) = repr_path sp in
Names.make_path pa (mip.mind_consnames.(ind-1))
let path_of_inductive env (sp,tyi) =
if tyi = 0 then sp
else
let mib = Environ.lookup_mind sp env in
let mip = mib.mind_packets.(tyi) in
let (pa,_) = repr_path sp in
Names.make_path pa (mip.mind_typename)
*)
(* parsing *)
let parse_dir s =
let len = String.length s in
let rec decoupe_dirs dirs n =
if n>=len then dirs else
let pos =
try
String.index_from s n '.'
with Not_found -> len
in
let dir = String.sub s n (pos-n) in
decoupe_dirs ((id_of_string dir)::dirs) (pos+1)
in
decoupe_dirs [] 0
let dirpath_of_string s =
match parse_dir s with
[] -> invalid_arg "dirpath_of_string"
| dir -> make_dirpath dir
module Dirset = Set.Make(struct type t = dir_path let compare = compare end)
module Dirmap = Map.Make(struct type t = dir_path let compare = compare end)
(*s Section paths are absolute names *)
type section_path = {
dirpath : dir_path ;
basename : identifier }
let make_path pa id = { dirpath = pa; basename = id }
let repr_path { dirpath = pa; basename = id } = (pa,id)
(* parsing and printing of section paths *)
let string_of_path sp =
let (sl,id) = repr_path sp in
if repr_dirpath sl = [] then string_of_id id
else (string_of_dirpath sl) ^ "." ^ (string_of_id id)
let sp_ord sp1 sp2 =
let (p1,id1) = repr_path sp1
and (p2,id2) = repr_path sp2 in
let p_bit = compare p1 p2 in
if p_bit = 0 then id_ord id1 id2 else p_bit
module SpOrdered =
struct
type t = section_path
let compare = sp_ord
end
module Spset = Set.Make(SpOrdered)
module Sppred = Predicate.Make(SpOrdered)
module Spmap = Map.Make(SpOrdered)
let dirpath sp = let (p,_) = repr_path sp in p
let basename sp = let (_,id) = repr_path sp in id
let path_of_string s =
try
let dir, id = split_dirpath (dirpath_of_string s) in
make_path dir id
with
| Invalid_argument _ -> invalid_arg "path_of_string"
let pr_sp sp = str (string_of_path sp)
let restrict_path n sp =
let dir, s = repr_path sp in
let dir' = list_firstn n (repr_dirpath dir) in
make_path (make_dirpath dir') s
type extended_global_reference =
| TrueGlobal of global_reference
| SyntacticDef of kernel_name
let encode_kn dir id = make_kn (MPfile dir) empty_dirpath (label_of_id id)
let encode_con dir id = make_con (MPfile dir) empty_dirpath (label_of_id id)
let decode_kn kn =
let mp,sec_dir,l = repr_kn kn in
match mp,(repr_dirpath sec_dir) with
MPfile dir,[] -> (dir,id_of_label l)
| _ , [] -> anomaly "MPfile expected!"
| _ -> anomaly "Section part should be empty!"
let decode_con kn =
let mp,sec_dir,l = repr_con kn in
match mp,(repr_dirpath sec_dir) with
MPfile dir,[] -> (dir,id_of_label l)
| _ , [] -> anomaly "MPfile expected!"
| _ -> anomaly "Section part should be empty!"
(*s qualified names *)
type qualid = section_path
let make_qualid = make_path
let repr_qualid = repr_path
let string_of_qualid = string_of_path
let pr_qualid = pr_sp
let qualid_of_string = path_of_string
let qualid_of_sp sp = sp
let make_short_qualid id = make_qualid empty_dirpath id
let qualid_of_dirpath dir =
let (l,a) = split_dirpath dir in
make_qualid l a
type object_name = section_path * kernel_name
type object_prefix = dir_path * (module_path * dir_path)
let make_oname (dirpath,(mp,dir)) id =
make_path dirpath id, make_kn mp dir (label_of_id id)
(* to this type are mapped dir_path's in the nametab *)
type global_dir_reference =
| DirOpenModule of object_prefix
| DirOpenModtype of object_prefix
| DirOpenSection of object_prefix
| DirModule of object_prefix
| DirClosedSection of dir_path
(* this won't last long I hope! *)
(* | ModRef mp ->
let mp' = subst_modpath subst mp in if mp==mp' then ref else
ModRef mp'
| ModTypeRef kn ->
let kn' = subst_kernel_name subst kn in if kn==kn' then ref else
ModTypeRef kn'
*)
type reference =
| Qualid of qualid located
| Ident of identifier located
let qualid_of_reference = function
| Qualid (loc,qid) -> loc, qid
| Ident (loc,id) -> loc, make_short_qualid id
let string_of_reference = function
| Qualid (loc,qid) -> string_of_qualid qid
| Ident (loc,id) -> string_of_id id
let pr_reference = function
| Qualid (_,qid) -> pr_qualid qid
| Ident (_,id) -> pr_id id
let loc_of_reference = function
| Qualid (loc,qid) -> loc
| Ident (loc,id) -> loc
(* popping one level of section in global names *)
let pop_con con =
let (mp,dir,l) = repr_con con in
Names.make_con mp (dirpath_prefix dir) l
let pop_kn kn =
let (mp,dir,l) = repr_kn kn in
Names.make_kn mp (dirpath_prefix dir) l
let pop_global_reference = function
| ConstRef con -> ConstRef (pop_con con)
| IndRef (kn,i) -> IndRef (pop_kn kn,i)
| ConstructRef ((kn,i),j) -> ConstructRef ((pop_kn kn,i),j)
| VarRef id -> anomaly "VarRef not poppable"
|