I realize the Swift book provided an implementation of a random number generator. Is the best practice to copy and paste this implementation? Or is there a library that does this that we can use now?
26 Answers
Swift 4.2+
Swift 4.2 shipped with Xcode 10 introduces new easytouse random functions for many data types.
You simply call the random()
method on numeric types.
let randomInt = Int.random(in: 0..<6)
let randomDouble = Double.random(in: 2.71828...3.14159)
let randomBool = Bool.random()

11

4In my Playground file I needed to import Darwin because I wasn't importing anything else.– DonnaLeaCommented Mar 19, 2015 at 1:38

1SoliQuiD: except omit the extra underscore after arc4, i.e. arc4random_uniform(5). Commented Jun 17, 2017 at 10:43

7Warning: RC4 or arc4 has been shown to be distinguishable from pure random values. So although arc4 (a stream cipher) sounds cryptographically secure, it actually isn't. Commented Jun 8, 2018 at 2:11

7@MaartenBodewes: no longer directly relevant to this answer, but arc4random does not actually use the RC4 cipher, despite its name, on macOS or the BSDs. It uses a systemprovided CSPRNG on macOS, and ChaCha20 on most BSDs. Swift's default RNG (as used in this answer) calls it as an implementation detail on macOS, but uses an appropriate underlying generator on each supported platform. Commented Mar 27, 2020 at 2:06
Use arc4random_uniform(n)
for a random integer between 0 and n1.
let diceRoll = Int(arc4random_uniform(6) + 1)
Cast the result to Int so you don't have to explicitly type your vars as UInt32
(which seems unSwifty).

8Very simple. I like it. Upvote! But an actual dice doesn't have
0
. In your code,diceRoll
could be0
. Just saying... Commented Aug 3, 2014 at 14:20 
62Yeah, you really want
Int(arc4random_uniform(6)+1)
. Commented Nov 28, 2014 at 22:11 
6probability = Int(arc4random_uniform(UInt32(total))) – i also had to cast into UInt32– bshirleyCommented Jan 7, 2016 at 18:02

4let randomElementInArray = Int(arc4random_uniform(array.count))– cmarioCommented May 24, 2016 at 9:17

Don't forget to cast the parameter, n, entered into
arc3random_uniform(n)
to aUInt32(n)
if you are using a value that isn't already of that type. Commented May 27, 2016 at 7:09
Edit: Updated for Swift 3.0
arc4random
works well in Swift, but the base functions are limited to 32bit integer types (Int
is 64bit on iPhone 5S and modern Macs). Here's a generic function for a random number of a type expressible by an integer literal:
public func arc4random<T: ExpressibleByIntegerLiteral>(_ type: T.Type) > T {
var r: T = 0
arc4random_buf(&r, MemoryLayout<T>.size)
return r
}
We can use this new generic function to extend UInt64
, adding boundary arguments and mitigating modulo bias. (This is lifted straight from arc4random.c)
public extension UInt64 {
public static func random(lower: UInt64 = min, upper: UInt64 = max) > UInt64 {
var m: UInt64
let u = upper  lower
var r = arc4random(UInt64.self)
if u > UInt64(Int64.max) {
m = 1 + ~u
} else {
m = ((max  (u * 2)) + 1) % u
}
while r < m {
r = arc4random(UInt64.self)
}
return (r % u) + lower
}
}
With that we can extend Int64
for the same arguments, dealing with overflow:
public extension Int64 {
public static func random(lower: Int64 = min, upper: Int64 = max) > Int64 {
let (s, overflow) = Int64.subtractWithOverflow(upper, lower)
let u = overflow ? UInt64.max  UInt64(~s) : UInt64(s)
let r = UInt64.random(upper: u)
if r > UInt64(Int64.max) {
return Int64(r  (UInt64(~lower) + 1))
} else {
return Int64(r) + lower
}
}
}
To complete the family...
private let _wordSize = __WORDSIZE
public extension UInt32 {
public static func random(lower: UInt32 = min, upper: UInt32 = max) > UInt32 {
return arc4random_uniform(upper  lower) + lower
}
}
public extension Int32 {
public static func random(lower: Int32 = min, upper: Int32 = max) > Int32 {
let r = arc4random_uniform(UInt32(Int64(upper)  Int64(lower)))
return Int32(Int64(r) + Int64(lower))
}
}
public extension UInt {
public static func random(lower: UInt = min, upper: UInt = max) > UInt {
switch (_wordSize) {
case 32: return UInt(UInt32.random(UInt32(lower), upper: UInt32(upper)))
case 64: return UInt(UInt64.random(UInt64(lower), upper: UInt64(upper)))
default: return lower
}
}
}
public extension Int {
public static func random(lower: Int = min, upper: Int = max) > Int {
switch (_wordSize) {
case 32: return Int(Int32.random(Int32(lower), upper: Int32(upper)))
case 64: return Int(Int64.random(Int64(lower), upper: Int64(upper)))
default: return lower
}
}
}
After all that, we can finally do something like this:
let diceRoll = UInt64.random(lower: 1, upper: 7)

