# Code Golf - π day

## The Challenge

Guidelines for code-golf on SO

The shortest code by character count to display a representation of a circle of radius `R` using the `*`character, followed by an approximation of π.

Input is a single number, `R`.

Since most computers seem to have almost 2:1 ratio you should only output lines where `y` is odd. This means that when `R` is odd you should print `R-1` lines. There is a new testcase for `R=13` to clarify.

eg.

``````Input
5
Output      Correct                          Incorrect

3    *******                    4      *******
1   *********                   2     *********
-1   *********                   0    ***********
-3    *******                   -2     *********
2.56                        -4      *******
3.44
``````

Edit: Due to widespread confusion caused by odd values of `R`, any solutions that pass the 4 test cases given below will be accepted

The approximation of π is given by dividing twice the number of `*` characters by `R²`.
The approximation should be correct to at least 6 significant digits.
Leading or trailing zeros are permitted, so for example any of `3`, `3.000000`, `003` is accepted for the inputs of `2` and `4`.

Code count includes input/output (i.e., full program).

## Test Cases

``````Input
2
Output
***
***
3.0

Input
4
Output
*****
*******
*******
*****
3.0

Input
8
Output
*******
*************
***************
***************
***************
***************
*************
*******
3.125

Input
10
Output
*********
***************
*****************
*******************
*******************
*******************
*******************
*****************
***************
*********
3.16
``````

## Bonus Test Case

``````Input
13
Output

*************
*******************
*********************
***********************
*************************
*************************
*************************
*************************
***********************
*********************
*******************
*************
2.98224852071
``````
• You may wish to clarify whether the "input" is on the command line, or on stdin. Mar 13, 2010 at 23:15
• @Greg Hewgill, Feel free to choose whichever is most convenient for the language you are using :) Mar 13, 2010 at 23:21
• @Greg Hewgill, Some (that is, very few) programming language implementations do not have a notion of "command line". Mar 14, 2010 at 3:49
• I notice that few of the answers follow the rule of only putting out lines where y is odd. Given an odd value of r (not shown in the test cases), most will output lines where y is even! Mar 15, 2010 at 5:55
• Rule abuse challenge: Make code that is shorter than anyone else's code by only supporting the 4 required test cases. Mar 16, 2010 at 18:35

## C: 131 chars

(Based on the C++ solution by Joey)

``````main(i,j,c,n){for(scanf("%d",&n),c=0,i|=-n;i<n;puts(""),i+=2)for(j=-n;++j<n;putchar(i*i+j*j<n*n?c++,42:32));printf("%g",2.*c/n/n);}
``````

(Change the `i|=-n` to `i-=n` to remove the support of odd number cases. This merely reduces char count to 130.)

As a circle:

``````      main(i,j,
c,n){for(scanf(
"%d",&n),c=0,i=1|
-n;i<n;puts(""),i+=
0x2)for(j=-n;++j<n;
putchar(i*i+j*j<n*n
?c++,0x02a:0x020));
printf("%g",2.*c/
n/n);3.1415926;
5358979;}
``````
• I like how you added circles to the code to turn it into a circle. Would +000 be preferable? Mar 14, 2010 at 8:54
• congratulations, j*j++ is undefined behaviour Mar 14, 2010 at 10:47
• wouldn't that only be one character...? Mar 15, 2010 at 23:57
• How does `main()` take four `int` arguments? Mar 16, 2010 at 17:11
• @Load: 5.1.2.2.1/1: The function called at program startup is named `main`. It shall be defined … or in some other implementation-defined manner. So that's because the implementation can accept this form. Mar 16, 2010 at 17:55

