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I recently posted one of my favourite interview whiteboard coding questions in "What's your more controversial programming opinion", which is to write a function that computes Pi using the Leibniz formula.

It can be approached in a number of different ways, and the exit condition takes a bit of thought, so I thought it might make an interesting code golf question. Shortest code wins!

Given that Pi can be estimated using the function 4 * (1 - 1/3 + 1/5 - 1/7 + ...) with more terms giving greater accuracy, write a function that calculates Pi to within 0.00001.

Edit: 3 Jan 2008

As suggested in the comments I changed the exit condition to be within 0.00001 as that's what I really meant (an accuracy 5 decimal places is much harder due to rounding and so I wouldn't want to ask that in an interview, whereas within 0.00001 is an easier to understand and implement exit condition).

Also, to answer the comments, I guess my intention was that the solution should compute the number of iterations, or check when it had done enough, but there's nothing to prevent you from pre-computing the number of iterations and using that number. I really asked the question out of interest to see what people would come up with.


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When the answer is shorter than the program to compute it, there's not much point in golfing, is there? –  JB. Jan 2 '09 at 18:32
Computing the numerical value of Pi using the Leibniz formula is a complete wate of time due to its low rate of convergence (as mentioned in the wiki article you linked to). It's akin to teaching Bubblesort in a Uni CS course. –  Mitch Wheat Jan 3 '09 at 1:56
If someone asked me this in an interview I'd ask for a new question. The value of Pi is constant. Dumb question and a waste of interview time. Seriously an organization that thinks BS like this is a valid interview question... –  jcollum Jan 3 '09 at 19:44
@jcollum, and seriously a programmer who failed to produce the answer isn't worth any further questioning. –  Jimmy Jan 9 '09 at 22:09
also, at jcollum, it is not a perfectly known constant as it is irrational, so it is worth being able to compute it. This particular method may not be the most efficient but your statement is also 'Dumb'. –  Cor_Blimey Oct 13 '12 at 19:59

46 Answers 46

up vote 61 down vote accepted

J, 14 chars



  • 1e6 is number 1 followed by 6 zeroes (1000000).
  • i.y generates the first y non negative numbers.
  • +: is a function that doubles each element in the list argument.
  • >: is a function that increments by one each element in the list argument.

So, the expression >:+:i.1e6 generates the first one million odd numbers:

1 3 5 7 ...

  • % is the reciprocal operator (numerator "1" can be omitted).
  • -/ does an alternate sum of each element in the list argument.

So, the expression -/%>:+:i.1e6 generates the alternate sum of the reciprocals of the first one million odd numbers:

1 - 1/3 + 1/5 - 1/7 + ...

  • 4* is multiplication by four. If you multiply by four the previous sum, you have π.

That's it! J is a powerful language for mathematics.

Edit: since generating 9! (362880) terms for the alternate sum is sufficient to have 5 decimal digit accuracy, and since the Leibniz formula can be written also this way:

4 - 4/3 + 4/5 - 4/7 + ...

...you can write a shorter, 12 chars version of the program:

From all the J answers here and on Project Euler, I assumed that J programmers had taken an oath never to explain their code to anyone. Thanks for the step-by-step explanation! –  MatrixFrog Mar 30 '10 at 23:27

Language: Brainfuck, Char count: 51/59

Does this count? =]

Because there are no floating-point numbers in Brainfuck, it was pretty difficult to get the divisions working properly. Grr.

Without newline (51):


With newline (59):

+1 for utter awesomeness. –  Salty Jan 3 '09 at 2:27
What divisions? you're doing a print "3.14159" :-P, the only actual PI calculation on brainfuck I've seen it's 20,000+ characters long! dl.getdropbox.com/u/35146/PI16.txt –  CMS Jan 3 '09 at 18:38
@CMS, Shh! That's the secret. ;P –  strager Jan 3 '09 at 22:00
Wow... lol lol lol what a rip off –  DFectuoso Jan 5 '09 at 14:08
+1 for having the cheekiness :P –  Atmocreations Oct 11 '09 at 21:25


26 chars

26 just the function, 27 to compute, 31 to print. From the comments to this answer.

sub _{$-++<1e6&&4/$-++-&_}       # just the sub
sub _{$-++<1e6&&4/$-++-&_}_      # compute
sub _{$-++<1e6&&4/$-++-&_}say _  # print

28 chars

28 just computing, 34 to print. From the comments. Note that this version cannot use 'say'.

