ocaml/stdlib/scanf.ml

895 lines
29 KiB
OCaml

(***********************************************************************)
(* *)
(* Objective Caml *)
(* *)
(* Pierre Weis, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 2002 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. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* The run-time library for scanners. *)
(* Scanning buffers. *)
module type SCANNING = sig
type scanbuf;;
val stdib : scanbuf;;
(** The scanning buffer reading from [stdin].
[stdib] is equivalent to [Scanning.from_channel stdin]. *)
val next_char : scanbuf -> unit;;
(** [Scanning.next_char scanbuf] advance the scanning buffer for
one character.
If no more character can be read, sets a end of file condition and
returns '\000'. *)
val peek_char : scanbuf -> char;;
(** [Scanning.peek_char scanbuf] returns the current char available in
the buffer. *)
val cautious_peek_char : scanbuf -> char;;
(** [Scanning.cautious_peek_char scanbuf] returns the current char
available in the buffer or tries to read one if none has ever been
read.
If no character can be read, sets a end of file condition and
returns '\000'. *)
val checked_peek_char : scanbuf -> char;;
(** Same as above but always returns a valid char or fails:
instead of returning a null char when the reading method of the
input buffer has reached an end of file, the function raises exception
[End_of_file]. *)
val store_char : scanbuf -> char -> int -> int;;
(** [Scanning.store_char scanbuf c lim] adds [c] to the token buffer
of the scanning buffer. It also advances the scanning buffer for one
character and returns [lim - 1], indicating the new limit
for the length of the current token. *)
val skip_char : scanbuf -> char -> int -> int;;
(** [Scanning.skip_char scanbuf c lim] is similar to [store_char] but
it ignores (does not store in the token buffer) the character [c]. *)
val token : scanbuf -> string;;
(** [Scanning.token scanbuf] returns the string stored into the token
buffer of the scanning buffer: it returns the token matched by the
format. *)
val reset_token : scanbuf -> unit;;
(** [Scanning.reset_token scanbuf] resets the token buffer of
the given scanning buffer. *)
val char_count : scanbuf -> int;;
(** [Scanning.char_count scanbuf] returns the number of characters
read so far from the given buffer. *)
val line_count : scanbuf -> int;;
(** [Scanning.line_count scanbuf] returns the number of new line
characters read so far from the given buffer. *)
val token_count : scanbuf -> int;;
(** [Scanning.token_count scanbuf] returns the number of tokens read
so far from [scanbuf]. *)
val eof : scanbuf -> bool;;
(** [Scanning.eof scanbuf] returns the current value of the end of input
condition of the given buffer, no validity test is performed. *)
val end_of_input : scanbuf -> bool;;
(** [Scanning.end_of_input scanbuf] tests the end of input condition
of the given buffer. *)
val beginning_of_input : scanbuf -> bool;;
(** [Scanning.beginning_of_input scanbuf] tests the beginning of input
condition of the given buffer. *)
val from_string : string -> scanbuf;;
val from_channel : in_channel -> scanbuf;;
val from_file : string -> scanbuf;;
val from_file_bin : string -> scanbuf;;
val from_function : (unit -> char) -> scanbuf;;
end;;
module Scanning : SCANNING = struct
(* The run-time library for scanf. *)
type file_name = string;;
type scanbuf = {
mutable eof : bool;
mutable bof : bool;
mutable cur_char : char;
mutable char_count : int;
mutable line_count : int;
mutable token_count : int;
mutable get_next_char : unit -> char;
tokbuf : Buffer.t;
file_name : file_name;
};;
(* Reads a new character from input buffer, sets the end of file
condition if necessary. *)
let next_char ib =
try
let c = ib.get_next_char () in
ib.cur_char <- c;
ib.char_count <- ib.char_count + 1;
if c == '\n' then ib.line_count <- ib.line_count + 1
with End_of_file ->
ib.cur_char <- '\000';
ib.eof <- true;;
let cautious_peek_char ib =
if ib.bof then begin
next_char ib;
if ib.char_count > 0 then ib.bof <- false end;
ib.cur_char;;
(* Returns a valid current char for the input buffer. In particular
no irrelevant null character (as set by [next_char] in case of end