## XSLT 1.0

Just for fun, here's an XSLT version. Not really code-golf material, but it solves the problem in a weird-functional-XSLT-kind of way :)

``````<?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="html"/>

<!-- Skip even lines -->
<xsl:template match="s[@y mod 2=0]">
<xsl:variable name="next">
<!-- Just go to next line.-->
<s R="{@R}" y="{@y+1}" x="{-@R}" area="{@area}"/>
</xsl:variable>
<xsl:apply-templates select="msxsl:node-set(\$next)"/>
</xsl:template>

<!-- End of the line?-->
<xsl:template match="s[@x &gt; @R]">
<xsl:variable name="next">
<!-- Go to next line.-->
<s R="{@R}" y="{@y+1}" x="{-@R}" area="{@area}"/>
</xsl:variable><!-- Print LF-->&#10;<xsl:apply-templates
select="msxsl:node-set(\$next)"/>
</xsl:template>

<!-- Are we done? -->
<xsl:template match="s[@y &gt; @R]">
<!-- Print PI approximation -->
<xsl:value-of select="2*@area div @R div @R"/>
</xsl:template>

<!-- Everything not matched above -->
<xsl:template match="s">
<!-- Inside the circle?-->
<xsl:variable name="inside" select="@x*@x+@y*@y &lt; @R*@R"/>
<!-- Print "*" or " "-->
<xsl:choose>
<xsl:when test="\$inside">*</xsl:when>
<xsl:otherwise>&#160;</xsl:otherwise>
</xsl:choose>

<xsl:variable name="next">
<!-- Add 1 to area if we're inside the circle. Go to next column.-->
<s R="{@R}" y="{@y}" x="{@x+1}" area="{@area+number(\$inside)}"/>
</xsl:variable>
<xsl:apply-templates select="msxsl:node-set(\$next)"/>
</xsl:template>

<!-- Begin here -->
<xsl:template match="/R">
<xsl:variable name="initial">
<!-- Initial state-->
<s R="{number()}" y="{-number()}" x="{-number()}" area="0"/>
</xsl:variable>
<pre>
<xsl:apply-templates select="msxsl:node-set(\$initial)"/>
</pre>
</xsl:template>
</xsl:stylesheet>
``````

If you want to test it, save it as `pi.xslt` and open the following XML file in IE:

``````<?xml version="1.0"?>
<?xml-stylesheet href="pi.xslt" type="text/xsl" ?>
<R>
10
</R>
``````
• my <eyes></eyes>! The goggles, they <do>nothing</do>! Mar 16, 2010 at 1:52
• Dang! I'm afraid you may have beaten my HyperCard solution for uniqueness :D Mar 16, 2010 at 3:44
• I can't believe you said "open...IE" Mar 16, 2010 at 21:18
• Heh, yes, back in the day, we only had IE and XML with XSLT was the solution to all our problems. Good old times! :) Mar 16, 2010 at 22:17
• XSL version 1.0 wow, I remember looking forward to version 2 but by the time it came out I'd already moved on. Mar 25, 2010 at 2:53

## Perl, 959699106109110119 characters:

``````\$t+=\$;=1|2*sqrt(\$r**2-(\$u-2*\$_)**2),say\$"x(\$r-\$;/2).'*'x\$;for 0..
(\$u=(\$r=<>)-1|1);say\$t*2/\$r**2
``````

(The newline can be removed and is only there to avoid a scrollbar)

Yay! Circle version!

``````    \$t+=\$;=
1|2*sqrt(\$r**
2-(\$u-2*\$_)**2)
,say\$"x(\$r-\$;/2
).'*'x\$;for 0..
(\$u=(\$r=<>)-1|1
);\$pi=~say\$t*
2/\$r**2
``````

For the uninitiated, the long version:

``````#!/usr/bin/perl

use strict;
use warnings;
use feature 'say';

my \$radius = <>;

# Since we're only printing asterisks on lines where y is odd,
# the number of lines to be printed equals the size of the radius,
# or (radius + 1) if the radius is an odd number.
# Note: we're always printing an even number of lines.
my \$maxline = (\$radius - 1) | 1;

my \$surface = 0;

# for (\$_ = 0; \$_ <= \$maxline; \$_++), if you wish
for (0 .. \$maxline) {
# First turn 0 ... N-1 into -(N/2) ... N/2 (= Y-coordinates),
my \$y = \$maxline - 2*\$_;

# then use Pythagoras to see how many stars we need to print for this line.
# Bitwise OR "casts" to int; and: 1 | int(2 * x) == 1 + 2 * int(x)
my \$stars = 1 | 2 * sqrt(\$radius**2-\$y**2);
\$surface += \$stars;

# \$" = \$LIST_SEPARATOR: default is a space,
# Print indentation + stars
# (newline is printed automatically by say)
say \$" x (\$radius - \$stars/2) . '*' x \$stars;
}

# Approximation of Pi based on surface area of circle:
``````
• That is by far the most unreadable code I've seen in my entire life Mar 14, 2010 at 3:05
• I guess you've never seen APL then. Mar 14, 2010 at 4:59
• @Chris Marisic: Did you check the other questions/topics tagged `code-golf`? :) I've seen far more unreadable examples. Mar 14, 2010 at 6:51
• @Peter:Unlike most, I've both seen and written APL. It takes a couple weeks to get accustomed to its special characters, but after that it can be quite readable. Even after a couple of decades to get accustomed, Perl is still much worse. Mar 14, 2010 at 7:26
• 111 chars, `\$r=<>;\$t+=\$n=1+2*int sqrt(\$r**2-(\$u-2*\$_)**2),print\$"x(\$r-\$n/2).'*'x\$n.\$/for(0..(\$u=\$r-1+\$r%2));print\$t*2/\$r**2` Mar 14, 2010 at 10:01

