module Num:Operation on arbitrary-precision numbers.sig
..end
Numbers (type num
) are arbitrary-precision rational numbers,
plus the special elements 1/0
(infinity) and 0/0
(undefined).
type
num =
| |
Int of |
| |
Big_int of |
| |
Ratio of |
val (+/) : num -> num -> num
Num.add_num
.val add_num : num -> num -> num
val minus_num : num -> num
val (-/) : num -> num -> num
Num.sub_num
.val sub_num : num -> num -> num
val (*/) : num -> num -> num
Num.mult_num
.val mult_num : num -> num -> num
val square_num : num -> num
val (//) : num -> num -> num
Num.div_num
.val div_num : num -> num -> num
val quo_num : num -> num -> num
val mod_num : num -> num -> num
val (**/) : num -> num -> num
Num.power_num
.val power_num : num -> num -> num
val abs_num : num -> num
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
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
-1
, 0
or 1
according to the sign of the argument.val (=/) : num -> num -> bool
val () : num -> 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
-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
val min_num : num -> num -> num
val string_of_num : num -> string
val approx_num_fix : int -> num -> string
Num.approx_num_exp
.val approx_num_exp : int -> num -> string
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
val int_of_num : num -> int
val num_of_int : int -> num
val nat_of_num : num -> Nat.nat
val num_of_nat : Nat.nat -> num
val num_of_big_int : Big_int.big_int -> num
val big_int_of_num : num -> Big_int.big_int
val ratio_of_num : num -> Ratio.ratio
val num_of_ratio : Ratio.ratio -> num
val float_of_num : num -> float