# Swift 3 calculate factorial number. Result becomes too high?

I have written this function to return the factorial of given number

``````func factorial(_ n: Int) -> Int {
if n == 0 {
return 1
}
else {
return n * factorial(n - 1)
}
}

print( factorial(20) )  // 2432902008176640000
``````

Works as it should, as long the given number do not exceed 20, because then the result becomes too high ?

How can I circumvent this limit and thus calculate the factorial of higher numbers ?

Have searched around and found some bignum libraries for Swift, I'm doing this to learn and be familiar with Swift, therefore I want to figure this out on my own.

• Ints have a limit of 2^64. If you want bigger than that then you will have to probably use strings or combine smaller ints etc... you'll then need to work out how to add/divide/multiply/subtract etc... – Fogmeister May 7 '17 at 10:24
• Possible duplicate of BigInteger equivalent in Swift? – ayaio May 7 '17 at 10:26

Here's an approach that will let you find very large factorials.

Represent large numbers as an array of digits. For instance `987` would be `[9, 8, 7]`. Multiplying that number by an integer `n` would require two steps.

1. Multiply each value in that array by `n`.
2. Perform a carry operation to return a result that is again single digits.

For example `987 * 2`:

``````let arr = [9, 8, 7]
let arr2 = arr.map { \$0 * 2 }
print(arr2)  // [18, 16, 14]
``````

Now, perform the carry operation. Starting at the one's digit, `14` is too big, so keep the `4` and carry the `1`. Add the `1` to `16` to get `17`.

``````[18, 17, 4]
``````

Repeat with the ten's place:

``````[19, 7, 4]
``````

And then with the hundred's place:

``````[1, 9, 7, 4]
``````

Finally, for printing, you could convert this back to a string:

``````let arr = [1, 9, 7, 4]
print(arr.map(String.init).joined())
``````

1974

Applying that technique, here is a `carryAll` function that performs the carry operation, and a `factorial` that uses it to calculate very large factorials:

``````func carryAll(_ arr: [Int]) -> [Int] {
var result = [Int]()

var carry = 0
for val in arr.reversed() {
let total = val + carry
let digit = total % 10
carry = total / 10
result.append(digit)
}

while carry > 0 {
let digit = carry % 10
carry = carry / 10
result.append(digit)
}

return result.reversed()
}

func factorial(_ n: Int) -> String {
var result = [1]
for i in 2...n {
result = result.map { \$0 * i }
result = carryAll(result)
}

return result.map(String.init).joined()
}

print(factorial(1000))
``````

402387260077093773543702433923003985719374864210714632543799910429938512398629020592044208486969404800479988610197196058631666872994808558901323829669944590997424504087073759918823627727188732519779505950995276120874975462497043601418278094646496291056393887437886487337119181045825783647849977012476632889835955735432513185323958463075557409114262417474349347553428646576611667797396668820291207379143853719588249808126867838374559731746136085379534524221586593201928090878297308431392844403281231558611036976801357304216168747609675871348312025478589320767169132448426236131412508780208000261683151027341827977704784635868170164365024153691398281264810213092761244896359928705114964975419909342221566832572080821333186116811553615836546984046708975602900950537616475847728421889679646244945160765353408198901385442487984959953319101723355556602139450399736280750137837615307127761926849034352625200015888535147331611702103968175921510907788019393178114194545257223865541461062892187960223838971476088506276862967146674697562911234082439208160153780889893964518263243671616762179168909779911903754031274622289988005195444414282012187361745992642956581746628302955570299024324153181617210465832036786906117260158783520751516284225540265170483304226143974286933061690897968482590125458327168226458066526769958652682272807075781391858178889652208164348344825993266043367660176999612831860788386150279465955131156552036093988180612138558600301435694527224206344631797460594682573103790084024432438465657245014402821885252470935190620929023136493273497565513958720559654228749774011413346962715422845862377387538230483865688976461927383814900140767310446640259899490222221765904339901886018566526485061799702356193897017860040811889729918311021171229845901641921068884387121855646124960798722908519296819372388642614839657382291123125024186649353143970137428531926649875337218940694281434118520158014123344828015051399694290153483077644569099073152433278288269864602789864321139083506217095002597389863554277196742822248757586765752344220207573630569498825087968928162753848863396909959826280956121450994871701244516461260379029309120889086942028510640182154399457156805941872748998094254742173582401063677404595741785160829230135358081840096996372524230560855903700624271243416909004153690105933983835777939410970027753472000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000

• Good and complementary answer, thank you so much – Jon May 7 '17 at 11:24

You can use this library: BigInt

Install it using CocoaPods:

``````pod 'BigInt'
``````

Then you can use it like this:

``````import BigInt

func factorial(_ n: Int) -> BigInt {
if n == 0 {
return 1
}
else {
return BigInt(n) * factorial(n - 1)
}
}

print( factorial(50) )  // 30414093201713378043612608166064768844377641568960512000000000000
``````