(***********************************************************************) (* *) (* OCaml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the GNU Library General Public License, with *) (* the special exception on linking described in file ../LICENSE. *) (* *) (***********************************************************************) (* Byte sequence operations *) external length : bytes -> int = "%string_length" external get : bytes -> int -> char = "%string_safe_get" external set : bytes -> int -> char -> unit = "%string_safe_set" external create : int -> bytes = "caml_create_string" external unsafe_get : bytes -> int -> char = "%string_unsafe_get" external unsafe_set : bytes -> int -> char -> unit = "%string_unsafe_set" external unsafe_blit : bytes -> int -> bytes -> int -> int -> unit = "caml_blit_string" "noalloc" external unsafe_fill : bytes -> int -> int -> char -> unit = "caml_fill_string" "noalloc" external unsafe_to_string : bytes -> string = "%identity" external unsafe_of_string : string -> bytes = "%identity" let make n c = let s = create n in unsafe_fill s 0 n c; s let empty = create 0;; let copy s = let len = length s in let r = create len in unsafe_blit s 0 r 0 len; r let to_string b = unsafe_to_string (copy b) let of_string s = copy (unsafe_of_string s) let sub s ofs len = if ofs < 0 || len < 0 || ofs > length s - len then invalid_arg "Bytes.sub" else begin let r = create len in unsafe_blit s ofs r 0 len; r end let sub_string b ofs len = unsafe_to_string (sub b ofs len) let fill s ofs len c = if ofs < 0 || len < 0 || ofs > length s - len then invalid_arg "Bytes.fill" else unsafe_fill s ofs len c let blit s1 ofs1 s2 ofs2 len = if len < 0 || ofs1 < 0 || ofs1 > length s1 - len || ofs2 < 0 || ofs2 > length s2 - len then invalid_arg "Bytes.blit" else unsafe_blit s1 ofs1 s2 ofs2 len let iter f a = for i = 0 to length a - 1 do f(unsafe_get a i) done let iteri f a = for i = 0 to length a - 1 do f i (unsafe_get a i) done let concat sep l = match l with [] -> empty | hd :: tl -> let num = ref 0 and len = ref 0 in List.iter (fun s -> incr num; len := !len + length s) l; let r = create (!len + length sep * (!num - 1)) in unsafe_blit hd 0 r 0 (length hd); let pos = ref(length hd) in List.iter (fun s -> unsafe_blit sep 0 r !pos (length sep); pos := !pos + length sep; unsafe_blit s 0 r !pos (length s); pos := !pos + length s) tl; r external is_printable: char -> bool = "caml_is_printable" external char_code: char -> int = "%identity" external char_chr: int -> char = "%identity" let is_space = function | ' ' | '\012' | '\n' | '\r' | '\t' -> true | _ -> false let trim s = let len = length s in let i = ref 0 in while !i < len && is_space (unsafe_get s !i) do incr i done; let j = ref (len - 1) in while !j >= !i && is_space (unsafe_get s !j) do decr j done; if !j >= !i then sub s !i (!j - !i + 1) else empty let escaped s = let n = ref 0 in for i = 0 to length s - 1 do n := !n + (match unsafe_get s i with | '"' | '\\' | '\n' | '\t' | '\r' | '\b' -> 2 | c -> if is_printable c then 1 else 4) done; if !n = length s then copy s else begin let s' = create !n in n := 0; for i = 0 to length s - 1 do begin match unsafe_get s i with | ('"' | '\\') as c -> unsafe_set s' !n '\\'; incr n; unsafe_set s' !n c | '\n' -> unsafe_set s' !n '\\'; incr n; unsafe_set s' !n 'n' | '\t' -> unsafe_set s' !n '\\'; incr n; unsafe_set s' !n 't' | '\r' -> unsafe_set s' !n '\\'; incr n; unsafe_set s' !n 'r' | '\b' -> unsafe_set s' !n '\\'; incr n; unsafe_set s' !n 'b' | c -> if is_printable c then unsafe_set s' !n c else begin let a = char_code c in unsafe_set s' !n '\\'; incr n; unsafe_set s' !n (char_chr (48 + a / 100)); incr n; unsafe_set s' !n (char_chr (48 + (a / 10) mod 10)); incr n; unsafe_set s' !n (char_chr (48 + a mod 10)) end end; incr n done; s' end let map f s = let l = length s in if l = 0 then s else begin let r = create l in for i = 0 to l - 1 do unsafe_set r i (f(unsafe_get s i)) done; r end let uppercase s = map Char.uppercase s let lowercase s = map Char.lowercase s let apply1 f s = if length s = 0 then s else begin let r = copy s in unsafe_set r 0 (f(unsafe_get s 0)); r end let capitalize s = apply1 Char.uppercase s let uncapitalize s = apply1 Char.lowercase s let rec index_rec s lim i c = if i >= lim then raise Not_found else if unsafe_get s i = c then i else index_rec s lim (i + 1) c;; let index s c = index_rec s (length s) 0 c;; let index_from s i c = let l = length s in if i < 0 || i > l then invalid_arg "Bytes.index_from" else index_rec s l i c;; let rec rindex_rec s i c = if i < 0 then raise Not_found else if unsafe_get s i = c then i else rindex_rec s (i - 1) c;; let rindex s c = rindex_rec s (length s - 1) c;; let rindex_from s i c = if i < -1 || i >= length s then invalid_arg "Bytes.rindex_from" else rindex_rec s i c;; let contains_from s i c = let l = length s in if i < 0 || i > l then invalid_arg "Bytes.contains_from" else try ignore (index_rec s l i c); true with Not_found -> false;; let contains s c = contains_from s 0 c;; let rcontains_from s i c = if i < 0 || i >= length s then invalid_arg "Bytes.rcontains_from" else try ignore (rindex_rec s i c); true with Not_found -> false;; type t = bytes let compare (x: t) (y: t) = Pervasives.compare x y