(***********************************************************************) (* *) (* 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. *) (* *) (***********************************************************************) (* type 'a option = None | Some of 'a *) (* Exceptions *) external register_named_value : string -> 'a -> unit = "caml_register_named_value" let () = (* for asmrun/fail.c *) register_named_value "Pervasives.array_bound_error" (Invalid_argument "index out of bounds") external raise : exn -> 'a = "%raise" external raise_notrace : exn -> 'a = "%raise_notrace" let failwith s = raise(Failure s) let invalid_arg s = raise(Invalid_argument s) exception Exit (* Composition operators *) external ( |> ) : 'a -> ('a -> 'b) -> 'b = "%revapply" external ( @@ ) : ('a -> 'b) -> 'a -> 'b = "%apply" (* Debugging *) external __LOC__ : string = "%loc_LOC" external __FILE__ : string = "%loc_FILE" external __LINE__ : int = "%loc_LINE" external __MODULE__ : string = "%loc_MODULE" external __POS__ : string * int * int * int = "%loc_POS" external __LOC_OF__ : 'a -> string * 'a = "%loc_LOC" external __LINE_OF__ : 'a -> int * 'a = "%loc_LINE" external __POS_OF__ : 'a -> (string * int * int * int) * 'a = "%loc_POS" (* Comparisons *) external ( = ) : 'a -> 'a -> bool = "%equal" external ( <> ) : 'a -> 'a -> bool = "%notequal" external ( < ) : 'a -> 'a -> bool = "%lessthan" external ( > ) : 'a -> 'a -> bool = "%greaterthan" external ( <= ) : 'a -> 'a -> bool = "%lessequal" external ( >= ) : 'a -> 'a -> bool = "%greaterequal" external compare : 'a -> 'a -> int = "%compare" let min x y = if x <= y then x else y let max x y = if x >= y then x else y external ( == ) : 'a -> 'a -> bool = "%eq" external ( != ) : 'a -> 'a -> bool = "%noteq" (* Boolean operations *) external not : bool -> bool = "%boolnot" external ( & ) : bool -> bool -> bool = "%sequand" external ( && ) : bool -> bool -> bool = "%sequand" external ( or ) : bool -> bool -> bool = "%sequor" external ( || ) : bool -> bool -> bool = "%sequor" (* Integer operations *) external ( ~- ) : int -> int = "%negint" external ( ~+ ) : int -> int = "%identity" external succ : int -> int = "%succint" external pred : int -> int = "%predint" external ( + ) : int -> int -> int = "%addint" external ( - ) : int -> int -> int = "%subint" external ( * ) : int -> int -> int = "%mulint" external ( / ) : int -> int -> int = "%divint" external ( mod ) : int -> int -> int = "%modint" let abs x = if x >= 0 then x else -x external ( land ) : int -> int -> int = "%andint" external ( lor ) : int -> int -> int = "%orint" external ( lxor ) : int -> int -> int = "%xorint" let lnot x = x lxor (-1) external ( lsl ) : int -> int -> int = "%lslint" external ( lsr ) : int -> int -> int = "%lsrint" external ( asr ) : int -> int -> int = "%asrint" let max_int = (-1) lsr 1 let min_int = max_int + 1 (* Floating-point operations *) external ( ~-. ) : float -> float = "%negfloat" external ( ~+. ) : float -> float = "%identity" external ( +. ) : float -> float -> float = "%addfloat" external ( -. ) : float -> float -> float = "%subfloat" external ( *. ) : float -> float -> float = "%mulfloat" external ( /. ) : float -> float -> float = "%divfloat" external ( ** ) : float -> float -> float = "caml_power_float" "pow" "float" external exp : float -> float = "caml_exp_float" "exp" "float" external expm1 : float -> float = "caml_expm1_float" "caml_expm1" "float" external acos : float -> float = "caml_acos_float" "acos" "float" external asin : float -> float = "caml_asin_float" "asin" "float" external atan : float -> float = "caml_atan_float" "atan" "float" external atan2 : float -> float -> float = "caml_atan2_float" "atan2" "float" external hypot : float -> float -> float = "caml_hypot_float" "caml_hypot" "float" external cos : float -> float = "caml_cos_float" "cos" "float" external cosh : float -> float = "caml_cosh_float" "cosh" "float" external log : float -> float = "caml_log_float" "log" "float" external log10 : float -> float = "caml_log10_float" "log10" "float" external log1p : float -> float = "caml_log1p_float" "caml_log1p" "float" external sin : float -> float = "caml_sin_float" "sin" "float" external sinh : float -> float = "caml_sinh_float" "sinh" "float" external sqrt : float -> float = "caml_sqrt_float" "sqrt" "float" external tan : float -> float = "caml_tan_float" "tan" "float" external tanh : float -> float = "caml_tanh_float" "tanh" "float" external ceil : float -> float = "caml_ceil_float" "ceil" "float" external floor : float -> float = "caml_floor_float" "floor" "float" external abs_float : float -> float = "%absfloat" external copysign : float -> float -> float = "caml_copysign_float" "caml_copysign" "float" external mod_float : float -> float -> float = "caml_fmod_float" "fmod" "float" external frexp : float -> float * int = "caml_frexp_float" external ldexp : float -> int -> float = "caml_ldexp_float" external modf : float -> float * float = "caml_modf_float" external float : int -> float = "%floatofint" external float_of_int : int -> float = "%floatofint" external truncate : float -> int = "%intoffloat" external int_of_float : float -> int = "%intoffloat" external float_of_bits : int64 -> float = "caml_int64_float_of_bits" let infinity = float_of_bits 0x7F_F0_00_00_00_00_00_00L let neg_infinity = float_of_bits 0xFF_F0_00_00_00_00_00_00L let nan = float_of_bits 0x7F_F0_00_00_00_00_00_01L let max_float = float_of_bits 0x7F_EF_FF_FF_FF_FF_FF_FFL let min_float = float_of_bits 0x00_10_00_00_00_00_00_00L let epsilon_float = float_of_bits 0x3C_B0_00_00_00_00_00_00L type fpclass = FP_normal | FP_subnormal | FP_zero | FP_infinite | FP_nan external classify_float : float -> fpclass = "caml_classify_float" (* String and byte sequence operations -- more in modules String and Bytes *) external string_length : string -> int = "%string_length" external bytes_length : bytes -> int = "%string_length" external bytes_create : int -> bytes = "caml_create_string" external string_blit : string -> int -> bytes -> int -> int -> unit = "caml_blit_string" "noalloc" external bytes_blit : bytes -> int -> bytes -> int -> int -> unit = "caml_blit_string" "noalloc" external bytes_unsafe_to_string : bytes -> string = "%identity" external bytes_unsafe_of_string : string -> bytes = "%identity" let ( ^ ) s1 s2 = let l1 = string_length s1 and l2 = string_length s2 in let s = bytes_create (l1 + l2) in string_blit s1 0 s 0 l1; string_blit s2 0 s l1 l2; bytes_unsafe_to_string s (* Character operations -- more in module Char *) external int_of_char : char -> int = "%identity" external unsafe_char_of_int : int -> char = "%identity" let char_of_int n = if n < 0 || n > 255 then invalid_arg "char_of_int" else unsafe_char_of_int n (* Unit operations *) external ignore : 'a -> unit = "%ignore" (* Pair operations *) external fst : 'a * 'b -> 'a = "%field0" external snd : 'a * 'b -> 'b = "%field1" (* References *) type 'a ref = { mutable contents : 'a } external ref : 'a -> 'a ref = "%makemutable" external ( ! ) : 'a ref -> 'a = "%field0" external ( := ) : 'a ref -> 'a -> unit = "%setfield0" external incr : int ref -> unit = "%incr" external decr : int ref -> unit = "%decr" (* Result type *) type ('a,'b) result = Ok of 'a | Error of 'b (* String conversion functions *) external format_int : string -> int -> string = "caml_format_int" external format_float : string -> float -> string = "caml_format_float" let string_of_bool b = if b then "true" else "false" let bool_of_string = function | "true" -> true | "false" -> false | _ -> invalid_arg "bool_of_string" let string_of_int n = format_int "%d" n external int_of_string : string -> int = "caml_int_of_string" external string_get : string -> int -> char = "%string_safe_get" let valid_float_lexem s = let l = string_length s in let rec loop i = if i >= l then s ^ "." else match string_get s i with | '0' .. '9' | '-' -> loop (i + 1) | _ -> s in loop 0 ;; let string_of_float f = valid_float_lexem (format_float "%.12g" f);; external float_of_string : string -> float = "caml_float_of_string" (* List operations -- more in module List *) let rec ( @ ) l1 l2 = match l1 with [] -> l2 | hd :: tl -> hd :: (tl @ l2) (* Array index operators *) external ( .