It does not compile:
var r = arc4random(UInt64)
. Please advice what did you mean here?– OssirCommented Mar 25, 2016 at 14:23 
@Ossir compiles fine for me... it means call the function
arc4random
(defined in the first code block) with the argumentUInt64
which is aType
.– jstnCommented May 6, 2016 at 14:24 
Does arc4random_buf (and therefore all of the 64bit extensions) suffer from modulo bias? Commented May 11, 2016 at 18:53

Modulo bias only comes into play when you add an upper bound, so it doesn't apply to
arc4random_buf
. The purpose of these extensions is to do exactly whatarc4random_uniform
does (mitigate modulo bias) except for 64bit types.– jstnCommented May 14, 2016 at 2:42 
when using the float functions, how can I include the upper value in the range of possibilities? So lets say I do 0.0 as the lower and 1.0 as the upper. With this logic it will give me 0.0 up to 0.99999999. But instead I'd like to include the 1.0 as a possibility. How can I achieve this? Commented Oct 19, 2016 at 18:01
Edit for Swift 4.2
Starting in Swift 4.2, instead of using the imported C function arc4random_uniform(), you can now use Swift’s own native functions.
// Generates integers starting with 0 up to, and including, 10
Int.random(in: 0 ... 10)
You can use random(in:)
to get random values for other primitive values as well; such as Int, Double, Float and even Bool.
Swift versions < 4.2
This method will generate a random Int
value between the given minimum and maximum
func randomInt(min: Int, max: Int) > Int {
return min + Int(arc4random_uniform(UInt32(max  min + 1)))
}
I used this code:
var k: Int = random() % 10;

20you must call srandom(UInt32(time(nil))) first, otherwise it will always return the same number sequence Commented Jan 3, 2015 at 15:43

3I read the apple doc on random() twice but could not glean its usage... I wish they simply included a simply code sample like this on above. "The random() function uses a nonlinear, additive feedback, random number generator, employing a default table of size 31 long integers. It returns successive pseudorandom numbers in the range from 0 to (231)1. The period of this random number generator is very large, approximately 16*((231)1)." ... Thanks a lot apple... I'll be sure to reference this in my next thesis. Commented May 21, 2015 at 21:22

1random() sometimes leads to a sudden crash on iPads. If this happens, use the arc4random_uniform(6) from above. If you use random() then you can create more random values by prepending srandomdev(). Commented Feb 10, 2016 at 12:55

1I got compiler error message:
random is unavailable in Swift: Use arc4random instead.
Commented Aug 15, 2017 at 15:39 
2This solution has modulo bias: zuttobenkyou.wordpress.com/2012/10/18/…– rgovCommented Dec 12, 2017 at 3:25
As of iOS 9, you can use the new GameplayKit classes to generate random numbers in a variety of ways.
You have four source types to choose from: a general random source (unnamed, down to the system to choose what it does), linear congruential, ARC4 and Mersenne Twister. These can generate random ints, floats and bools.
At the simplest level, you can generate a random number from the system's builtin random source like this:
GKRandomSource.sharedRandom().nextInt()
That generates a number between 2,147,483,648 and 2,147,483,647. If you want a number between 0 and an upper bound (exclusive) you'd use this:
GKRandomSource.sharedRandom().nextIntWithUpperBound(6)
GameplayKit has some convenience constructors built in to work with dice. For example, you can roll a sixsided die like this:
let d6 = GKRandomDistribution.d6()
d6.nextInt()
Plus you can shape the random distribution by using things like GKShuffledDistribution. That takes a little more explaining, but if you're interested you can read my tutorial on GameplayKit random numbers.

