Int
Signed integer numbers with infinite precision (also called big integers).
Most operations on integer numbers (e.g. addition) are available as built-in operators (e.g. -1 + 1
).
This module provides equivalent functions and Text
conversion.
Import from the base library to use this module.
import Int "mo:base/Int";
Type Int
type Int = Prim.Types.Int
Infinite precision signed integers.
Function abs
func abs(x : Int) : Nat
Returns the absolute value of x
.
Example:
Int.abs(-12) // => 12
Function toText
func toText(x : Int) : Text
Converts an integer number to its textual representation. Textual representation do not contain underscores to represent commas.
Example:
Int.toText(-1234) // => "-1234"
Function min
func min(x : Int, y : Int) : Int
Returns the minimum of x
and y
.
Example:
Int.min(2, -3) // => -3
Function max
func max(x : Int, y : Int) : Int
Returns the maximum of x
and y
.
Example:
Int.max(2, -3) // => 2
Function hash
func hash(i : Int) : Hash.Hash
Computes a hash from the least significant 32-bits of i
, ignoring other bits.
@deprecated For large Int
values consider using a bespoke hash function that considers all of the argument's bits.
Function hashAcc
func hashAcc(h1 : Hash.Hash, i : Int) : Hash.Hash
Computes an accumulated hash from h1
and the least significant 32-bits of i
, ignoring other bits in i
.
@deprecated For large Int
values consider using a bespoke hash function that considers all of the argument's bits.
Function equal
func equal(x : Int, y : Int) : Bool
Equality function for Int types.
This is equivalent to x == y
.
Example:
Int.equal(-1, -1); // => true
Note: The reason why this function is defined in this library (in addition
to the existing ==
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use ==
as a function value at the moment.
Example:
import Buffer "mo:base/Buffer";
let buffer1 = Buffer.Buffer<Int>(1);
buffer1.add(-3);
let buffer2 = Buffer.Buffer<Int>(1);
buffer2.add(-3);
Buffer.equal(buffer1, buffer2, Int.equal) // => true
Function notEqual
func notEqual(x : Int, y : Int) : Bool
Inequality function for Int types.
This is equivalent to x != y
.
Example:
Int.notEqual(-1, -2); // => true
Note: The reason why this function is defined in this library (in addition
to the existing !=
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use !=
as a function value at the moment.
Function less
func less(x : Int, y : Int) : Bool
"Less than" function for Int types.
This is equivalent to x < y
.
Example:
Int.less(-2, 1); // => true
Note: The reason why this function is defined in this library (in addition
to the existing <
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use <
as a function value at the moment.
Function lessOrEqual
func lessOrEqual(x : Int, y : Int) : Bool
"Less than or equal" function for Int types.
This is equivalent to x <= y
.
Example:
Int.lessOrEqual(-2, 1); // => true
Note: The reason why this function is defined in this library (in addition
to the existing <=
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use <=
as a function value at the moment.
Function greater
func greater(x : Int, y : Int) : Bool
"Greater than" function for Int types.
This is equivalent to x > y
.
Example:
Int.greater(1, -2); // => true
Note: The reason why this function is defined in this library (in addition
to the existing >
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use >
as a function value at the moment.
Function greaterOrEqual
func greaterOrEqual(x : Int, y : Int) : Bool
"Greater than or equal" function for Int types.
This is equivalent to x >= y
.
Example:
Int.greaterOrEqual(1, -2); // => true
Note: The reason why this function is defined in this library (in addition
to the existing >=
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use >=
as a function value at the moment.
Function compare
func compare(x : Int, y : Int) : {#less; #equal; #greater}
General-purpose comparison function for Int
. Returns the Order
(
either #less
, #equal
, or #greater
) of comparing x
with y
.
Example:
Int.compare(-3, 2) // => #less
This function can be used as value for a high order function, such as a sort function.
Example:
import Array "mo:base/Array";
Array.sort([1, -2, -3], Int.compare) // => [-3, -2, 1]
Function neg
func neg(x : Int) : Int
Returns the negation of x
, -x
.
Example:
Int.neg(123) // => -123
Function add
func add(x : Int, y : Int) : Int
Returns the sum of x
and y
, x + y
.
No overflow since Int
has infinite precision.
Example:
Int.add(1, -2); // => -1
Note: The reason why this function is defined in this library (in addition
to the existing +
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use +
as a function value at the moment.
Example:
import Array "mo:base/Array";
Array.foldLeft([1, -2, -3], 0, Int.add) // => -4
Function sub
func sub(x : Int, y : Int) : Int
Returns the difference of x
and y
, x - y
.
No overflow since Int
has infinite precision.
Example:
Int.sub(1, 2); // => -1
Note: The reason why this function is defined in this library (in addition
to the existing -
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use -
as a function value at the moment.
Example:
import Array "mo:base/Array";
Array.foldLeft([1, -2, -3], 0, Int.sub) // => 4
Function mul
func mul(x : Int, y : Int) : Int
Returns the product of x
and y
, x * y
.
No overflow since Int
has infinite precision.
Example:
Int.mul(-2, 3); // => -6
Note: The reason why this function is defined in this library (in addition
to the existing *
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use *
as a function value at the moment.
Example:
import Array "mo:base/Array";
Array.foldLeft([1, -2, -3], 1, Int.mul) // => 6
Function div
func div(x : Int, y : Int) : Int
Returns the signed integer division of x
by y
, x / y
.
Rounds the quotient towards zero, which is the same as truncating the decimal places of the quotient.
Traps when y
is zero.
Example:
Int.div(6, -2); // => -3
Note: The reason why this function is defined in this library (in addition
to the existing /
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use /
as a function value at the moment.
Function rem
func rem(x : Int, y : Int) : Int
Returns the remainder of the signed integer division of x
by y
, x % y
,
which is defined as x - x / y * y
.
Traps when y
is zero.
Example:
Int.rem(6, -4); // => 2
Note: The reason why this function is defined in this library (in addition
to the existing %
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use %
as a function value at the moment.
Function pow
func pow(x : Int, y : Int) : Int
Returns x
to the power of y
, x ** y
.
Traps when y
is negative or y > 2 ** 32 - 1
.
No overflow since Int
has infinite precision.
Example:
Int.pow(-2, 3); // => -8
Note: The reason why this function is defined in this library (in addition
to the existing **
operator) is so that you can use it as a function
value to pass to a higher order function. It is not possible to use **
as a function value at the moment.