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(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017 *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (************************************************************************) open Util open Names (* Identifiers *) let pr_id id = Id.print id (* Utilities *) let code_of_0 = Char.code '0' let code_of_9 = Char.code '9' let cut_ident skip_quote s = let s = Id.to_string s in let slen = String.length s in (* [n'] is the position of the first non nullary digit *) let rec numpart n n' = if Int.equal n 0 then (* ident made of _ and digits only [and ' if skip_quote]: don't cut it *) slen else let c = Char.code (String.get s (n-1)) in if Int.equal c code_of_0 && not (Int.equal n slen) then numpart (n-1) n' else if code_of_0 <= c && c <= code_of_9 then numpart (n-1) (n-1) else if skip_quote && (Int.equal c (Char.code '\'') || Int.equal c (Char.code '_')) then numpart (n-1) (n-1) else n' in numpart slen slen let repr_ident s = let numstart = cut_ident false s in let s = Id.to_string s in let slen = String.length s in if Int.equal 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 || 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 sa let root_of_id id = let suffixstart = cut_ident true id in Id.of_string (String.sub (Id.to_string id) 0 suffixstart) (* Return the same identifier as the original one but whose {i subscript} is incremented. If the original identifier does not have a suffix, [0] is appended to it. Example mappings: [bar] ↦ [bar0] [bar0] ↦ [bar1] [bar00] ↦ [bar01] [bar1] ↦ [bar2] [bar01] ↦ [bar01] [bar9] ↦ [bar10] [bar09] ↦ [bar10] [bar99] ↦ [bar100] *) let increment_subscript id = let id = Id.to_string id in let len = String.length id in let rec add carrypos = let c = id.[carrypos] in if is_digit c then if Int.equal (Char.code c) (Char.code '9') then begin assert (carrypos>0); add (carrypos-1) end else begin let newid = Bytes.of_string id in Bytes.fill newid (carrypos+1) (len-1-carrypos) '0'; Bytes.set newid carrypos (Char.chr (Char.code c + 1)); newid end else begin let newid = Bytes.of_string (id^"0") in if carrypos < len-1 then begin Bytes.fill newid (carrypos+1) (len-1-carrypos) '0'; Bytes.set newid (carrypos+1) '1' end; newid end in Id.of_bytes (add (len-1)) let has_subscript id = let id = Id.to_string id in is_digit (id.[String.length id - 1]) let forget_subscript id = let numstart = cut_ident false id in let newid = Bytes.make (numstart+1) '0' in String.blit (Id.to_string id) 0 newid 0 numstart; (Id.of_bytes newid) let add_suffix id s = Id.of_string (Id.to_string id ^ s) let add_prefix s id = Id.of_string (s ^ Id.to_string id) let atompart_of_id id = fst (repr_ident id) (* Names *) module type ExtName = sig include module type of struct include Names.Name end exception IsAnonymous val fold_left : ('a -> Id.t -> 'a) -> 'a -> t -> 'a val fold_right : (Id.t -> 'a -> 'a) -> t -> 'a -> 'a val iter : (Id.t -> unit) -> t -> unit val map : (Id.t -> Id.t) -> t -> t val fold_left_map : ('a -> Id.t -> 'a * Id.t) -> 'a -> t -> 'a * t val fold_right_map : (Id.t -> 'a -> Id.t * 'a) -> Name.t -> 'a -> Name.t * 'a val get_id : t -> Id.t val pick : t -> t -> t val cons : t -> Id.t list -> Id.t list val to_option : Name.t -> Id.t option end module Name : ExtName = struct include Names.Name exception IsAnonymous let fold_left f a = function | Name id -> f a id | Anonymous -> a let fold_right f na a = match na with | Name id -> f id a | Anonymous -> a let iter f na = fold_right (fun x () -> f x) na () let map f = function | Name id -> Name (f id) | Anonymous -> Anonymous let fold_left_map f a = function | Name id -> let (a, id) = f a id in (a, Name id) | Anonymous -> a, Anonymous let fold_right_map f na a = match na with | Name id -> let (id, a) = f id a in (Name id, a) | Anonymous -> Anonymous, a let get_id = function | Name id -> id | Anonymous -> raise IsAnonymous let pick na1 na2 = match na1 with | Name _ -> na1 | Anonymous -> na2 let cons na l = match na with | Anonymous -> l | Name id -> id::l let to_option = function | Anonymous -> None | Name id -> Some id end open Name (* Compatibility *) let out_name = get_id let name_fold = fold_right let name_iter = iter let name_app = map let name_fold_map = fold_left_map let name_cons = cons let name_max = pick let pr_name = print let pr_lab l = Label.print l (* Metavariables *) let pr_meta = Pp.int let string_of_meta = string_of_int (* Deprecated *) open Libnames let default_library = default_library let coq_string = coq_string let coq_root = coq_root let default_root_prefix = default_root_prefix