1Thanks for this tip, it is one of best answers. To use these functions one needs to add
import GameplayKit
. Swift 3 changed the syntax toGKRandomSource.sharedRandom().nextInt(upperBound: 6)
– petrsynCommented Sep 29, 2016 at 10:53 
8how heavy is this kit to import? i don't want to bloat my code. Commented Dec 24, 2016 at 4:52
You can do it the same way that you would in C:
let randomNumber = arc4random()
randomNumber
is inferred to be of type UInt32
(a 32bit unsigned integer)

12Addendum:
rand
,arc4random
,drand48
and friends are all in theDarwin
module. It's already imported for you if you're building a Cocoa, UIKit, or Foundation app, but you'll need toimport Darwin
in playgrounds.– ricksterCommented Jun 3, 2014 at 5:00 
5And don't attempt to cast the result of arc4random() to an Int — this will work fine on a 64bit platform, but on a 32bit platform, Ints are 32bit signed, so you'll get unexpected negative numbers. This has tripped a few people up already, so I figured I'd mention it here. Commented Aug 6, 2014 at 22:08
Use arc4random_uniform()
Usage:
arc4random_uniform(someNumber: UInt32) > UInt32
This gives you random integers in the range 0
to someNumber  1
.
The maximum value for UInt32
is 4,294,967,295 (that is, 2^32  1
).
Examples:
Coin flip
let flip = arc4random_uniform(2) // 0 or 1
Dice roll
let roll = arc4random_uniform(6) + 1 // 1...6
Random day in October
let day = arc4random_uniform(31) + 1 // 1...31
Random year in the 1990s
let year = 1990 + arc4random_uniform(10)
General form:
let number = min + arc4random_uniform(max  min + 1)
where number
, max
, and min
are UInt32
.
What about...
arc4random()
You can also get a random number by using arc4random()
, which produces a UInt32
between 0 and 2^321. Thus to get a random number between 0
and x1
, you can divide it by x
and take the remainder. Or in other words, use the Remainder Operator (%):
let number = arc4random() % 5 // 0...4
However, this produces the slight modulo bias (see also here and here), so that is why arc4random_uniform()
is recommended.
Converting to and from Int
Normally it would be fine to do something like this in order to convert back and forth between Int
and UInt32
:
let number: Int = 10
let random = Int(arc4random_uniform(UInt32(number)))
The problem, though, is that Int
has a range of 2,147,483,648...2,147,483,647
on 32 bit systems and a range of 9,223,372,036,854,775,808...9,223,372,036,854,775,807
on 64 bit systems. Compare this to the UInt32
range of 0...4,294,967,295
. The U
of UInt32
means unsigned.
Consider the following errors:
UInt32(1) // negative numbers cause integer overflow error
UInt32(4294967296) // numbers greater than 4,294,967,295 cause integer overflow error
So you just need to be sure that your input parameters are within the UInt32
range and that you don't need an output that is outside of that range either.
Example for random number in between 10 (09);
import UIKit
let randomNumber = Int(arc4random_uniform(10))
Very easy code  simple and short.
I've been able to just use rand()
to get a random CInt. You can make it an Int by using something like this:
let myVar: Int = Int(rand())
You can use your favourite C random function, and just convert to value to Int if needed.

Yep, type conversion can be a tricky business otherwise and letting the Int constructor deal with it is real pain saver.– KzrbillCommented Jun 7, 2014 at 10:58

4Note that if you're not calling srand(...) (call it once only) before using rand(), the sequence of numbers will always be exactly the same between each execution of your program. If you don't want this then use arc4random()– SomeGuyCommented Jun 26, 2014 at 14:43