of input) is returned, since [End_of_file] is raised when
[next_char] sets the end of file condition while trying to read a
new character. *)
let checked_peek_char ib =
let c = cautious_peek_char ib in
if ib.eof then raise End_of_file;
c;;
let peek_char ib = ib.cur_char;;
let eof ib = ib.eof;;
let beginning_of_input ib = ib.bof;;
let end_of_input ib =
let c = cautious_peek_char ib in
ib.eof;;
let char_count ib = ib.char_count;;
let line_count ib = ib.line_count;;
let reset_token ib = Buffer.reset ib.tokbuf;;
let token ib =
let tokbuf = ib.tokbuf in
let tok = Buffer.contents tokbuf in
Buffer.clear tokbuf;
ib.token_count <- ib.token_count + 1;
tok;;
let token_count ib = ib.token_count;;
let store_char ib c max =
Buffer.add_char ib.tokbuf c;
next_char ib;
max - 1;;
let skip_char ib c max =
next_char ib;
max - 1;;
let default_token_buffer_size = 1024;;
let create fname next =
let ib = {
bof = true;
eof = false;
cur_char = '\000';
char_count = 0;
line_count = 0;
get_next_char = next;
tokbuf = Buffer.create default_token_buffer_size;
token_count = 0;
file_name = fname;
} in
ib;;
let from_string s =
let i = ref 0 in
let len = String.length s in
let next () =
if !i >= len then raise End_of_file else
let c = s.[!i] in
incr i;
c in
create "string" next;;
let from_function = create "function";;
(* Perform bufferized input to improve efficiency. *)
let file_buffer_size = ref 1024;;
let from_file_channel fname ic =
let len = !file_buffer_size in
let buf = String.create len in
let i = ref 0 in
let lim = ref 0 in
let next () =
if !i < !lim then begin let c = buf.[!i] in incr i; c end else begin
lim := input ic buf 0 len;
if !lim = 0 then raise End_of_file else begin
i := 1;
buf.[0]
end
end in
create fname next;;
let from_file fname = from_file_channel fname (open_in fname);;
let from_file_bin fname = from_file_channel fname (open_in_bin fname);;
let from_input_channel fname ic =
let next () = input_char ic in
create fname next;;
let from_channel = from_input_channel "in_channel";;
let stdib = from_input_channel "stdin" stdin;;
(** The scanning buffer reading from [stdin].*)
end;;
(** Formatted input functions. *)
(* Reporting errors. *)
exception Scan_failure of string;;
let bad_input s = raise (Scan_failure s);;
let bad_input_char c = bad_input (String.make 1 c);;
let bad_input_escape c =
bad_input (Printf.sprintf "illegal escape character %c" c);;
let scanf_bad_input ib = function
| Scan_failure s | Failure s ->
let i = Scanning.char_count ib in
bad_input (Printf.sprintf "scanf: bad input at char number %i: %s" i s)
| x -> raise x;;
let bad_format fmt i fc =
invalid_arg
(Printf.sprintf
"scanf: bad conversion %c, at char number %i in format %s" fc i fmt);;
let bad_float () = bad_input "no dot or exponent part found in float token";;
(* Checking that the current char is indeed one of range, then skip it. *)
let check_char_in ib range =
let ci = Scanning.checked_peek_char ib in
if List.mem ci range then Scanning.next_char ib else
let sr = String.concat "" (List.map (String.make 1) range) in
bad_input
(Printf.sprintf "looking for one of range %s, found %c" sr ci);;
(* Checking that [c] is indeed in the input, then skip it. *)
let check_char ib c =
let ci = Scanning.checked_peek_char ib in
if ci == c then Scanning.next_char ib else
bad_input (Printf.sprintf "looking for %c, found %c" c ci);;
(* Extracting tokens from ouput token buffer. *)
let token_char ib = (Scanning.token ib).[0];;
let token_string = Scanning.token;;
let token_bool ib =
match Scanning.token ib with
| "true" -> true
| "false" -> false
| s -> bad_input ("invalid boolean " ^ s);;
(* Extract an integer literal token.
Since the functions Pervasives.*int*_of_string do not accept a leading +,
we skip it if necessary. *)
let token_int_literal conv ib =
let tok =
match conv with
| 'd' | 'i' | 'u' -> Scanning.token ib
| 'o' -> "0o" ^ Scanning.token ib
| 'x' | 'X' -> "0x" ^ Scanning.token ib
| 'b' -> "0b" ^ Scanning.token ib
| _ -> assert false in
let l = String.length tok in
if l = 0 || tok.[0] <> '+' then tok else String.sub tok 1 (l - 1);;
(* All the functions that convert a string to a number raise the exception
Failure when the conversion is not possible.