## FORTRAN - 101 Chars

``````\$ f95 piday.f95 -o piday && echo 8 | ./piday
``````

``````READ*,N
DO I=-N,N,2
M=(N*N-I*I)**.5
PRINT*,(' ',J=1,N-M),('*',J=0,M*2)
T=T+2*J
ENDDO
PRINT*,T/N/N
END
``````

``````    READ*,N
K=N/2*2;DO&
I=1-K,N,2;M=&
(N*N-I*I)**.5;;
PRINT*,(' ',J=&
1,N-M),('*',J=&
0,M*2);T=T+2*J;
ENDDO;PRINT*&
,T/N/N;END;
!PI-DAY
``````
• Wait, I though formatting was important in Fortran? You have letters in column 1!
– Joel
Mar 18, 2010 at 16:22
• Most people are still stuck on Fortan77 from what I've seen.
– Joel
Mar 22, 2010 at 16:49
• I like how the circle version looks like the Death Star. Nov 5, 2010 at 19:35

x86 Machine Code: 127 bytes

Intel Assembler: 490 chars

``````    mov si,80h
mov cl,[si]
jcxz ret
mov bx,10
xor ax,ax
xor bp,bp
dec cx
a:mul bx
mov dl,[si+2]
sub dl,48
cmp dl,bl
jae ret
inc si
loop a
mov dl,al
inc dl
mov dh,al
mov ch,dh
mul al
mov di,ax
x:mov al,ch
sub al,dl
imul al
mov si,ax
mov cl,dh
c:mov al,cl
sub al,dl
imul al
cmp ax,di
mov al,32
ja y
or al,bl
y:int 29h
dec cl
jnz c
mov al,bl
int 29h
mov al,13
int 29h
sub ch,2
jnc x
mov ax,bp
cwd
mov cl,7
e:div di
cmp cl,6
jne z
pusha
mov al,46
int 29h
popa
int 29h
mov ax,bx
mul dx
jz ret
dec cl
jnz e
ret
``````

This version handles the bonus test case as well and is 133 bytes:

``````    mov si,80h
mov cl,[si]
jcxz ret
mov bx,10
xor ax,ax
xor bp,bp
dec cx
a:mul bx
mov dl,[si+2]
sub dl,48
cmp dl,bl
jae ret
inc si
loop a
mov dl,al
rcr dl,1
mov dh,dl
dec dh
mov ch,dh
mul al
mov di,ax
x:mov al,ch
sub al,dl
imul al
mov si,ax
mov cl,dh
c:mov al,cl
sub al,dl
imul al
cmp ax,di
mov al,32
jae y
or al,bl
y:int 29h
dec cl
jnz c
mov al,bl
int 29h
mov al,13
int 29h
sub ch,2
jnc x
mov ax,bp
cwd
mov cl,7
e:div di
cmp cl,6
jne z
pusha
mov al,46
int 29h
popa
int 29h
mov ax,bx
mul dx
jz ret
dec cl
jnz e
ret
``````
• It's interesting that some of the high level languages have shorter character counts than the binary this produces. Mar 17, 2010 at 0:13
• @Alcari: If you included all the code in the libraries the higher level languages use, their character counts would be significantly higher. In assembler, doing `printf("%f",a/b)` is not trivial, there's no single instruction to do that, and my implementation above assumes that 0 <= a/b < 10 and that the operation is a division and that a and b are integers. Mar 17, 2010 at 9:10

## Python: 101 104 107 110 chars

Based on the other Python version by Nicholas Riley.

``````r=input()
t=0
i=1
exec"n=1+int((2*i*r-i*i)**.5)*2;t+=2.*n/r/r;print' '*(r-n/2)+'*'*n;i+=2;"*r
print t
``````

Credits to AlcariTheMad for some of the math.