2You could also used
random()
, which returns anInt
rather thanUInt32
 and like @SomeGuy mentioned, simply callsrandom(arc4random())
once anywhere before using it to ensure it has a different, randomized seed for each execution of your program. Commented Jul 9, 2014 at 11:05 
1Can anyone comment on rand() vs arc4random_uniform()? Commented Oct 16, 2014 at 3:22
@jstn's answer is good, but a bit verbose. Swift is known as a protocoloriented language, so we can achieve the same result without having to implement boilerplate code for every class in the integer family, by adding a default implementation for the protocol extension.
public extension ExpressibleByIntegerLiteral {
public static func arc4random() > Self {
var r: Self = 0
arc4random_buf(&r, MemoryLayout<Self>.size)
return r
}
}
Now we can do:
let i = Int.arc4random()
let j = UInt32.arc4random()
and all other integer classes are ok.
In Swift 4.2 you can generate random numbers by calling the random()
method on whatever numeric type you want, providing the range you want to work with. For example, this generates a random number in the range 1 through 9, inclusive on both sides
let randInt = Int.random(in: 1..<10)
Also with other types
let randFloat = Float.random(in: 1..<20)
let randDouble = Double.random(in: 1...30)
let randCGFloat = CGFloat.random(in: 1...40)
Updated: June 09, 2022.
Swift 5.7
Let's assume we have an array:
let numbers: [Int] = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
For iOS and macOS you can use systemwide random source in Xcode's framework GameKit
. Here you can find GKRandomSource
class with its sharedRandom()
class method:
import GameKit
private func randomNumberGenerator() > Int {
let rand = GKRandomSource.sharedRandom().nextInt(upperBound: numbers.count)
return numbers[rand]
}
randomNumberGenerator()
Also you can use a randomElement()
method that returns a random element of a collection:
let randomNumber = numbers.randomElement()!
print(randomNumber)
Or use arc4random_uniform()
. Pay attention that this method returns UInt32
type.
let generator = Int(arc4random_uniform(11))
print(generator)
And, of course, we can use a makeIterator()
method that returns an iterator over the elements of the collection.
let iterator: Int = (1...10).makeIterator().shuffled().first!
print(iterator)
The final example you see here returns a random value within the specified range with a help of static func random(in range: ClosedRange<Int>) > Int
.
let randomizer = Int.random(in: 1...10)
print(randomizer)
Pseudorandom Double number generator drand48()
returns a value between 0.0 and 1.0.
import Foundation
let randomInt = Int(drand48() * 10)
Since Swift 4.2
There is a new set of APIs:
let randomIntFrom0To10 = Int.random(in: 0 ..< 10)
let randomDouble = Double.random(in: 1 ... 10)
All numeric types now have the
random(in:)
method that takesrange
.It returns a number uniformly distributed in that range.
TL;DR
Well, what is wrong with the "good" old way?
You have to use imported C APIs (They are different between platforms).
And moreover...
What if I told you that the random is not that random?
If you use arc4random()
(to calculate the remainder) like arc4random() % aNumber
, the result is not uniformly distributed between the 0
and aNumber
. There is a problem called the Modulo bias.
Modulo bias
Normally, the function generates a random number between 0
and MAX (depends on the type etc.). To make a quick, easy example, let's say the max number is 7
and you care about a random number in the range 0 ..< 2
(or the interval [0, 3) if you prefer that).
The probabilities for individual numbers are:
 0: 3/8 = 37.5%
 1: 3/8 = 37.5%
 2: 2/8 = 25%
In other words, you are more likely to end up with 0 or 1 than 2. Of course, bare in mind that this is extremely simplified and the MAX number is much higher, making it more "fair".
This problem is addressed by SE0202  Random unification in Swift 4.2
Here is a library that does the job well https://github.com/thellimist/SwiftRandom
public extension Int {
/// SwiftRandom extension
public static func random(lower: Int = 0, _ upper: Int = 100) > Int {
return lower + Int(arc4random_uniform(UInt32(upper  lower + 1)))
}
}
public extension Double {
/// SwiftRandom extension
public static func random(lower: Double = 0, _ upper: Double = 100) > Double {
return (Double(arc4random()) / 0xFFFFFFFF) * (upper  lower) + lower
}
}
public extension Float {
/// SwiftRandom extension
public static func random(lower: Float = 0, _ upper: Float = 100) > Float {
return (Float(arc4random()) / 0xFFFFFFFF) * (upper  lower) + lower
}
}
public extension CGFloat {
/// SwiftRandom extension
public static func random(lower: CGFloat = 0, _ upper: CGFloat = 1) > CGFloat {
return CGFloat(Float(arc4random()) / Float(UINT32_MAX)) * (upper  lower) + lower
}
}
let MAX : UInt32 = 9
let MIN : UInt32 = 1
func randomNumber()
{
var random_number = Int(arc4random_uniform(MAX) + MIN)
print ("random = ", random_number);
}
Update
My original comments below may be of historical interest, but the answer ever since Swift 4.2 the correct answer is to use random(in:).
Original comments
I would like to add to existing answers that the random number generator example in the Swift book is a Linear Congruence Generator (LCG), it is a severely limited one and shouldn't be except for the must trivial examples, where quality of randomness doesn't matter at all. And a LCG should never be used for cryptographic purposes.
arc4random()
is much better and can be used for most purposes, but again should not be used for cryptographic purposes.
If you want something that is guaranteed to be cryptographically secure, use SecCopyRandomBytes()
. Note that if you build a random number generator into something, someone else might end up (mis)using it for cryptographic purposes (such as password, key or salt generation), then you should consider using SecCopyRandomBytes()
anyway, even if your need doesn't quite require that.

