(***********************************************************************) (* *) (* 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Module [Ratio]: operations on rational numbers *) open Nat open Big_int (* Rationals (type [ratio]) are arbitrary-precision rational numbers, plus the special elements [1/0] (infinity) and [0/0] (undefined). In constrast with numbers (type [num]), the special cases of small integers and big integers are not optimized specially. *) type ratio val null_denominator : ratio -> bool val numerator_ratio : ratio -> big_int val denominator_ratio : ratio -> big_int val sign_ratio : ratio -> int val normalize_ratio : ratio -> ratio val cautious_normalize_ratio : ratio -> ratio val cautious_normalize_ratio_when_printing : ratio -> ratio val create_ratio : big_int -> big_int -> ratio val create_normalized_ratio : big_int -> big_int -> ratio val is_normalized_ratio : ratio -> bool val report_sign_ratio : ratio -> big_int -> big_int val abs_ratio : ratio -> ratio val is_integer_ratio : ratio -> bool val add_ratio : ratio -> ratio -> ratio val minus_ratio : ratio -> ratio val add_int_ratio : int -> ratio -> ratio val add_big_int_ratio : big_int -> ratio -> ratio val sub_ratio : ratio -> ratio -> ratio val mult_ratio : ratio -> ratio -> ratio val mult_int_ratio : int -> ratio -> ratio val mult_big_int_ratio : big_int -> ratio -> ratio val square_ratio : ratio -> ratio val inverse_ratio : ratio -> ratio val div_ratio : ratio -> ratio -> ratio val integer_ratio : ratio -> big_int val floor_ratio : ratio -> big_int val round_ratio : ratio -> big_int val ceiling_ratio : ratio -> big_int val eq_ratio : ratio -> ratio -> bool val compare_ratio : ratio -> ratio -> int val lt_ratio : ratio -> ratio -> bool val le_ratio : ratio -> ratio -> bool val gt_ratio : ratio -> ratio -> bool val ge_ratio : ratio -> ratio -> bool val max_ratio : ratio -> ratio -> ratio val min_ratio : ratio -> ratio -> ratio val eq_big_int_ratio : big_int -> ratio -> bool val compare_big_int_ratio : big_int -> ratio -> int val lt_big_int_ratio : big_int -> ratio -> bool val le_big_int_ratio : big_int -> ratio -> bool val gt_big_int_ratio : big_int -> ratio -> bool val ge_big_int_ratio : big_int -> ratio -> bool val int_of_ratio : ratio -> int val ratio_of_int : int -> ratio val ratio_of_nat : nat -> ratio val nat_of_ratio : ratio -> nat val ratio_of_big_int : big_int -> ratio val big_int_of_ratio : ratio -> big_int val div_int_ratio : int -> ratio -> ratio val div_ratio_int : ratio -> int -> ratio val div_big_int_ratio : big_int -> ratio -> ratio val div_ratio_big_int : ratio -> big_int -> ratio val approx_ratio_fix : int -> ratio -> string val approx_ratio_exp : int -> ratio -> string val float_of_rational_string : ratio -> string val string_of_ratio : ratio -> string val ratio_of_string : string -> ratio val float_of_ratio : ratio -> float val power_ratio_positive_int : ratio -> int -> ratio val power_ratio_positive_big_int : ratio -> big_int -> ratio