Ah, the odd-numbered ones are indexed with zero as the middle, explains everything.

Bonus Python: 115 chars (quickly hacked together)

``````r=input()
t=0
i=1
while i<r*2:n=1+int((2*i*r-i*i)**.5)*2;t+=2.*n/r/r;print' '*(r-n/2)+'*'*n;i+=2+(r-i==2)*2
print t
``````
• Wow, yeah, '+' beats -1 and , any day. Yet another technique I put out of my mind because it's almost never the right thing to do :-) Mar 14, 2010 at 22:10
• I've used C in the past, and never even looked at Python. This 104 chars is more readable than the C++ above. Amazing. Maybe I should learn Python... Mar 15, 2010 at 3:18
• @Dean: One of the main goals of Python is to be easy to read and write. Mar 15, 2010 at 3:31
• have you though about using exec with your 104 char answer too? :) Mar 19, 2010 at 5:18
• I would need to roll my own compression - zlib, marshalling, etc all came out larger than the actual code. Mar 19, 2010 at 20:08

## In dc: 88 and 93 93 94 96 102 105 129 138 141 chars

Just in case, I am using OpenBSD and some supposedly non-portable extensions at this point.

93 chars. This is based on same formula as FORTRAN solution (slightly different results than test cases). Calculates X^2=R^2-Y^2 for every Y

``````[rdPr1-d0<p]sp1?dsMdd*sRd2%--
[dd*lRr-vddlMr-32rlpxRR42r2*lpxRRAP4*2+lN+sN2+dlM>y]
dsyx5klNlR/p
``````

88 chars. Iterative solution. Matches test cases. For every X and Y checks if X^2+Y^2<=R^2

``````1?dsMdd*sRd2%--sY[0lM-[dd*lYd*+lRr(2*d5*32+PlN+sN1+dlM!<x]dsxxAPlY2+dsYlM>y]
dsyx5klNlR/p
``````

To run `dc pi.dc`.

Here is an older annotated version:

``````# Routines to print '*' or ' '. If '*', increase the counter by 2
[lN2+sN42P]s1
[32P]s2
# do 1 row
# keeping I in the stack
[
# X in the stack
# Calculate X^2+Y^2 (leave a copy of X)
dd*lYd*+
#Calculate X^2+Y^2-R^2...
lR-d
# .. if <0, execute routine 1 (print '*')
0>1
# .. else execute routine 2 (print ' ')
0!>2
# increment X..
1+
# and check if done with line (if not done, recurse)
d lM!<x
]sx
# Routine to cycle for the columns
# Y is on the stack
[
# push -X
0lM-

# Do row
lxx
# Print EOL
10P
# Increment Y and save it, leaving 2 copies
lY 2+ dsY
# Check for stop condition
lM >y
]sy
# main loop
# Push Input value
[Input:]n?
# Initialize registers
# M=rows
d sM
# Y=1-(M-(M%2))
dd2%-1r-sY
# R=M^2
d*sR
# N=0
0sN
[Output:]p
# Main routine
lyx
# Print value of PI, N/R
5klNlR/p
``````
• Doesn't work with linux dc, but I can confirm it works on openbsd. Awesome! Mar 17, 2010 at 18:09
• @Carlos, yes the `(` operator sure is handy. too bad it remains unimplemented in the dc that comes with linux Mar 17, 2010 at 22:44
• @gnibbler - "A complete rewrite of the dc command using the bn(3) big number routines first appeared in OpenBSD 3.5." I didn't know that. Some nice new operators are included, but they are marked as "non-portable extensions". Mar 17, 2010 at 22:45
• Yeah, the ( operator alone allowed to shed 6 strokes! Mar 18, 2010 at 10:25

## Powershell, 119113 109 characters

``````(\$z=-(\$n=\$args[(\$s=0)])..\$n)|?{\$_%2}|%{\$l="";\$i=\$_
\$z|%{\$l+=" *"[\$i*\$i+\$_*\$_-lt\$n*\$n-and++\$s]};\$l};2*\$s/\$n/\$n
``````

and here's a prettier version:

``````( \$range = -( \$R = \$args[ ( \$area = 0 ) ] ) .. \$R ) |
where { \$_ % 2 } |
foreach {
\$line = ""
\$i = \$_
\$range | foreach {
\$line += " *"[ \$i*\$i + \$_*\$_ -lt \$R*\$R -and ++\$area ]
}
\$line
}
2 * \$area / \$R / \$R
``````
• @Thor: I hope not, but this must be the ugliest thing I've ever written :) Mar 14, 2010 at 22:40