This exception is then trapped in kscanf. *)
let token_int conv ib = int_of_string (token_int_literal conv ib);;
let token_float ib = float_of_string (Scanning.token ib);;
(* To scan native ints, int32 and int64 integers.
We cannot access to conversions to/from strings for those types,
Nativeint.of_string, Int32.of_string, and Int64.of_string,
since those modules are not available to Scanf.
However, we can bind and use the corresponding primitives that are
available in the runtime. *)
external nativeint_of_string: string -> nativeint = "caml_nativeint_of_string";;
external int32_of_string : string -> int32 = "caml_int32_of_string";;
external int64_of_string : string -> int64 = "caml_int64_of_string";;
let token_nativeint conv ib = nativeint_of_string (token_int_literal conv ib);;
let token_int32 conv ib = int32_of_string (token_int_literal conv ib);;
let token_int64 conv ib = int64_of_string (token_int_literal conv ib);;
(* Scanning numbers. *)
(* The decimal case is optimized. *)
let scan_decimal_digits max ib =
let rec loop inside max =
if max = 0 || Scanning.eof ib then max else
match Scanning.checked_peek_char ib with
| '0' .. '9' as c ->
let max = Scanning.store_char ib c max in
loop true max
| '_' as c when inside ->
let max = Scanning.skip_char ib c max in
loop true max
| c -> max in
loop false max;;
(* Other cases uses a predicate argument to scan_digits. *)
let scan_digits digitp max ib =
let rec loop inside max =
if max = 0 || Scanning.eof ib then max else
match Scanning.checked_peek_char ib with
| c when digitp c ->
let max = Scanning.store_char ib c max in
loop true max
| '_' as c when inside ->
let max = Scanning.skip_char ib c max in
loop true max
| _ -> max in
loop false max;;
let scan_binary_digits =
let is_binary_digit = function
| '0' .. '1' -> true
| _ -> false in
scan_digits is_binary_digit;;
let scan_octal_digits =
let is_octal_digit = function
| '0' .. '7' -> true
| _ -> false in
scan_digits is_octal_digit;;
let scan_hexadecimal_digits =
let is_hexa_digit = function
| '0' .. '9' | 'a' .. 'f' | 'A' .. 'F' -> true
| _ -> false in
scan_digits is_hexa_digit;;
(* Decimal integers. *)
let scan_unsigned_decimal_int max ib =
if max = 0 || Scanning.eof ib then bad_input "decimal digit" else
scan_decimal_digits max ib;;
let scan_sign max ib =
let c = Scanning.checked_peek_char ib in
match c with
| '+' -> Scanning.store_char ib c max
| '-' -> Scanning.store_char ib c max
| c -> max;;
let scan_optionally_signed_decimal_int max ib =
let max = scan_sign max ib in
scan_unsigned_decimal_int max ib;;
(* Scan an unsigned integer that could be given in any (common) basis.
