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|
(***********************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA-Rocquencourt & LRI-CNRS-Orsay *)
(* \VV/ *************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(***********************************************************************)
(* $Id$ *)
open Util
open Names
open Declarations
open Environ
open Term
(* Identifiers *)
let wildcard = id_of_string "_"
(* Utilities *)
let code_of_0 = Char.code '0'
let code_of_9 = Char.code '9'
let cut_ident s =
let s = string_of_id s in
let slen = String.length s in
(* [n'] is the position of the first non nullary digit *)
let rec numpart n n' =
if n = 0 then
failwith
("The string " ^ s ^ " is not an identifier: it contains only digits")
else
let c = Char.code (String.get s (n-1)) in
if c = code_of_0 && n <> slen then
numpart (n-1) n'
else if code_of_0 <= c && c <= code_of_9 then
numpart (n-1) (n-1)
else
n'
in
numpart slen slen
let repr_ident s =
let numstart = cut_ident s in
let s = string_of_id s in
let slen = String.length s in
if numstart = slen then
(s, None)
else
(String.sub s 0 numstart,
Some (int_of_string (String.sub s numstart (slen - numstart))))
let make_ident sa = function
| Some n ->
let c = Char.code (String.get sa (String.length sa -1)) in
let s =
if c < code_of_0 or c > code_of_9 then sa ^ (string_of_int n)
else sa ^ "_" ^ (string_of_int n) in
id_of_string s
| None -> id_of_string (String.copy sa)
(* Rem: semantics is a bit different, if an ident starts with toto00 then
after successive renamings it comes to toto09, then it goes on with toto10 *)
let lift_subscript id =
let id = string_of_id id in
let len = String.length id in
let rec add carrypos =
let c = id.[carrypos] in
if is_digit c then
if c = '9' then begin
assert (carrypos>0);
add (carrypos-1)
end
else begin
let newid = String.copy id in
String.fill newid (carrypos+1) (len-1-carrypos) '0';
newid.[carrypos] <- Char.chr (Char.code c + 1);
newid
end
else begin
let newid = id^"0" in
if carrypos < len-1 then begin
String.fill newid (carrypos+1) (len-1-carrypos) '0';
newid.[carrypos+1] <- '1'
end;
newid
end
in id_of_string (add (len-1))
let has_subscript id =
let id = string_of_id id in
is_digit (id.[String.length id - 1])
let forget_subscript id =
let numstart = cut_ident id in
let newid = String.make (numstart+1) '0' in
String.blit (string_of_id id) 0 newid 0 numstart;
(id_of_string newid)
let add_suffix id s = id_of_string (string_of_id id ^ s)
let add_prefix s id = id_of_string (s ^ string_of_id id)
let atompart_of_id id = fst (repr_ident id)
(* Fresh names *)
let lift_ident = lift_subscript
let next_ident_away id avoid =
if List.mem id avoid then
let id0 = if not (has_subscript id) then id else
(* Ce serait sans doute mieux avec quelque chose inspiré de
*** make_ident id (Some 0) *** mais ça brise la compatibilité... *)
forget_subscript id in
let rec name_rec id =
if List.mem id avoid then name_rec (lift_ident id) else id in
name_rec id0
else id
let next_ident_away_from id avoid =
let rec name_rec id =
if List.mem id avoid then name_rec (lift_ident id) else id in
name_rec id
(* Names *)
let out_name = function
| Name id -> id
| Anonymous -> anomaly "out_name: expects a defined name"
let next_name_away_with_default default name l =
match name with
| Name str -> next_ident_away str l
| Anonymous -> next_ident_away (id_of_string default) l
let next_name_away name l =
match name with
| Name str -> next_ident_away str l
| Anonymous -> id_of_string "_"
(**********************************************)
(* Operations on dirpaths *)
let empty_dirpath = make_dirpath []
let default_module_name = id_of_string "Top"
let default_module = make_dirpath [default_module_name]
(*s Roots of the space of absolute names *)
let coq_root = id_of_string "Coq"
let default_root_prefix = make_dirpath []
let restrict_path n sp =
let dir, s = repr_path sp in
let (dir',_) = list_chop n (repr_dirpath dir) in
Names.make_path (make_dirpath dir') s
(* Pop the last n module idents *)
let extract_dirpath_prefix n dir =
let (_,dir') = list_chop n (repr_dirpath dir) in
make_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))
(* 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)
(* Section paths *)
let dirpath sp = let (p,_) = repr_path sp in p
let basename sp = let (_,id) = repr_path sp in id
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_sp s =
let len = String.length s in
let rec decoupe_dirs n =
try
let pos = String.index_from s n '.' in
let dir = String.sub s n (pos-n) in
let dirs,n' = decoupe_dirs (succ pos) in
(id_of_string dir)::dirs,n'
with
| Not_found -> [],n
in
if len = 0 then invalid_arg "parse_section_path";
let dirs,n = decoupe_dirs 0 in
let id = String.sub s n (len-n) in
make_dirpath (List.rev dirs), (id_of_string id)
let dirpath_of_string s =
try
let sl,s = parse_sp s in
extend_dirpath sl s
with
| Invalid_argument _ -> invalid_arg "dirpath_of_string"
let path_of_string s =
try
let sl,s = parse_sp s in
make_path sl s
with
| Invalid_argument _ -> invalid_arg "path_of_string"
|