## HyperTalk: 237 characters

Indentation is not required nor counted. It is added for clarity. Also note that HyperCard 2.2 does accept those non-ASCII relational operators I used.

``````function P R
put""into t
put 0into c
repeat with i=-R to R
if i mod 2≠0then
repeat with j=-R to R
if i^2+j^2≤R^2then
put"*"after t
else
put" "after t
end if
end repeat
put return after t
end if
end repeat
return t&2*c/R/R
end P
``````

Since HyperCard 2.2 doesn't support stdin/stdout, a function is provided instead.

• Hypercard, Mr. Adams? Seriously? This is highly unexpected.
– Kawa
Mar 14, 2010 at 11:10
• @Kawa: That's kind of why I posted it :) Also, code golf is a good way to build up a test suite in case I decide to write a HyperTalk interpreter in the future. Mar 14, 2010 at 18:59
• Hah! I'd like to see that, XD
– Kawa
Mar 15, 2010 at 17:14
• If you ever decide to write that interpreter, or want to join work on an existing one, let me know and I can add mention of it on hypercard.org and I'd be curious about how it goes :-) Oct 27, 2013 at 13:07

### C#: 209 202 201 characters:

``````using C=System.Console;class P{static void Main(string[]a){int r=int.Parse(a[0]),s=0,i,x,y;for(y=1-r;y<r;y+=2){for(x=1-r;x<r;s+=i)C.Write(" *"[i=x*x+++y*y<=r*r?1:0]);C.WriteLine();}C.Write(s*2d/r/r);}}
``````

Unminified:

``````using C = System.Console;
class P {
static void Main(string[] arg) {
int r = int.Parse(arg[0]), sum = 0, inside, x, y;
for (y = 1 - r; y < r; y += 2) {
for (x = 1 - r; x < r; sum += inside)
C.Write(" *"[inside = x * x++ + y * y <= r * r ? 1 : 0]);
C.WriteLine();
}
C.Write(sum * 2d / r / r);
}
}
``````
• I don't know C# very much but shouldn't you able to use `string[]a` and `1-r` (instead of `-1+r`)? Mar 14, 2010 at 10:02
• @Kenny: You are right. :) That saves three characters, and then I managed to get rid of five more. Mar 14, 2010 at 10:40
• Spotted that first thing, totally missed on the `-r+1` thingy. Mar 14, 2010 at 11:24
• Also, spotted `x*xx+++y*y` too, but it is a mad thing to dissect at first glance. Mar 14, 2010 at 11:36
• I took the liberty of eliminating another byte ;-)
– Joey
Mar 15, 2010 at 0:33

## Haskell 139 145147150230 chars:

``````x True=' ';x _='*'
a n=unlines[[x\$i^2+j^2>n^2|j<-[-n..n]]|i<-[1-n,3-n..n]]
b n=a n++show(sum[2|i<-a n,i=='*']/n/n)
``````

Handling the odd numbers: 148 chars:

``````main=do{n<-readLn;let{z k|k<n^2='*';z _=' ';c=[[z\$i^2+j^2|j<-[-n..n]]|i<-[1,3..n]];d=unlines\$reverse c++c};putStrLn\$d++show(sum[2|i<-d,i=='*']/n/n)}
``````

150 chars: (Based on the C version.)

``````a n=unlines[concat[if i^2+j^2>n^2then" "else"*"|j<-[-n..n]]|i<-[1-n,3-n..n]]
main=do n<-read`fmap`getLine;putStr\$a n;print\$2*sum[1|i<-a n,i=='*']/n/n
``````

230 chars:

`main=do{r<-read`fmap`getLine;let{p=putStr;d=2/fromIntegral r^2;l y n=let c m x=if x>r then p"\n">>return m else if x*x+y*y<r*r then p"*">>c(m+d)(x+1)else p" ">>c m(x+1)in if y>r then print n else c n(-r)>>=l(y+2)};l(1-r`mod`2-r)0}`