If digits are prefixed by one of 0x, 0X, 0o, or 0b, the number is
assumed to be written respectively in hexadecimal, hexadecimal,
octal, or binary. *)
let scan_unsigned_int max ib =
match Scanning.checked_peek_char ib with
| '0' as c ->
let max = Scanning.store_char ib c max in
if max = 0 || Scanning.eof ib then max else
let c = Scanning.peek_char ib in
begin match c with
| 'x' | 'X' -> scan_hexadecimal_digits (Scanning.store_char ib c max) ib
| 'o' -> scan_octal_digits (Scanning.store_char ib c max) ib
| 'b' -> scan_binary_digits (Scanning.store_char ib c max) ib
| c -> scan_decimal_digits max ib end
| c -> scan_decimal_digits max ib;;
let scan_optionally_signed_int max ib =
let max = scan_sign max ib in
if max = 0 || Scanning.eof ib then bad_input "bad int" else
scan_unsigned_int max ib;;
let scan_int conv max ib =
match conv with
| 'b' -> scan_binary_digits max ib
| 'd' -> scan_optionally_signed_decimal_int max ib
| 'i' -> scan_optionally_signed_int max ib
| 'o' -> scan_octal_digits max ib
| 'u' -> scan_unsigned_decimal_int max ib
| 'x' | 'X' -> scan_hexadecimal_digits max ib
| c -> assert false;;
(* Scanning floating point numbers. *)
(* Fractional part is optional and can be reduced to 0 digits. *)
let scan_frac_part max ib =
if max = 0 || Scanning.eof ib then max else
scan_unsigned_decimal_int max ib;;
(* Exp part is optional and can be reduced to 0 digits. *)
let scan_exp_part max ib =
if max = 0 || Scanning.eof ib then max else
let c = Scanning.peek_char ib in
match c with
| 'e' | 'E' as c ->
scan_optionally_signed_decimal_int (Scanning.store_char ib c max) ib
| _ -> max;;
let scan_float max ib =
let max = scan_optionally_signed_decimal_int max ib in
if max = 0 || Scanning.eof ib then max else
let c = Scanning.peek_char ib in
match c with
| '.' ->
let max = Scanning.store_char ib c max in
let max = scan_frac_part max ib in
scan_exp_part max ib
| c -> scan_exp_part max ib;;
let scan_Float max ib =
let max = scan_optionally_signed_decimal_int max ib in
if max = 0 || Scanning.eof ib then bad_float () else
let c = Scanning.peek_char ib in
match c with
| '.' ->
let max = Scanning.store_char ib c max in
let max = scan_frac_part max ib in
scan_exp_part max ib
| 'e' | 'E' ->
scan_exp_part max ib
| c -> bad_float ();;
(* Scan a regular string: it stops with a space or one of the
characters in stp. It also stops when the maximum number of
characters has been read.*)
let scan_string stp max ib =
let rec loop max =
if max = 0 || Scanning.eof ib then max else
let c = Scanning.checked_peek_char ib in
if stp == [] then
match c with
| ' ' | '\t' | '\n' | '\r' -> max
| c -> loop (Scanning.store_char ib c max) else
if List.mem c stp then max else
loop (Scanning.store_char ib c max) in
let max = loop max in
if stp != [] then check_char_in ib stp;
max;;
(* Scan a char: peek strictly one character in the input, whatsoever. *)
let scan_char max ib =
Scanning.store_char ib (Scanning.checked_peek_char ib) max;;
let char_for_backslash = function
| 'n' -> '\010'
| 'r' -> '\013'
| 'b' -> '\008'
| 't' -> '\009'
| c -> c
(* The integer value corresponding to the facial value of a valid
decimal digit character. *)
let int_value_of_char c = int_of_char c - 48;;
let char_for_decimal_code c0 c1 c2 =
let c =
100 * int_value_of_char c0 +
10 * int_value_of_char c1 +
int_value_of_char c2 in
if c < 0 || c > 255
then bad_input (Printf.sprintf "bad char \\%c%c%c" c0 c1 c2)
else char_of_int c;;
(* Called when encountering '\\' as starter of a char.
Stops before the corresponding '\''. *)
let scan_backslash_char max ib =
if max = 0 || Scanning.eof ib then bad_input "a char" else
let c = Scanning.peek_char ib in
match c with
| '\\' | '\'' | '"' | 'n' | 't' | 'b' | 'r' (* '"' helping Emacs *) ->
Scanning.store_char ib (char_for_backslash c) max
| '0' .. '9' as c ->
let get_digit () =
