63-bit integers.
The size of Int63 is always 63 bits. On a 64-bit platform it is just an int (63-bits), and on a 32-bit platform it is an int64 wrapped to respect the semantics of 63-bit integers.
Because Int63
has different representations on 32-bit and 64-bit platforms, marshalling Int63
will not work between 32-bit and 64-bit platforms -- unmarshal
will segfault.
In 64-bit architectures, we expose type t = private int
so that the compiler can omit caml_modify
when dealing with record fields holding Int63.t
.
Code should not explicitly make use of the private
, e.g., via (i :> int)
, since such code will not compile on 32-bit platforms.
include sig ... end
include Floatable.S with type t := t
val of_float : float -> t
val to_float : t -> float
include Intable.S with type t := t
val of_int_exn : int -> t
val to_int_exn : t -> int
include Identifiable.S with type t := t
include Stringable.S with type t := t
val of_string : string -> t
val to_string : t -> string
include Comparable.S with type t := t
include Comparisons.S with type t := t
val equal : t -> t -> bool
val compare : t -> t -> int
compare t1 t2
returns 0 if t1
is equal to t2
, a negative integer if t1
is less than t2
, and a positive integer if t1
is greater than t2
.
val ascending : t -> t -> int
ascending
is identical to compare
. descending x y = ascending y x
. These are intended to be mnemonic when used like List.sort ~compare:ascending
and List.sort
~cmp:descending
, since they cause the list to be sorted in ascending or descending order, respectively.
val descending : t -> t -> int
val between : t -> low:t -> high:t -> bool
between t ~low ~high
means low <= t <= high
val clamp_exn : t -> min:t -> max:t -> t
clamp_exn t ~min ~max
returns t'
, the closest value to t
such that between t' ~low:min ~high:max
is true.
Raises if not (min <= max)
.
include Comparable.With_zero with type t := t
val is_positive : t -> bool
val is_non_negative : t -> bool
val is_negative : t -> bool
val is_non_positive : t -> bool
val sign : t -> Base__.Sign0.t
Returns Neg
, Zero
, or Pos
in a way consistent with the above functions.
val to_string_hum : ?delimiter:char -> t -> string
delimiter
is an underscore by default.
Infix operators and constants
Negation
There are two pairs of integer division and remainder functions, /%
and %
, and /
and rem
. They both satisfy the same equation relating the quotient and the remainder:
x = (x /% y) * y + (x % y);
x = (x / y) * y + (rem x y);
The functions return the same values if x
and y
are positive. They all raise if y = 0
.
The functions differ if x < 0
or y < 0
.
If y < 0
, then %
and /%
raise, whereas /
and rem
do not.
x % y
always returns a value between 0 and y - 1
, even when x < 0
. On the other hand, rem x y
returns a negative value if and only if x < 0
; that value satisfies abs (rem x y) <= abs y - 1
.
val (//) : t -> t -> float
Float division of integers.
val (lsl) : t -> int -> t
val (asr) : t -> int -> t
Successor and predecessor functions
round
rounds an int to a multiple of a given to_multiple_of
argument, according to a direction dir
, with default dir
being `Nearest
. round
will raise if to_multiple_of <= 0
.
| `Down | rounds toward Int.neg_infinity |
| `Up | rounds toward Int.infinity |
| `Nearest | rounds to the nearest multiple, or `Up in case of a tie |
| `Zero | rounds toward zero |
Here are some examples for round ~to_multiple_of:10
for each direction:
| `Down | {10 .. 19} --> 10 | { 0 ... 9} --> 0 | {-10 ... -1} --> -10 |
| `Up | { 1 .. 10} --> 10 | {-9 ... 0} --> 0 | {-19 .. -10} --> -10 |
| `Zero | {10 .. 19} --> 10 | {-9 ... 9} --> 0 | {-19 .. -10} --> -10 |
| `Nearest | { 5 .. 14} --> 10 | {-5 ... 4} --> 0 | {-15 ... -6} --> -10 |
For convenience and performance, there are variants of round
with dir
hard-coded. If you are writing performance-critical code you should use these.
val round :
?dir:[ `Zero | `Nearest | `Up | `Down ] ->
t ->
to_multiple_of:t ->
t
val round_towards_zero : t -> to_multiple_of:t -> t
val round_down : t -> to_multiple_of:t -> t
val round_up : t -> to_multiple_of:t -> t
val round_nearest : t -> to_multiple_of:t -> t
Returns the absolute value of the argument. May be negative if the input is min_value
.
Exponentiation
pow base exponent
returns base
raised to the power of exponent
. It is OK if base <= 0
. pow
raises if exponent < 0
, or an integer overflow would occur.
Bit-wise logical operations
val bit_and : t -> t -> t
These are identical to land
, lor
, etc. except they're not infix and have different names.
val bit_xor : t -> t -> t
Returns the number of 1 bits in the binary representation of the input.
Bit-shifting operations
The results are unspecified for negative shifts and shifts >= num_bits
.
val shift_left : t -> int -> t
Shifts left, filling in with zeroes.
val shift_right : t -> int -> t
Shifts right, preserving the sign of the input.
Increment and decrement functions for integer references
val of_int32_exn : int32 -> t
val to_int32_exn : t -> int32
val of_int64_exn : int64 -> t
val to_int64 : t -> int64
val of_nativeint_exn : nativeint -> t
val to_nativeint_exn : t -> nativeint
val of_float_unchecked : float -> t
of_float_unchecked
truncates the given floating point number to an integer, rounding towards zero. The result is unspecified if the argument is nan or falls outside the range of representable integers.
The number of bits available in this integer type. Note that the integer representations are signed.
The largest representable integer.
The smallest representable integer.
val (lsr) : t -> int -> t
Same as shift_right_logical
.
val shift_right_logical : t -> int -> t
Shifts right, filling in with zeroes, which will not preserve the sign of the input.
A sub-module designed to be opened to make working with ints more convenient.
Arithmetic with overflow
Unlike the usual operations, these never overflow, preferring instead to raise.
Conversion functions
val to_int : t -> int option
val of_nativeint : nativeint -> t option
val to_nativeint : t -> nativeint option
Truncating conversions
These functions return the least-significant bits of the input. In cases where optional conversions return Some x
, truncating conversions return x
.
val to_int_trunc : t -> int
val of_nativeint_trunc : nativeint -> t
val to_nativeint_trunc : t -> nativeint
Random generation
random ~state bound
returns a random integer between 0 (inclusive) and bound
(exclusive). bound
must be greater than 0.
The default ~state
is Random.State.default
.
random_incl ~state lo hi
returns a random integer between lo
(inclusive) and hi
(inclusive). Raises if lo > hi
.
The default ~state
is Random.State.default
.
val floor_log2 : t -> int
floor_log2 x
returns the floor of log-base-2 of x
, and raises if x <= 0
.