() ) : 'a array -> int -> 'a = "%array_opt_get" external ( .() <- ) : 'a array -> int -> 'a -> unit = "%array_opt_set" (* String index operators *) external ( .[] ) : string -> int -> char = "%string_opt_get" external ( .[] <- ) : bytes -> int -> char -> unit = "%string_opt_set" (* I/O operations *) type in_channel type out_channel external open_descriptor_out : int -> out_channel = "caml_ml_open_descriptor_out" external open_descriptor_in : int -> in_channel = "caml_ml_open_descriptor_in" let stdin = open_descriptor_in 0 let stdout = open_descriptor_out 1 let stderr = open_descriptor_out 2 (* General output functions *) type open_flag = Open_rdonly | Open_wronly | Open_append | Open_creat | Open_trunc | Open_excl | Open_binary | Open_text | Open_nonblock external open_desc : string -> open_flag list -> int -> int = "caml_sys_open" external set_out_channel_name: out_channel -> string -> unit = "caml_ml_set_channel_name" let open_out_gen mode perm name = let c = open_descriptor_out(open_desc name mode perm) in set_out_channel_name c name; c let open_out name = open_out_gen [Open_wronly; Open_creat; Open_trunc; Open_text] 0o666 name let open_out_bin name = open_out_gen [Open_wronly; Open_creat; Open_trunc; Open_binary] 0o666 name external flush : out_channel -> unit = "caml_ml_flush" external out_channels_list : unit -> out_channel list = "caml_ml_out_channels_list" let flush_all () = let rec iter = function [] -> () | a :: l -> (try flush a with _ -> ()); iter l in iter (out_channels_list ()) external unsafe_output : out_channel -> bytes -> int -> int -> unit = "caml_ml_output" external unsafe_output_string : out_channel -> string -> int -> int -> unit = "caml_ml_output" external output_char : out_channel -> char -> unit = "caml_ml_output_char" let output_bytes oc s = unsafe_output oc s 0 (bytes_length s) let output_string oc s = unsafe_output_string oc s 0 (string_length s) let output oc s ofs len = if ofs < 0 || len < 0 || ofs > bytes_length s - len then invalid_arg "output" else unsafe_output oc s ofs len let output_substring oc s ofs len = if ofs < 0 || len < 0 || ofs > string_length s - len then invalid_arg "output_substring" else unsafe_output_string oc s ofs len external output_byte : out_channel -> int -> unit = "caml_ml_output_char" external output_binary_int : out_channel -> int -> unit = "caml_ml_output_int" external marshal_to_channel : out_channel -> 'a -> unit list -> unit = "caml_output_value" let output_value chan v = marshal_to_channel chan v [] external seek_out : out_channel -> int -> unit = "caml_ml_seek_out" external pos_out : out_channel -> int = "caml_ml_pos_out" external out_channel_length : out_channel -> int = "caml_ml_channel_size" external close_out_channel : out_channel -> unit = "caml_ml_close_channel" let close_out oc = flush oc; close_out_channel oc let close_out_noerr oc = (try flush oc with _ -> ()); (try close_out_channel oc with _ -> ()) external set_binary_mode_out : out_channel -> bool -> unit = "caml_ml_set_binary_mode" (* General input functions *) external set_in_channel_name: in_channel -> string -> unit = "caml_ml_set_channel_name" let open_in_gen mode perm name = let c = open_descriptor_in(open_desc name mode perm) in set_in_channel_name c name; c let open_in name = open_in_gen [Open_rdonly; Open_text] 0 name let open_in_bin name = open_in_gen [Open_rdonly; Open_binary] 0 name external input_char : in_channel -> char = "caml_ml_input_char" external unsafe_input : in_channel -> bytes -> int -> int -> int = "caml_ml_input" let input ic s ofs len = if ofs < 0 || len < 0 || ofs > bytes_length s - len then invalid_arg "input" else unsafe_input ic s ofs len let rec unsafe_really_input ic s ofs len = if len <= 0 then () else begin let r = unsafe_input ic s ofs len in if r = 0 then raise End_of_file else unsafe_really_input ic s (ofs + r) (len - r) end let really_input ic s ofs len = if ofs < 0 || len < 0 || ofs > bytes_length s - len then invalid_arg "really_input" else unsafe_really_input ic s ofs len let