Scanning.next_char ib;
let c = Scanning.peek_char ib in
match c with
| '0' .. '9' as c -> c
| c -> bad_input_escape c in
let c0 = c in
let c1 = get_digit () in
let c2 = get_digit () in
Scanning.store_char ib (char_for_decimal_code c0 c1 c2) (max - 2)
| c -> bad_input_char c;;
let scan_Char max ib =
let rec loop s max =
if max = 0 || Scanning.eof ib then bad_input "a char" else
let c = Scanning.checked_peek_char ib in
match c, s with
| '\'', 3 -> Scanning.next_char ib; loop 2 (max - 1)
| '\'', 1 -> Scanning.next_char ib; max - 1
| '\\', 2 -> Scanning.next_char ib;
loop 1 (scan_backslash_char (max - 1) ib)
| c, 2 -> loop 1 (Scanning.store_char ib c max)
| c, _ -> bad_input_escape c in
loop 3 max;;
let scan_String max ib =
let rec loop s max =
if max = 0 || Scanning.eof ib then bad_input "a string" else
let c = Scanning.checked_peek_char ib in
match c, s with
| '"', true (* '"' helping Emacs *) ->
Scanning.next_char ib; loop false (max - 1)
| '"', false (* '"' helping Emacs *) ->
Scanning.next_char ib; max - 1
| '\\', false ->
Scanning.next_char ib; skip_spaces true (max - 1)
| c, false -> loop false (Scanning.store_char ib c max)
| c, _ -> bad_input_char c
and skip_spaces s max =
if max = 0 || Scanning.eof ib then bad_input "a string" else
let c = Scanning.checked_peek_char ib in
match c, s with
| '\n', true
| ' ', false ->
Scanning.next_char ib; skip_spaces false (max - 1)
| '\\', false -> loop false max
| c, false -> loop false (Scanning.store_char ib c max)
| _, _ -> loop false (scan_backslash_char (max - 1) ib) in
loop true max;;
let scan_bool max ib =
if max < 4 || Scanning.eof ib then bad_input "a boolean" else
let m =
match Scanning.checked_peek_char ib with
| 't' -> 4
| 'f' -> 5
| _ -> 0 in
scan_string [] (min max m) ib;;
type char_set =
| Pos_set of string
| Neg_set of string;;
let read_char_set fmt i =
let lim = String.length fmt - 1 in
let rec find_in_set i j =
if j > lim then bad_format fmt j fmt.[lim - 1] else
match fmt.[j] with
| ']' -> String.sub fmt i (j - i), j
| c -> find_in_set i (j + 1)
and find_set_sign i =
if i > lim then bad_format fmt i fmt.[lim - 1] else
match fmt.[i] with
| '^' -> let set, i = find_set (i + 1) in i, Neg_set set
| _ -> let set, i = find_set i in i, Pos_set set
and find_set i =
if i > lim then bad_format fmt i fmt.[lim - 1] else
match fmt.[i] with
| ']' -> find_in_set i (i + 1)
| c -> find_in_set i i in
find_set_sign i;;
let set_bit_of_byte byte idx b =
(b lsl idx) lor (byte land (* mask idx *) (lnot (1 lsl idx)));;
let get_bit_of_byte byte idx = (byte lsr idx) land 1;;
let set_bit_of_range r c b =
let idx = c land 0x7 in
let ydx = c lsr 3 in
let byte = r.[ydx] in
r.[ydx] <- char_of_int (set_bit_of_byte (int_of_char byte) idx b);;
let get_bit_of_range r c =
let idx = c land 0x7 in
let ydx = c lsr 3 in
let byte = r.[ydx] in
get_bit_of_byte (int_of_char byte) idx;;
let make_range bit =
let c = char_of_int (if bit = 0 then 0 else 0xFF) in
String.make 32 c;;
let bit_not b = (lnot b) land 1;;
let get_char_in_range r c = get_bit_of_range r (int_of_char c);;
let make_bv bit set =
let r = make_range (bit_not bit) in
let lim = String.length set - 1 in
let rec loop bit rp i =
if i <= lim then
match set.[i] with
| '-' when rp ->
(* if i = 0 then rp is false (since the initial call is loop false 0)
hence i >= 1 and the following is safe. *)
let c1 = set.[i - 1] in
let i = i + 1 in
if i > lim then loop bit false (i - 1) else
let c2 = set.[i] in
for j = int_of_char c1 to int_of_char c2 do
set_bit_of_range r j bit done;
loop bit false (i + 1)
| c ->
set_bit_of_range r (int_of_char set.[i]) bit;
loop bit true (i + 1) in
loop bit false 0;
r;;
let make_pred bit set stp =
let r = make_bv bit set in
List.iter
(fun c -> set_bit_of_range r (int_of_char c) (bit_not bit)) stp;
(fun c -> get_char_in_range r c);;
let make_setp stp char_set =