$.=.5;$\=2/$.++-$\for 1..1e6        # no print
$.=.5;$\=2/$.++-$\for$...1e6;print  # do print, with bonus obfuscation

36 chars

36 just computing, 42 to print. Hudson's take at dreeves's rearrangement, from the comments.


About the iteration count: as far as my math memories go, 400000 is provably enough to be accurate to 0.00001. But a million (or as low as 8e5) actually makes the decimal expansion actually match 5 fractional places, and it's the same character count so I kept that.


Ruby, 33 characters

@Hudson, just two, by placing "p " before it. But the question just asks to compute pi, not print it –  Zach Langley Jan 3 '09 at 18:28

Another C# version:

(60 characters)

4*Enumerable.Range(0, 500000).Sum(x => Math.Pow(-1, x)/(2*x + 1));  // = 3,14159
To save 10 few characters, replace Math.Pow(-1, x) with x%2==0?1:-1 and remove the 6 spaces inside the code. –  configurator Sep 16 '10 at 20:48

52 chars in Python:

print 4*sum(((-1.)**i/(2*i+1)for i in xrange(5**8)))

(51 dropping the 'x' from xrange.)

36 chars in Octave (or Matlab):


(execute "format long;" to show all the significant digits.) Omitting 'disp' we reach 30 chars:

octave:5> l=0:5^8;(-1).^l*(4./(2.*l+1))'
ans = 3.14159009359631

Oracle SQL 73 chars

select -4*sum(power(-1,level)/(level*2-1)) from dual connect by level<1e6
+1 for the language choice :) –  friol Jan 3 '09 at 15:24

Language: C, Char count: 71

float p;main(i){for(i=1;1E6/i>5;i+=2)p-=(i%4-2)*4./i;printf("%g\n",p);}

Language: C99, Char count: 97 (including required newline)

#include <stdio.h>
float p;int main(){for(int i=1;1E6/i>5;i+=2)p-=(i%4-2)*4./i;printf("%g\n",p);}

I should note that the above versions (which are the same) keep track of whether an extra iteration would affect the result at all. Thus, it performs a minimum number of operations. To add more digits, replace 1E6 with 1E(num_digits+1) or 4E5 with 4E(num_digits) (depending on the version). For the full programs, %g may need to be replaced. float may need to be changed to double as well.

Language: C, Char count: 67 (see notes)

double p,i=1;main(){for(;i<1E6;i+=4)p+=8/i/(i+2);printf("%g\n",p);}

This version uses a modified version of posted algorithm, as used by some other answers. Also, it is not as clean/efficient as the first two solutions, as it forces 100 000 iterations instead of detecting when iterations become meaningless.

Language: C, Char count: 24 (cheating)


Doesn't work with digit counts > 6, though.



I got it down to 34 characters:

foldl subtract 4$map(4/)[3,5..9^6]

This expression yields 3.141596416935556 when evaluated.

Edit: here's a somewhat shorter version (at 33 characters) that uses foldl1 instead of foldl:

foldl1 subtract$map(4/)[1,3..9^6]

Edit 2: 9^6 instead of 10^6. One has to be economical ;)

Edit 3: Replaced with foldl' and foldl1' with foldl and foldl1 respectively—as a result of Edit 2, it no longer overflows. Thanks to ShreevatsaR for noticing this.

Even shorter - foldr1(-)$map(4/)[1,3..9^6] –  Martin Jonáš Dec 3 '09 at 14:50

23 chars in MATLAB:

@Jader: Did you set format long first? That will display more digits (since MATLAB displays fewer by default). –  gnovice Oct 11 '09 at 22:42


Attempt #1:

let pi = 3.14159

Cheating? No, its winning with style!