But how do I generate a random number in range using
SecCopyRandomBytes()
? How to generate a secure random number between 0 and 128, for example?– astroboyCommented Jul 19, 2023 at 9:48 
1@acmpu6ou, just use
random(in:)
. Much of the discussion you see here, including my original comment, is about working around the fact that Swift did not at the time provide a nice way of handing this. That has long since been remedied. Commented Sep 6, 2023 at 18:29
Swift 4.2
Bye bye to import Foundation C lib arc4random_uniform()
// 1
let digit = Int.random(in: 0..<10)
// 2
if let anotherDigit = (0..<10).randomElement() {
print(anotherDigit)
} else {
print("Empty range.")
}
// 3
let double = Double.random(in: 0..<1)
let float = Float.random(in: 0..<1)
let cgFloat = CGFloat.random(in: 0..<1)
let bool = Bool.random()
 You use random(in:) to generate random digits from ranges.
 randomElement() returns nil if the range is empty, so you unwrap the returned Int? with if let.
 You use random(in:) to generate a random Double, Float or CGFloat and random() to return a random Bool.
var randomNumber = Int(arc4random_uniform(UInt32(5)))
Here 5 will make sure that the random number is generated through zero to four. You can set the value accordingly.

1If you pass 5 it will return 5 possible results from zero to four. 0...4 Commented Jan 15, 2017 at 3:07

For anyone googling here this is extremely out of date, don't use– FattieCommented Feb 8, 2023 at 13:15
Without arc4Random_uniform() in some versions of Xcode(in 7.1 it runs but doesn't autocomplete for me). You can do this instead.
To generate a random number from 05. First
import GameplayKit
Then
let diceRoll = GKRandomSource.sharedRandom().nextIntWithUpperBound(6)
The following code will produce a secure random number between 0 and 255:
extension UInt8 {
public static var random: UInt8 {
var number: UInt8 = 0
_ = SecRandomCopyBytes(kSecRandomDefault, 1, &number)
return number
}
}
You call it like this:
print(UInt8.random)
For bigger numbers it becomes more complicated.
This is the best I could come up with:
extension UInt16 {
public static var random: UInt16 {
let count = Int(UInt8.random % 2) + 1
var numbers = [UInt8](repeating: 0, count: 2)
_ = SecRandomCopyBytes(kSecRandomDefault, count, &numbers)
return numbers.reversed().reduce(0) { $0 << 8 + UInt16($1) }
}
}
extension UInt32 {
public static var random: UInt32 {
let count = Int(UInt8.random % 4) + 1
var numbers = [UInt8](repeating: 0, count: 4)
_ = SecRandomCopyBytes(kSecRandomDefault, count, &numbers)
return numbers.reversed().reduce(0) { $0 << 8 + UInt32($1) }
}
}
These methods use an extra random number to determine how many UInt8
s are going to be used to create the random number. The last line converts the [UInt8]
to UInt16
or UInt32
.
I don't know if the last two still count as truly random, but you can tweak it to your likings :)

1You cleverly avoided the bias introduced by modulo, ＋1 for that. You might warn readers why you did it.– jwwCommented Nov 5, 2017 at 15:32

1That's interesting, I didn't really consider that modulo bias might be in play here. Perhaps the chances of getting a small number aren't the same as getting a large number.– YvoCommented Nov 9, 2017 at 18:06