match char_set with
| Pos_set set ->
begin match String.length set with
| 0 -> (fun c -> 0)
| 1 ->
let p = set.[0] in
(fun c -> if c == p then 1 else 0)
| 2 ->
let p1 = set.[0] and p2 = set.[1] in
(fun c -> if c == p1 || c == p2 then 1 else 0)
| n -> make_pred 1 set stp
end
| Neg_set set ->
begin match String.length set with
| 0 -> (fun c -> 1)
| 1 ->
let p = set.[0] in
(fun c -> if c != p then 1 else 0)
| 2 ->
let p1 = set.[0] and p2 = set.[1] in
(fun c -> if c != p1 && c != p2 then 1 else 0)
| n -> make_pred 0 set stp
end;;
let setp_table = Hashtbl.create 7;;
let add_setp stp char_set setp =
let char_set_tbl =
try Hashtbl.find setp_table char_set with
| Not_found ->
let char_set_tbl = Hashtbl.create 3 in
Hashtbl.add setp_table char_set char_set_tbl;
char_set_tbl in
Hashtbl.add char_set_tbl stp setp;;
let find_setp stp char_set =
try Hashtbl.find (Hashtbl.find setp_table char_set) stp with
| Not_found ->
let setp = make_setp stp char_set in
add_setp stp char_set setp;
setp;;
let scan_chars_in_char_set stp char_set max ib =
let rec loop_pos1 cp1 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c == cp1
then loop_pos1 cp1 (Scanning.store_char ib c max)
else max
and loop_pos2 cp1 cp2 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c == cp1 || c == cp2
then loop_pos2 cp1 cp2 (Scanning.store_char ib c max)
else max
and loop_pos3 cp1 cp2 cp3 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c == cp1 || c == cp2 || c == cp3
then loop_pos3 cp1 cp2 cp3 (Scanning.store_char ib c max)
else max
and loop_neg1 cp1 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c != cp1
then loop_neg1 cp1 (Scanning.store_char ib c max)
else max
and loop_neg2 cp1 cp2 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c != cp1 && c != cp2
then loop_neg2 cp1 cp2 (Scanning.store_char ib c max)
else max
and loop_neg3 cp1 cp2 cp3 max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if c != cp1 && c != cp2 && c != cp3
then loop_neg3 cp1 cp2 cp3 (Scanning.store_char ib c max)
else max
and loop setp max =
let c = Scanning.cautious_peek_char ib in
if max = 0 || Scanning.end_of_input ib then max else
if setp c == 1 then loop setp (Scanning.store_char ib c max) else
max in
let max =
match char_set with
| Pos_set set ->
begin match String.length set with
| 0 -> loop (fun c -> 0) max
| 1 -> loop_pos1 set.[0] max
| 2 -> loop_pos2 set.[0] set.[1] max
| 3 -> loop_pos3 set.[0] set.[1] set.[2] max
| n -> loop (find_setp stp char_set) max end
| Neg_set set ->
begin match String.length set with
| 0 -> loop (fun c -> 1) max
| 1 -> loop_neg1 set.[0] max
| 2 -> loop_neg2 set.[0] set.[1] max
| 3 -> loop_neg3 set.[0] set.[1] set.[2] max
| n -> loop (find_setp stp char_set) max end in
if stp != [] then check_char_in ib stp;
max;;
let get_count t ib =
match t with
| 'l' -> Scanning.line_count ib
| 'n' -> Scanning.char_count ib
| _ -> Scanning.token_count ib;;
let skip_whites ib =
let rec loop = function
| ' ' | '\t' | '\n' | '\r' ->
Scanning.next_char ib;
if not (Scanning.eof ib) then loop (Scanning.peek_char ib)
| _ -> () in
if not (Scanning.eof ib) then
loop (Scanning.cautious_peek_char ib);;
(* The [kscanf] main scanning function.
It takes as arguments:
- an input buffer [ib] from which to read characters,
- an error handling function [ef],
- a format [fmt] that specifies what to read in the input,
- and a function [f] to pass the tokens read to.
Then [kscanf] scans the format and the buffer in parallel to find
out tokens as specified by the format; when it founds one token, it
converts it as specified, remembers the converted value as a future
argument to the function [f], and continues scanning.
If the entire scanning succeeds (i.e. the format string has been
exhausted and the buffer has provided tokens according to the
format string), the tokens are applied to [f].
