Question

I want to see all the different ways you can come up with, for a factorial subroutine, or program. The hope is that anyone can come here and see if they might want to learn a new language.

Ideas:

• Procedural
• Functional
• Object Oriented
• One liners
• Obfuscated
• Oddball
• Bad Code
• Polyglot

Basically I want to see an example, of different ways of writing an algorithm, and what they would look like in different languages.

Please limit it to one example per entry. I will allow you to have more than one example per answer, if you are trying to highlight a specific style, language, or just a well thought out idea that lends itself to being in one post.

The only real requirement is it must find the factorial of a given argument, in all languages represented.

Be Creative!

Recommended Guideline:

# Language Name: Optional Style type

   - Optional bullet points

    Code Goes Here

Other informational text goes here

I will ocasionally go along and edit any answer that does not have decent formatting.

Answer 1

Polyglot: 5 languages, all using bignums

So, I wrote a polyglot which works in the three languages I often write in, as well as one from my other answer to this question and one I just learned today. It's a standalone program, which reads a single line containing a nonnegative integer and prints a single line containing its factorial. Bignums are used in all languages, so the maximum computable factorial depends only on your computer's resources.

• Perl: uses built-in bignum package. Run with perl FILENAME.
• Haskell: uses built-in bignums. Run with runhugs FILENAME or your favorite compiler's equivalent.
• C++: requires GMP for bignum support. To compile with g++, use g++ -lgmpxx -lgmp -x c++ FILENAME to link against the right libraries. After compiling, run ./a.out. Or use your favorite compiler's equivalent.
• brainf*ck: I wrote some bignum support in this post. Using Muller's classic distribution, compile with bf < FILENAME > EXECUTABLE. Make the output executable and run it. Or use your favorite distribution.
• Whitespace: uses built-in bignum support. Run with wspace FILENAME.

Edit: added Whitespace as a fifth language. Incidentally, do not wrap the code with <code> tags; it breaks the Whitespace. Also, the code looks much nicer in fixed-width.

char //# b=0+0{- |0*/; #>>>>,----------[>>>>,--------
#define	a/*#--]>>>>++<<<<<<<<[>++++++[<------>-]<-<<<
#Perl	><><><>	 <> <> <<]>>>>[[>>+<<-]>>[<<+>+>-]<->
#C++	--><><>	<><><><	> < > <	+<[>>>>+<<<-<[-]]>[-]
#Haskell >>]>[-<<<<<[<<<<]>>>>[[>>+<<-]>>[<<+>+>-]>>]
#Whitespace	>>>>[-[>+<-]+>>>>]<<<<[<<<<]<<<<[<<<<
#brainf*ck > < ]>>>>>[>>>[>>>>]>>>>[>>>>]<<<<[[>>>>*/
exp; ;//;#+<<<<-]<<<<]>>>>+<<<<<<<[<<<<][.POLYGLOT^5.
#include <gmpxx.h>//]>>>>-[>>>[>>>>]>>>>[>>>>]<<<<[>>
#define	eval int	main()//>+<<<-]>>>[<<<+>>+>->
#include <iostream>//<]<-[>>+<<[-]]<<[<<<<]>>>>[>[>>>
#define	print std::cout	<< // >	<+<-]>[<<+>+>-]<<[>>>
#define	z std::cin>>//<< +<<<-]>>>[<<<+>>+>-]<->+++++
#define c/*++++[-<[-[>>>>+<<<<-]]>>>>[<<<<+>>>>-]<<*/
#define	abs int $n //><	<]<[>>+<<<<[-]>>[<<+>>-]]>>]<
#define	uc mpz_class fact(int	$n){/*<<<[<<<<]<<<[<<
use bignum;sub#<<]>>>>-]>>>>]>>>[>[-]>>>]<<<<[>>+<<-]
z{$_[0+0]=readline(*STDIN);}sub fact{my($n)=shift;#>>
#[<<+>+>-]<->+<[>-<[-]]>[-<<-<<<<[>>+<<-]>>[<<+>+>+*/
uc;if($n==0){return 1;}return $n*fact($n-1);	}//;#
eval{abs;z($n);print fact($n);print("\n")/*2;};#-]<->
'+<[>-<[-]]>]<<[<<<<]<<<<-[>>+<<-]>>[<<+>+>-]+<[>-+++
-}--	<[-]]>[-<<++++++++++<<<<-[>>+<<-]>>[<<+>+>-++
fact 0	= 1 -- ><><><><	> <><><	]+<[>-<[-]]>]<<[<<+ +
fact	n=n*fact(n-1){-<<]>>>>[[>>+<<-]>>[<<+>+++>+-}
main=do{n<-readLn;print(fact n)}-- +>-]<->+<[>>>>+<<+
{-x<-<[-]]>[-]>>]>]>>>[>>>>]<<<<[>+++++++[<+++++++>-]
<--.<<<<]+written+by+++A+Rex+++2009+.';#+++x-}--x*/;}

