# Int

Integer numbers

Most operations on integers (e.g. addition) are available as built-in operators (e.g. `1 + 1`). This module provides equivalent functions and `Text` conversion.

## Int

``type Int = Prim.Types.Int``

Infinite precision signed integers.

## abs

``let abs : Int -> Nat``

Returns the absolute value of the number

## toText

``let toText : Int -> Text``

Conversion.

## min

``func min(x : Int, y : Int) : Int``

Returns the minimum of `x` and `y`.

## max

``func max(x : Int, y : Int) : Int``

Returns the maximum of `x` and `y`.

## hash

``func hash(i : Int) : Hash.Hash``

## hashAcc

``func hashAcc(h1 : Hash.Hash, i : Int) : Hash.Hash``
 May go away (?)

## equal

``func equal(x : Int, y : Int) : Bool``

Returns `x == y`.

## notEqual

``func notEqual(x : Int, y : Int) : Bool``

Returns `x != y`.

## less

``func less(x : Int, y : Int) : Bool``

Returns `x < y`.

## lessOrEqual

``func lessOrEqual(x : Int, y : Int) : Bool``

Returns `x ⇐ y`.

## greater

``func greater(x : Int, y : Int) : Bool``

Returns `x > y`.

## greaterOrEqual

``func greaterOrEqual(x : Int, y : Int) : Bool``

Returns `x >= y`.

## compare

``func compare(x : Int, y : Int) : {#less; #equal; #greater}``

Returns the order of `x` and `y`.

## neq

``func neq(x : Int) : Int``

Returns the negation of `x`, `-x` .

``func add(x : Int, y : Int) : Int``

Returns the sum of `x` and `y`, `x + y`.

## sub

``func sub(x : Int, y : Int) : Int``

Returns the difference of `x` and `y`, `x - y`.

## mul

``func mul(x : Int, y : Int) : Int``

Returns the product of `x` and `y`, `x * y`.

## div

``func div(x : Int, y : Int) : Int``

Returns the division of `x` by `y`, `x / y`. Traps when `y` is zero.

## rem

``func rem(x : Int, y : Int) : Int``

Returns the remainder of `x` divided by `y`, `x % y`. Traps when `y` is zero.

## pow

``func pow(x : Int, y : Int) : Int``

Returns `x` to the power of `y`, `x ** y`.