Attempt #2:

let pi =
    seq { 0 .. 100 }
    |> Seq.map (fun x -> float x)
    |> Seq.fold (fun x y -> x + (Math.Pow(-1.0, y)/(2.0 * y + 1.0))) 0.0
    |> (fun x -> x * 4.0)

Its not as compact as it could possibly get, but pretty idiomatic F#.


common lisp, 55 chars.

(loop for i from 1 upto 4e5 by 4 sum (/ 8d0 i (+ i 2)))
Upvote just for having the prettiest solution. –  Justin R. Sep 28 '09 at 20:03

Mathematica, 27 chars (arguably as low as 26, or as high as 33)


If you remove the initial "N" then it returns the answer as a (huge) fraction.

If it's cheating that Mathematica doesn't need a print statement to output its result then prepend "Print@" for a total of 33 chars.


If it's cheating to hardcode the number of terms, then I don't think any answer has yet gotten this right. Checking when the current term is below some threshold is no better than hardcoding the number of terms. Just because the current term is only changing the 6th or 7th digit doesn't mean that the sum of enough subsequent terms won't change the 5th digit.

The exit condition can be computed before even getting to the iteration. If it saves chars and is provably accurate enough, it's all fair game to me. –  JB. Jan 3 '09 at 11:20
3 characters: N@π –  Mechanical snail Aug 10 '11 at 2:56

Using the formula for the error term in an alternating series (and thus the necessary number of iterations to achieve the desired accuracy is not hard coded into the program):

public static void Main(string[] args) {
    double tolerance = 0.000001;
    double piApproximation = LeibnizPi(tolerance);

private static double LeibnizPi(double tolerance) {
    double quarterPiApproximation = 0;

    int index = 1;
    double term;
    int sign = 1;
    do {
        term = 1.0 / (2 * index - 1);
        quarterPiApproximation += ((double)sign) * term;
        sign = -sign;
    } while (term > tolerance);

    return 4 * quarterPiApproximation;
You don't really know what code golf is, do you –  1800 INFORMATION Jan 18 '09 at 9:26
If you program like this in a code golf, your normal code must be incredible! XD –  fortran Oct 15 '09 at 10:39


public static double Pi()
    double pi = 0;
    double sign = 1;
    for (int i = 1; i < 500002; i += 2)
        pi += sign / i;
        sign = -sign;
    return 4 * pi;
-1 for confusingly naming your variable 'pi' when its value is actually pi/4 –  finnw Oct 7 '09 at 14:51

Perl :

$i+=($_&1?4:-4)/($_*2-1)for 1..1e6;print$i

for a total of 42 chars.


Ruby, 41 chars (using irb):


Or this slightly longer, non-irb version:

s=0;(3..3e6).step(4){|i|s+=8.0/i/(i-2)};p s

This is a modified Leibniz:

  1. Combine pairs of terms. This gives you 2/3 + 2/35 + 2/99 + ...
  2. Pi becomes 8 * (1/(1 * 3) + 1/(5 * 7) + 1/(9 * 11) + ...)

F# (Interactive Mode) (59 Chars)

{0.0..1E6}|>Seq.fold(fun a x->a+ -1.**x/(2.*x+1.))0.|>(*)4.

(Yields a warning but omits the casts)


Here's a solution in MUMPS.

 N X,I
 S X=1 F I=3:4:N-2 S X=X-(1/I)+(1/(I+2))
 Q 4*X

Parameter N indicates how many repeated fractions to use. That is, if you pass in 5 it will evaluate 4 * (1 - 1/3 + 1/5 - 1/7 + 1/9 - 1/11)

Some empirical testing showed that N=272241 is the lowest value that gives a correct value of 3.14159 when truncated to 5 decimal points. You have to go to N=852365 to get a value that rounds to 3.14159.


C# using iterator block:

static IEnumerable<double> Pi()
    double i = 4, j = 1, k = 4;
    for (;;)
        yield return k;
        k += (i *= -1) / (j += 2);

For the record, this Scheme implementation has 95 characters ignoring unnecessary whitespace.