really_input_string ic len = let s = bytes_create len in really_input ic s 0 len; bytes_unsafe_to_string s external input_scan_line : in_channel -> int = "caml_ml_input_scan_line" let input_line chan = let rec build_result buf pos = function [] -> buf | hd :: tl -> let len = bytes_length hd in bytes_blit hd 0 buf (pos - len) len; build_result buf (pos - len) tl in let rec scan accu len = let n = input_scan_line chan in if n = 0 then begin (* n = 0: we are at EOF *) match accu with [] -> raise End_of_file | _ -> build_result (bytes_create len) len accu end else if n > 0 then begin (* n > 0: newline found in buffer *) let res = bytes_create (n - 1) in ignore (unsafe_input chan res 0 (n - 1)); ignore (input_char chan); (* skip the newline *) match accu with [] -> res | _ -> let len = len + n - 1 in build_result (bytes_create len) len (res :: accu) end else begin (* n < 0: newline not found *) let beg = bytes_create (-n) in ignore(unsafe_input chan beg 0 (-n)); scan (beg :: accu) (len - n) end in bytes_unsafe_to_string (scan [] 0) external input_byte : in_channel -> int = "caml_ml_input_char" external input_binary_int : in_channel -> int = "caml_ml_input_int" external input_value : in_channel -> 'a = "caml_input_value" external seek_in : in_channel -> int -> unit = "caml_ml_seek_in" external pos_in : in_channel -> int = "caml_ml_pos_in" external in_channel_length : in_channel -> int = "caml_ml_channel_size" external close_in : in_channel -> unit = "caml_ml_close_channel" let close_in_noerr ic = (try close_in ic with _ -> ());; external set_binary_mode_in : in_channel -> bool -> unit = "caml_ml_set_binary_mode" (* Output functions on standard output *) let print_char c = output_char stdout c let print_string s = output_string stdout s let print_bytes s = output_bytes stdout s let print_int i = output_string stdout (string_of_int i) let print_float f = output_string stdout (string_of_float f) let print_endline s = output_string stdout s; output_char stdout '\n'; flush stdout let print_newline () = output_char stdout '\n'; flush stdout (* Output functions on standard error *) let prerr_char c = output_char stderr c let prerr_string s = output_string stderr s let prerr_bytes s = output_bytes stderr s let prerr_int i = output_string stderr (string_of_int i) let prerr_float f = output_string stderr (string_of_float f) let prerr_endline s = output_string stderr s; output_char stderr '\n'; flush stderr let prerr_newline () = output_char stderr '\n'; flush stderr (* Input functions on standard input *) let read_line () = flush stdout; input_line stdin let read_int () = int_of_string(read_line()) let read_float () = float_of_string(read_line()) (* Operations on large files *) module LargeFile = struct external seek_out : out_channel -> int64 -> unit = "caml_ml_seek_out_64" external pos_out : out_channel -> int64 = "caml_ml_pos_out_64" external out_channel_length : out_channel -> int64 = "caml_ml_channel_size_64" external seek_in : in_channel -> int64 -> unit = "caml_ml_seek_in_64" external pos_in : in_channel -> int64 = "caml_ml_pos_in_64" external in_channel_length : in_channel -> int64 = "caml_ml_channel_size_64" end (* Formats *) type ('a, 'b, 'c, 'd, 'e, 'f) format6 = ('a, 'b, 'c, 'd, 'e, 'f) CamlinternalFormatBasics.format6 = Format of ('a, 'b, 'c, 'd, 'e, 'f) CamlinternalFormatBasics.fmt * string type ('a, 'b, 'c, 'd) format4 = ('a, 'b, 'c, 'c, 'c, 'd) format6 type ('a, 'b, 'c) format = ('a, 'b, 'c, 'c) format4 let string_of_format (Format (fmt, str)) = str external format_of_string : ('a, 'b, 'c, 'd, 'e, 'f) format6 -> ('a, 'b, 'c, 'd, 'e, 'f) format6 = "%identity" let (^^) (Format (fmt1, str1)) (Format (fmt2, str2)) = Format (CamlinternalFormatBasics.concat_fmt fmt1 fmt2, str1 ^ "%," ^ str2) (* Miscellaneous *) external sys_exit : int -> 'a = "caml_sys_exit" let exit_function = ref flush_all let at_exit f = let g = !exit_function in exit_function := (fun () -> f(); g()) let do_at_exit () = (!exit_function) () let exit retcode = do_at_exit (); sys_exit retcode let _ = register_named_value "Pervasives.do_at_exit" do_at_exit