But how do I specify my own range? What if I need to generate a number between 0 and 56, for example? Also, I think you shouldn't ignore the returned value from
SecRandomCopyBytes
.– astroboyCommented Jul 19, 2023 at 9:50 
Here is an answer to my question if anyone's interested: stackoverflow.com/a/76722087/11004423– astroboyCommented Jul 19, 2023 at 13:56
Swift 4.2
Swift 4.2 has included a native and fairly fullfeatured random number API in the standard library. (Swift Evolution proposal SE0202)
let intBetween0to9 = Int.random(in: 0...9)
let doubleBetween0to1 = Double.random(in: 0...1)
All number types have the static random(in:) which takes the range and returns the random number in the given range
Xcode 14, swift 5
public extension Array where Element == Int {
static func generateNonRepeatedRandom(size: Int) > [Int] {
guard size > 0 else {
return [Int]()
}
return Array(0..<size).shuffled()
}
}
How to use:
let array = Array.generateNonRepeatedRandom(size: 15)
print(array)
Output
You can use GeneratorOf
like this:
var fibs = ArraySlice([1, 1])
var fibGenerator = GeneratorOf{
_ > Int? in
fibs.append(fibs.reduce(0, combine:+))
return fibs.removeAtIndex(0)
}
println(fibGenerator.next())
println(fibGenerator.next())
println(fibGenerator.next())
println(fibGenerator.next())
println(fibGenerator.next())
println(fibGenerator.next())

3

Hi Nikolai, This code block is old version Swift 1.2. If you try new Swift 2.0. It wouldn't be work. Commented Nov 9, 2015 at 22:22

2I understand, but still it looks like a fibonacci generator to me, not random numbers, like asked for in the question. Commented Nov 10, 2015 at 6:21
I use this code to generate a random number:
//
// FactModel.swift
// Collection
//
// Created by Ahmadreza Shamimi on 6/11/16.
// Copyright © 2016 Ahmadreza Shamimi. All rights reserved.
//
import GameKit
struct FactModel {
let fun = ["I love swift","My name is Ahmadreza","I love coding" ,"I love PHP","My name is ALireza","I love Coding too"]
func getRandomNumber() > String {
let randomNumber = GKRandomSource.sharedRandom().nextIntWithUpperBound(fun.count)
return fun[randomNumber]
}
}

2Welcome to SO. Code only answers are discouraged  please edit your answer to explain why this code answers the question, and how it works. See stackoverflow.com/help/howtoanswer for more information. Commented Jun 12, 2016 at 2:58

2Please provide some context around your answer, and welcome to stackoverflow. :) Commented Jun 12, 2016 at 3:12
Details
xCode 9.1, Swift 4
Math oriented solution (1)
import Foundation
class Random {
subscript<T>(_ min: T, _ max: T) > T where T : BinaryInteger {
get {
return rand(min1, max+1)
}
}
}
let rand = Random()
func rand<T>(_ min: T, _ max: T) > T where T : BinaryInteger {
let _min = min + 1
let difference = max  _min
return T(arc4random_uniform(UInt32(difference))) + _min
}
Usage of solution (1)
let x = rand(5, 5) // x = [4, 3, 2, 1, 0, 1, 2, 3, 4]
let x = rand[0, 10] // x = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
Programmers oriented solution (2)
Do not forget to add Math oriented solution (1) code here
import Foundation
extension CountableRange where Bound : BinaryInteger {
var random: Bound {
return rand(lowerBound1, upperBound)
}
}
extension CountableClosedRange where Bound : BinaryInteger {
var random: Bound {
return rand[lowerBound, upperBound]
}
}
Usage of solution (2)
let x = (8..<2).random // x = [8, 7, 6, 5, 4, 3, 2, 1, 0, 1]
let x = (0..<10).random // x = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
let x = (10 ... 2).random // x = [10, 9, 8, 7, 6, 5, 4, 3, 2]
Full Sample
Do not forget to add solution (1) and solution (2) codes here
private func generateRandNums(closure:()>(Int)) {
var allNums = Set<Int>()
for _ in 0..<100 {
allNums.insert(closure())
}
print(allNums.sorted{ $0 < $1 })
}
generateRandNums {
(8..<2).random
}
generateRandNums {
(0..<10).random
}
generateRandNums {
(10 ... 2).random
}
generateRandNums {
rand(5, 5)
}
generateRandNums {
rand[0, 10]
}
Sample result

3This answer is off topic. The question was how to generate a random number. Not how to make a random number library. Sheesh. Commented Jan 23, 2018 at 22:27

At first look, the commented parts suggests that the produced
x
is a nonrandom array. For example,let x = rand(5, 5)
produces a random integer between 5 and 5 but its comment// x = [4, 3, 2, 1, 0, 1, 2, 3, 4]
suggests that it produces an array regularly increasing from 4 to 4. This requires us to inspect the random() method closely to see that it returns a single BinaryInteger. Its edit would be useful. Commented Sep 4 at 14:31