(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Valerie Menissier-Morain, 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. *) (* *) (***********************************************************************) (* $Id: nat.mli,v 1.11 2003/11/07 07:59:09 xleroy Exp $ *) (* Module [Nat]: operations on natural numbers *) type nat (* Natural numbers (type [nat]) are positive integers of arbitrary size. All operations on [nat] are performed in-place. *) external create_nat: int -> nat = "create_nat" val make_nat: int -> nat external set_to_zero_nat: nat -> int -> int -> unit = "set_to_zero_nat" external blit_nat: nat -> int -> nat -> int -> int -> unit = "blit_nat" val copy_nat: nat -> int -> int -> nat external set_digit_nat: nat -> int -> int -> unit = "set_digit_nat" external nth_digit_nat: nat -> int -> int = "nth_digit_nat" val length_nat : nat -> int external num_digits_nat: nat -> int -> int -> int = "num_digits_nat" external num_leading_zero_bits_in_digit: nat -> int -> int = "num_leading_zero_bits_in_digit" external is_digit_int: nat -> int -> bool = "is_digit_int" external is_digit_zero: nat -> int -> bool = "is_digit_zero" external is_digit_normalized: nat -> int -> bool = "is_digit_normalized" external is_digit_odd: nat -> int -> bool = "is_digit_odd" val is_zero_nat: nat -> int -> int -> bool val is_nat_int: nat -> int -> int -> bool val int_of_nat: nat -> int val nat_of_int: int -> nat external incr_nat: nat -> int -> int -> int -> int = "incr_nat" external add_nat: nat -> int -> int -> nat -> int -> int -> int -> int = "add_nat" "add_nat_native" external complement_nat: nat -> int -> int -> unit = "complement_nat" external decr_nat: nat -> int -> int -> int -> int = "decr_nat" external sub_nat: nat -> int -> int -> nat -> int -> int -> int -> int = "sub_nat" "sub_nat_native" external mult_digit_nat: nat -> int -> int -> nat -> int -> int -> nat -> int -> int = "mult_digit_nat" "mult_digit_nat_native" external mult_nat: nat -> int -> int -> nat -> int -> int -> nat -> int -> int -> int = "mult_nat" "mult_nat_native" external square_nat: nat -> int -> int -> nat -> int -> int -> int = "square_nat" "square_nat_native" external shift_left_nat: nat -> int -> int -> nat -> int -> int -> unit = "shift_left_nat" "shift_left_nat_native" external div_digit_nat: nat -> int -> nat -> int -> nat -> int -> int -> nat -> int -> unit = "div_digit_nat" "div_digit_nat_native" external div_nat: nat -> int -> int -> nat -> int -> int -> unit = "div_nat" "div_nat_native" external shift_right_nat: nat -> int -> int -> nat -> int -> int -> unit = "shift_right_nat" "shift_right_nat_native" external compare_digits_nat: nat -> int -> nat -> int -> int = "compare_digits_nat" external compare_nat: nat -> int -> int -> nat -> int -> int -> int = "compare_nat" "compare_nat_native" val eq_nat : nat -> int -> int -> nat -> int -> int -> bool val le_nat : nat -> int -> int -> nat -> int -> int -> bool val lt_nat : nat -> int -> int -> nat -> int -> int -> bool val ge_nat : nat -> int -> int -> nat -> int -> int -> bool val gt_nat : nat -> int -> int -> nat -> int -> int -> bool external land_digit_nat: nat -> int -> nat -> int -> unit = "land_digit_nat" external lor_digit_nat: nat -> int -> nat -> int -> unit = "lor_digit_nat" external lxor_digit_nat: nat -> int -> nat -> int -> unit = "lxor_digit_nat" val gcd_nat : nat -> int -> int -> nat -> int -> int -> int val sqrt_nat : nat -> int -> int -> nat val string_of_nat : nat -> string val nat_of_string : string -> nat val sys_nat_of_string : int -> string -> int -> int -> nat val float_of_nat : nat -> float val make_power_base : int -> nat -> int * int val power_base_int : int -> int -> nat val length_of_digit: int