(***********************************************************************) (* *) (* 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: num.mli,v 1.8 2001/12/28 23:15:23 guesdon Exp $ *) (** Operation on arbitrary-precision numbers. Numbers (type [num]) are arbitrary-precision rational numbers, plus the special elements [1/0] (infinity) and [0/0] (undefined). *) open Nat open Big_int open Ratio (** The type of numbers. *) type num = Int of int | Big_int of big_int | Ratio of ratio (** {6 Arithmetic operations} *) val ( +/ ) : num -> num -> num (** Same as {!Num.add_num}.*) val add_num : num -> num -> num (** Addition *) val minus_num : num -> num (** Unary negation. *) val ( -/ ) : num -> num -> num (** Same as {!Num.sub_num}.*) val sub_num : num -> num -> num (** Subtraction *) val ( */ ) : num -> num -> num (** Same as {!Num.mult_num}.*) val mult_num : num -> num -> num (** Multiplication *) val square_num : num -> num (** Squaring *) val ( // ) : num -> num -> num (** Same as {!Num.div_num}.*) val div_num : num -> num -> num (** Division *) val quo_num : num -> num -> num (** Euclidean division: quotient. *) val mod_num : num -> num -> num (** Euclidean division: remainder. *) val ( **/ ) : num -> num -> num (** Same as {!Num.power_num}. *) val power_num : num -> num -> num (** Exponentiation *) val abs_num : num -> num (** Absolute value. *) val succ_num : num -> num (** [succ n] is [n+1] *) val pred_num : num -> num (** [pred n] is [n-1] *) val incr_num : num ref -> unit (** [incr r] is [r:=!r+1], where [r] is a reference to a number. *) val decr_num : num ref -> unit (** [decr r] is [r:=!r-1], where [r] is a reference to a number. *) val is_integer_num : num -> bool (** Test if a number is an integer *) (** The four following functions approximate a number by an integer : *) val integer_num : num -> num (** [integer_num n] returns the integer closest to [n]. In case of ties, rounds towards zero. *) val floor_num : num -> num (** [floor_num n] returns the largest integer smaller or equal to [n]. *) val round_num : num -> num (** [round_num n] returns the integer closest to [n]. In case of ties, rounds off zero. *) val ceiling_num : num -> num (** [ceiling_num n] returns the smallest integer bigger or equal to [n]. *) val sign_num : num -> int (** Return [-1], [0] or [1] according to the sign of the argument. *) (** {7 Comparisons between numbers} *) val ( =/ ) : num -> num -> bool val ( num -> bool val ( >/ ) : num -> num -> bool val ( <=/ ) : num -> num -> bool val ( >=/ ) : num -> num -> bool val ( <>/ ) : num -> num -> bool val eq_num : num -> num -> bool val lt_num : num -> num -> bool val le_num : num -> num -> bool val gt_num : num -> num -> bool val ge_num : num -> num -> bool val compare_num : num -> num -> int (** Return [-1], [0] or [1] if the first argument is less than, equal to, or greater than the second argument. *) val max_num : num -> num -> num (** Return the greater of the two arguments. *) val min_num : num -> num -> num (** Return the smaller of the two arguments. *) (** {6 Coercions with strings} *) val string_of_num : num -> string (** Convert a number to a string, using fractional notation. *) val approx_num_fix : int -> num -> string (** See {!Num.approx_num_exp}.*) val approx_num_exp : int -> num -> string (** Approximate a number by a decimal. The first argument is the required precision. The second argument is the number to approximate. {!Num.approx_num_fix} uses decimal notation; the first argument is the number of digits after the decimal point. [approx_num_exp] uses scientific (exponential) notation; the first argument is the number of digits in the mantissa. *) val num_of_string : string -> num (** Convert a string to a number. *) (** {6 Coercions between numerical types} *) val int_of_num : num -> int val num_of_int : int -> num val nat_of_num : num -> nat val num_of_nat : nat -> num val num_of_big_int : big_int -> num val big_int_of_num : num -> big_int val ratio_of_num : num -> ratio val num_of_ratio : ratio -> num val float_of_num : num -> float