Answer 2

lolcode:

sorry I couldn't resist xD

HAI
CAN HAS STDIO?
I HAS A VAR
I HAS A INT
I HAS A CHEEZBURGER
I HAS A FACTORIALNUM
IM IN YR LOOP
    UP VAR!!1
    TIEMZD INT!![CHEEZBURGER]
    UP FACTORIALNUM!!1
    IZ VAR BIGGER THAN FACTORIALNUM? GTFO
IM OUTTA YR LOOP
U SEEZ INT
KTHXBYE

Answer 3

This is one of the faster algorithms, up to 170!. It fails inexplicably beyond 170!, and it's relatively slow for small factorials, but for factorials between 80 and 170 it's blazingly fast compared to many algorithms.

curl http://www.google.com/search?q=170!

There's also an online interface, try it out now!

Let me know if you find a bug, or faster implementation for large factorials.

---

EDIT:

This algorithm is slightly slower, but gives results beyond 170:

curl http://www58.wolframalpha.com/input/?i=171!

It also simplifies them into various other representations.

Answer 4

C++: Template Metaprogramming

Uses the classic enum hack.

template<unsigned int n>
struct factorial {
    enum { result = n * factorial<n - 1>::result };
};

template<>
struct factorial<0> {
    enum { result = 1 };
};

Usage.

unsigned int x = factorial<4>::result;

Factorial is calculated completely at compile time based on the template parameter n. Therefore, factorial<4>::result is a constant once the compiler has done its work.

Answer 5

I find the following implementations just hilarious:

The Evolution of a Haskell Programmer

Evolution of a Python programmer

Enjoy!

Answer 6

Whitespace

   	.
 .
 	.
		.
  	.
   	.
			 .
 .
	 	 .
	  .
   	.
 .
  .
 			 .
		  			 .
 .
	.
.
  	 .
 .
.
	.
 	.
.
.
.

It was hard to get it to show here properly, but now I tried copying it from the preview and it works. You need to input the number and press enter.

Answer 7

Lazy K

Your pure functional programming nightmares come true!

The only Esoteric Turing-complete Programming Language that has:

• A purely functional foundation, core, and libraries---in fact, here's the complete API: S K I
• No lambdas even!
• No numbers or lists needed or allowed
• No explicit recursion but yet, allows recursion
• A simple infinite lazy stream-based I/O mechanism

Here's the Factorial code in all its parenthetical glory:

K(SII(S(K(S(S(KS)(S(K(S(KS)))(S(K(S(KK)))(S(K(S(K(S(K(S(K(S(SI(K(S(K(S(S(KS)K)I))
 (S(S(KS)K)(SII(S(S(KS)K)I))))))))K))))))(S(K(S(K(S(SI(K(S(K(S(SI(K(S(K(S(S(KS)K)I))
 (S(S(KS)K)(SII(S(S(KS)K)I))(S(S(KS)K))(S(SII)I(S(S(KS)K)I))))))))K)))))))
 (S(S(KS)K)(K(S(S(KS)K)))))))))(K(S(K(S(S(KS)K)))K))))(SII))II)

Features:

• No subtraction or conditionals
• Prints all factorials (if you wait long enough)
• Uses a second layer of Church numerals to convert the Nth factorial to N! asterisks followed by a newline
• Uses the Y combinator for recursion

In case you are interested in trying to understand it, here is the Scheme source code to run through the Lazier compiler:

(lazy-def '(fac input)
   '((Y (lambda (f n a) ((lambda (b) ((cons 10) ((b (cons 42)) (f (1+ n) b))))
       (* a n)))) 1 1))

(for suitable definitions of Y, cons, 1, 10, 42, 1+, and *).

EDIT:

Lazy K Factorial in Decimal

(10KB of gibberish or else I would paste it). For example, at the Unix prompt:

    $ echo "4" | ./lazy facdec.lazy
    24
    $ echo "5" | ./lazy facdec.lazy
    120

Rather slow for numbers above, say, 5.

The code is sort of bloated because we have to include library code for all of our own primitives (code written in Hazy, a lambda calculus interpreter and LC-to-Lazy K compiler written in Haskell).