If the scanning or some conversion fails, the main scanning function
aborts and applies the scanning buffer and a string that explains
the error to the error handling function [ef] (the error continuation). *)
let kscanf ib ef fmt f =
let fmt = string_of_format fmt in
let lim = String.length fmt - 1 in
let return v = Obj.magic v () in
let delay f x () = f x in
let stack f = delay (return f) in
let no_stack f x = f in
let rec scan_fmt f i =
if i > lim then f else
match fmt.[i] with
| ' ' -> skip_whites ib; scan_fmt f (i + 1)
| '%' ->
if i > lim then bad_format fmt i '%' else
scan_conversion false max_int f (i + 1)
| '@' as t ->
let i = i + 1 in
if i > lim then bad_format fmt (i - 1) t else begin
check_char ib fmt.[i];
scan_fmt f (i + 1) end
| c -> check_char ib c; scan_fmt f (i + 1)
and scan_conversion skip max f i =
let stack = if skip then no_stack else stack in
match fmt.[i] with
| '%' as c ->
check_char ib c; scan_fmt f (i + 1)
| 'c' when max = 0 ->
let c = Scanning.checked_peek_char ib in
scan_fmt (stack f c) (i + 1)
| 'c' | 'C' as conv ->
if max <> 1 && max <> max_int then bad_format fmt i conv else
let x =
if conv = 'c' then scan_char max ib else scan_Char max ib in
scan_fmt (stack f (token_char ib)) (i + 1)
| 'd' | 'i' | 'o' | 'u' | 'x' | 'X' as conv ->
let x = scan_int conv max ib in
scan_fmt (stack f (token_int conv ib)) (i + 1)
| 'f' | 'g' | 'G' | 'e' | 'E' ->
let x = scan_float max ib in
scan_fmt (stack f (token_float ib)) (i + 1)
| 'F' ->
let x = scan_Float max ib in
scan_fmt (stack f (token_float ib)) (i + 1)
| 's' ->
let i, stp = scan_fmt_stoppers (i + 1) in
let x = scan_string stp max ib in
scan_fmt (stack f (token_string ib)) (i + 1)
| '[' ->
let i, char_set = read_char_set fmt (i + 1) in
let i, stp = scan_fmt_stoppers (i + 1) in
let x = scan_chars_in_char_set stp char_set max ib in
scan_fmt (stack f (token_string ib)) (i + 1)
| 'S' ->
let x = scan_String max ib in
scan_fmt (stack f (token_string ib)) (i + 1)
| 'B' | 'b' ->
let x = scan_bool max ib in
scan_fmt (stack f (token_bool ib)) (i + 1)
| 'l' | 'n' | 'L' as t ->
let i = i + 1 in
if i > lim then scan_fmt (stack f (get_count t ib)) i else begin
match fmt.[i] with
| 'd' | 'i' | 'o' | 'u' | 'x' | 'X' as conv ->
let x = scan_int conv max ib in
begin match t with
| 'l' -> scan_fmt (stack f (token_int32 conv ib)) (i + 1)
| 'L' -> scan_fmt (stack f (token_int64 conv ib)) (i + 1)
| _ -> scan_fmt (stack f (token_nativeint conv ib)) (i + 1) end
| c -> scan_fmt (stack f (get_count t ib)) i end
| 'N' as t ->
scan_fmt (stack f (get_count t ib)) (i + 1)
| '!' as c ->
if Scanning.end_of_input ib then scan_fmt f (i + 1)
else bad_input "end of input not found"
| '_' ->
if i > lim then bad_format fmt i fmt.[lim - 1] else
scan_conversion true max f (i + 1)
| '0' .. '9' as c ->
let rec read_width accu i =
if i > lim then accu, i else
match fmt.[i] with
| '0' .. '9' as c ->
let accu = 10 * accu + int_value_of_char c in
read_width accu (i + 1)
| _ -> accu, i in
let max, i = read_width (int_value_of_char c) (i + 1) in
if i > lim then bad_format fmt i fmt.[lim - 1] else
scan_conversion skip max f i
| c -> bad_format fmt i c
and scan_fmt_stoppers i =
if i > lim then i - 1, [] else
match fmt.[i] with
| '@' when i < lim -> let i = i + 1 in i, [fmt.[i]]
| '@' as c when i = lim -> bad_format fmt i c
| _ -> i - 1, [] in
Scanning.reset_token ib;
let v =
try scan_fmt (fun () -> f) 0 with
| (Scan_failure _ | Failure _ | End_of_file) as exc ->
stack (delay ef ib) exc in
return v;;
let bscanf ib = kscanf ib scanf_bad_input;;
let fscanf ic = bscanf (Scanning.from_channel ic);;
let sscanf s = bscanf (Scanning.from_string s);;
let scanf fmt = bscanf Scanning.stdib fmt;;