(define (f)
  (define (p a b)
    (if (> a b)
      (+ (/ 1.0 (* a (+ a 2))) (p (+ a 4) b))))
  (* 8 (p 1 1e6)))



In javascript. 51 characters. Obviously not going to win but eh. :P

Edit -- updated to be 46 characters now, thanks to Strager. :)

UPDATE (March 30 2010)

A faster (precise only to 5 decimal places) 43 character version by David Murdoch


Here's a recursive answer using C#. It will only work using the x64 JIT in Release mode because that's the only JIT that applies tail-call optimisation, and as the series converges so slowly it will result in a StackOverflowException without it.

It would be nice to have the IteratePi function as an anonymous lambda, but as it's self-recursive we'd have to start doing all manner of horrible things with Y-combinators so I've left it as a separate function.

public static double CalculatePi()
    return IteratePi(0.0, 1.0, true);

private static double IteratePi(double result, double denom, bool add)
    var term = 4.0 / denom;
    if (term < 0.00001) return result;    
    var next = add ? result + term : result - term;
    return IteratePi(next, denom + 2.0, !add);

Most of the current answers assume that they'll get 5 digits accuracy within some number of iterations and this number is hardcoded into the program. My understanding of the question was that the program itself is supposed to figure out when it's got an answer accurate to 5 digits and stop there. On that assumption here's my C# solution. I haven't bothered to minimise the number of characters since there's no way it can compete with some of the answers already out there, so I thought I'd make it readable instead. :)

    private static double GetPi()
        double acc = 1, sign = -1, lastCheck = 0;

        for (double div = 3; ; div += 2, sign *= -1)
            acc += sign / div;

            double currPi = acc * 4;
            double currCheck = Math.Round(currPi, 5);

            if (currCheck == lastCheck)
                return currPi;

            lastCheck = currCheck;
I'm not convinced this is (mathematically) right. Just because two iterations in a row have the same first 5 digits doesn't mean that if you add enough additional terms those 5 digits won't change. –  dreeves Jan 3 '09 at 5:52
@dreeves and recursive - I'm not sure about that. The values are alternatively higher and lower with each iteration and they converge, so as far as I can see, once the last 5 digits are the same they will never be different again. –  EMP Jan 4 '09 at 0:09
@JB But in that case you would never have two iterations in a row that contained the same first 5 digits, would you? :) –  Kirk Broadhurst Aug 15 '09 at 15:15

Language: C99 (implicit return 0), Char count: 99 (95 + 4 required spaces)

exit condition depends on current value, not on a fixed count

#include <stdio.h>

float p, s=4, d=1;
int main(void) {
  for (; 4/d > 1E-5; d += 2)
        p -= (s = -s) / d;
  printf("%g\n", p);

compacted version


Language: dc, Char count: 35

dc -e '9k0 1[d4r/r2+sar-lad274899>b]dsbxrp'


irb(main):031:0> 4*(1..10000).inject {|s,x| s+(-1)**(x+1)*1.0/(2*x-1)}
=> 3.14149265359003

64 chars in AWK:

~# awk 'BEGIN {p=1;for(i=3;i<10^6;i+=4){p=p-1/i+1/(i+2)}print p*4}'

C# cheating - 50 chars:

static single Pi(){
  return Math.Round(Math.PI, 5));

It only says "taking into account the formula write a function..." it doesn't say reproduce the formula programmatically :) Think outside the box...

C# LINQ - 78 chars:

static double pi = 4 * Enumerable.Range(0, 1000000)
               .Sum(n => Math.Pow(-1, n) / (2 * n + 1));

C# Alternate LINQ - 94 chars:

static double pi = return 4 * (from n in Enumerable.Range(0, 1000000)
                               select Math.Pow(-1, n) / (2 * n + 1)).Sum();

And finally - this takes the previously mentioned algorithm and condenses it mathematically so you don't have to worry about keep changing signs.

C# longhand - 89 chars (not counting unrequired spaces):

static double pi()
  var t = 0D;
  for (int n = 0; n < 1e6; t += Math.Pow(-1, n) / (2 * n + 1), n++) ;
  return 4 * t;
#!/usr/bin/env python
from math import *
denom = 1.0
imm = 0.0
sgn = 1
it = 0
for i in xrange(0, int(1e6)):
    imm += (sgn*1/denom)
    denom += 2
    sgn *= -1    
print str(4*imm)

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