Answer 8

C# Lookup:

Nothing to calculate really, just look it up. To extend it,add another 8 numbers to the table and 64 bit integers are at at their limit. Beyond that, a BigNum class is called for.

public static int Factorial(int f)
{ 
    if (f<0 || f>12)
    {
        throw new ArgumentException("Out of range for integer factorial");
    }
    int [] fact={1,1,2,6,24,120,720,5040,40320,362880,3628800,
                 39916800,479001600};
    return fact[f];
}

Answer 9

Python: Functional, One-liner

factorial = lambda n: reduce(lambda x,y: x*y, range(1, n+1), 1)

NOTE:

• It supports big integers. Example:

  print factorial(100) 93326215443944152681699238856266700490715968264381621468592963895217599993229915\ 608941463976156518286253697920827223758251185210916864000000000000000000000000

• It does not work for n < 0.

Answer 10

Perl6

sub factorial ($n) { [*] 1..$n }

I hardly know about Perl6. But I guess this [*] operator is same as Haskell's product.

This code runs on Pugs, and maybe Parrot (I didn't check it.)

Edit

This code also works.

sub postfix:<!> ($n) { [*] 1..$n }

# This function(?) call like below ... It looks like mathematical notation.
say 10!;

Answer 11

C#: LINQ

    public static int factorial(int n)
    {
        return (Enumerable.Range(1, n).Aggregate(1, (previous, value) => previous * value));
    }

Answer 12

APL (oddball/one-liner):

×/⍳X

1. ⍳X expands X into an array of the integers 1..X
2. ×/ multiplies every element in the array

Or with the built-in operator:

!X

Source: http://www.webber-labs.com/mpl/lectures/ppt-slides/01.ppt

Answer 13

x86-64 Assembly: Procedural

You can call this from C (only tested with GCC on linux amd64). Assembly was assembled with nasm.

section .text
    global factorial
; factorial in x86-64 - n is passed in via RDI register
; takes a 64-bit unsigned integer
; returns a 64-bit unsigned integer in RAX register
; C declaration in GCC:
;   extern unsigned long long factorial(unsigned long long n);
factorial:
    enter 0,0
    ; n is placed in rdi by caller
    mov rax, 1 ; factorial = 1
    mov rcx, 2 ; i = 2
loopstart:
    cmp rcx, rdi
    ja loopend
    mul rcx ; factorial *= i
    inc rcx
    jmp loopstart
loopend:
    leave
    ret

Answer 14

Batch (NT):

@echo off

set n=%1
set result=1

for /l %%i in (%n%, -1, 1) do (
    set /a result=result * %%i
)

echo %result%

Usage: C:>factorial.bat 15

Answer 15

F#: Functional

Straight forward:

let rec fact x = 
    if   x < 0 then failwith "Invalid value."
    elif x = 0 then 1
    else x * fact (x - 1)

Getting fancy:

let fact x = [1 .. x] |> List.fold_left ( * ) 1

Answer 16

Erlang: tail recursive

fac(0) -> 1;
fac(N) when N > 0 -> fac(N, 1).

fac(1, R) -> R;
fac(N, R) -> fac(N - 1, R * N).

Answer 17

Haskell:

ones = 1 : ones
integers   = head ones     : zipWith (+) integers   (tail ones)
factorials = head integers : zipWith (*) factorials (tail integers)

Answer 18

Brainf*ck

+++++
>+<[[->>>>+<<<<]>>>>[-<<<<+>>+>>]<<<<>[->>+<<]<>>>[-<[->>+<<]>>[-<<+<+>>>]<]<[-]><<<-]

Written by Michael Reitzenstein.

Answer 19

BASIC: old school

10 HOME
20 INPUT N
30 LET ANS = 1
40 FOR I = 1 TO N
50   ANS = ANS * I
60 NEXT I
70 PRINT ANS

Answer 20

Java 1.6: recursive, memoized (for subsequent calls)

private static Map<BigInteger, BigInteger> _results = new HashMap()

public static BigInteger factorial(BigInteger n){
    if (0 >= n.compareTo(BigInteger.ONE))
       return BigInteger.ONE.max(n);
    if (_results.containsKey(n))
       return _results.get(n);
    BigInteger result = factorial(n.subtract(BigInteger.ONE)).multiply(n);
    _results.put(n, result);
    return result;
}

Answer 21

ruby recursive

(factorial=Hash.new{|h,k|k*h[k-1]})[1]=1

usage:

factorial[5]
 => 120

Answer 22

XSLT 1.0

The input file, factorial.xml:

<?xml version="1.0"?>
<?xml-stylesheet href="factorial.xsl" type="text/xsl" ?>
<n>
  20
</n>

The XSLT file, factorial.xsl:

<?xml version="1.0"?>
<xsl:stylesheet version="1.0"                     
                xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
                xmlns:msxsl="urn:schemas-microsoft-com:xslt" >
  <xsl:output method="text"/>
  <!-- 0! = 1 -->
  <xsl:template match="text()[. = 0]">
    1
  </xsl:template>
  <!-- n! = (n-1)! * n-->
  <xsl:template match="text()[. > 0]">
    <xsl:variable name="x">
      <xsl:apply-templates select="msxsl:node-set( . - 1 )/text()"/>
    </xsl:variable>
    <xsl:value-of select="$x * ."/>
  </xsl:template>
  <!-- Calculate n! -->
  <xsl:template match="/n">
    <xsl:apply-templates select="text()"/>
  </xsl:template>
</xsl:stylesheet>

Save both files in the same directory and open factorial.xml in IE.

Answer 23

Scheme

Here is a simple recursive definition:

(define (factorial x)
  (if (= x 0) 1
      (* x (factorial (- x 1)))))

In Scheme tail-recursive functions use constant stack space. Here is a version of factorial that is tail-recursive:

(define factorial
  (letrec ((fact (lambda (x accum)
                   (if (= x 0) accum
                       (fact (- x 1) (* accum x))))))
    (lambda (x)
      (fact x 1))))

Answer 24

Oddball examples? What about using the gamma function! Since, Gamma n = (n-1)!.

OCaml: Using Gamma

let rec gamma z =
    let pi = 4.0 *. atan 1.0 in
    if z < 0.5 then
        pi /. ((sin (pi*.z)) *. (gamma (1.0 -. z)))
    else
        let consts = [| 0.99999999999980993; 676.5203681218851; -1259.1392167224028;
                        771.32342877765313; -176.61502916214059; 12.507343278686905;
                 -0.13857109526572012; 9.9843695780195716e-6; 1.5056327351493116e-7;
                     |] 
        in
        let z = z -. 1.0 in
        let results = Array.fold_right 
                          (fun x y -> x +. y)
                          (Array.mapi 
                              (fun i x -> if i = 0 then x else x /. (z+.(float i)))
                              consts
                          )
                          0.0
        in
        let x = z +. (float (Array.length consts)) -. 1.5 in
        let final = (sqrt (2.0*.pi)) *. 
                    (x ** (z+.0.5)) *.
                    (exp (-.x)) *. result
        in
        final

let factorial_gamma n = int_of_float (gamma (float (n+1)))

Answer 25

Recursively in Inform 7

(it reminds you of COBOL because it's for writing text adventures; proportional font is deliberate):

To decide what number is the factorial of (n - a number):
    if n is zero, decide on one;
    otherwise decide on the factorial of (n minus one) times n.

If you want to actually call this function ("phrase") from a game you need to define an action and grammar rule:

"The factorial game" [this must be the first line of the source]

There is a room. [there has to be at least one!]

Factorialing is an action applying to a number.

Understand "factorial [a number]" as factorialing.

Carry out factorialing:
    Let n be the factorial of the number understood;
    Say "It's [n]".

Answer 26

Bash: Recursive

In bash and recursive, but with the added advantage that it deals with each iteration in a new process. The max it can calculate is !20 before overflowing, but you can still run it for big numbers if you don't care about the answer and want your system to fall over ;)

#!/bin/bash
echo $(($1 * `( [[ $1 -gt 1 ]] && ./$0 $(($1 - 1)) ) || echo 1`));

Answer 27

Recursive Prolog

fac(0,1).
fac(N,X) :- N1 is N -1, fac(N1, T), X is N * T.

Tail Recursive Prolog

fac(0,N,N).
fac(X,N,T) :- A is N * X, X1 is X - 1, fac(X1,A,T).
fac(N,T) :- fac(N,1,T).

Answer 28

D Templates: Functional

template factorial(int n : 1)
{
  const factorial = 1;
}

template factorial(int n)
{
  const factorial =
     n * factorial!(n-1);
}

or

template factorial(int n)
{
  static if(n == 1)
    const factorial = 1;
  else 
    const factorial =
       n * factorial!(n-1);
}

Used like this:

factorial!(5)

Answer 29

C/C++: Procedural

unsigned long factorial(int n)
{
    unsigned long factorial = 1;
    int i;

    for (i = 2; i <= n; i++)
    	factorial *= i;

    return factorial;
}

PHP: Procedural

function factorial($n)
{
    for ($factorial = 1, $i = 2; $i <= $n; $i++)
    	$factorial *= $i;

    return $factorial;
}

@Niyaz: You didn't specify return type for the function

Answer 30

PowerShell

function factorial( [int] $n ) 
{ 
    $result = 1; 

    if ( $n -gt 1 ) 
    { 
        $result = $n * ( factorial ( $n - 1 ) ) 
    } 

    $result 
}

Here's a one-liner:

$n..1 | % {$result = 1}{$result *= $_}{$result}