Unminified:

```main = do r <- read `fmap` getLine
let p = putStr
d = 2/fromIntegral r^2
l y n = let c m x = if x > r
then p "\n" >> return m
else if x*x+y*y<r*r
then p "*" >> c (m+d) (x+1)
else p " " >> c m (x+1)
in if y > r
then print n
else c n (-r) >>= l (y+2)
l (1-r`mod`2-r) 0```

I was kinda hoping it would beat some of the imperative versions, but I can't seem to compress it any further at this point.

• Chopped off 2 more by getting rid of the "d" and adding 1 instead of it and then printing "2*n/fromIntegral r^2" Mar 14, 2010 at 8:27
• Shaved 3 characters off via a few Haskell tricks. I love that in Haskell there is often no cost to multiple lines (newline vs. semicolon) and hence our code-golf is generally readable! Mar 14, 2010 at 16:26
• Strictly speaking, the 145-char version only works if the input is even. But very nice either way. Mar 16, 2010 at 7:31
• Shortened the I/O line. It should still be possible to save a few more characters by pushing the function defs into a main=do{...let{...}...} block, I think. Mar 16, 2010 at 8:18
• @comingstorm: Cool! I didn't know about readLn. This will help many a Haskell code-golf. @Steve: Yup, I'm still trying to figure out the most efficient way to fix that. Mar 16, 2010 at 14:19

### Ruby, 96 chars

(based on Guffa's C# solution):

``````r=gets.to_f
s=2*t=r*r
g=1-r..r
g.step(2){|y|g.step{|x|putc' * '[i=t<=>x*x+y*y];s+=i}
puts}
p s/t
``````

109 chars (bonus):

``````r=gets.to_i
g=-r..r
s=g.map{|i|(g.map{|j|i*i+j*j<r*r ?'*':' '}*''+"\n")*(i%2)}*''
puts s,2.0/r/r*s.count('*')
``````
• Thanks! I'm embarrassed to see how unreadable Ruby can be... :) Mar 14, 2010 at 22:49
• you can also use `p s` instead of `puts s` :) Mar 14, 2010 at 23:07
• Nice fresh ideas in there - I like that you are using g with 2 different step sizes and the <=> to avoid having code to convert from logical Mar 20, 2010 at 22:42

## PHP: 117

Based on dev-null-dweller

``````for(\$y=1-\$r=\$argv[1];\$y<\$r;\$y+=2,print"\n")for(\$x=1-\$r;\$x<\$r;\$x++)echo\$r*\$r>\$x*\$x+\$y*\$y&&\$s++?'*':' ';echo\$s*2/\$r/\$r;
``````

You guys are thinking way too hard.

``````switch (r) {
case 1,2:
echo "*"; break;
case 3,4:
echo " ***\n*****\n ***"; break;
// etc.
}
``````
• Character count gets a bit out of hand, don't you think? :) Mar 15, 2010 at 23:53
• Doesn't scale. Unmaintainable! Mar 16, 2010 at 18:42
• I tried compressing the test case cheat as much as possible and it still ended up slightly larger than my actual solution :P Mar 16, 2010 at 20:45
• +1, always do the most obvious thing first... if someone doesnt like it, loudly complain that the spec wasnt clear enough Mar 19, 2010 at 14:23
• Brian had a semi-serious attempt at special casing the test cases, you should upvote his too if you like this answer ;) stackoverflow.com/questions/2457995 Mar 21, 2010 at 22:21

# J: 47, 46, 45

Same basic idea as other solutions, i.e. r^2 <= x^2 + y^2, but J's array-oriented notation simplifies the expression:

``````c=:({&' *',&":2*+/@,%#*#)@:>_2{.\|@j./~@i:@<:
``````

You'd call it like `c 2` or `c 8` or `c 10` etc.

## Bonus: 49

To handle odd input, e.g. `13`, we have to filter on odd-valued x coordinates, rather than simply taking every other row of output (because now the indices could start at either an even or odd number). This generalization costs us 4 characters:

``````c=:*:({&' *'@],&":2%(%+/@,))]>(|@j./~2&|#])@i:@<:
``````

## Deminimized version:

``````c =: verb define
pythag   =. y > | j./~ i:y-1    NB.  r^2 > x^2 + y^2
squished =. _2 {.\ pythag       NB.  Odd rows only
piApx    =. (2 * +/ , squished) %  y*y
(squished { ' *') , ": piApx
)
``````

Improvements and generalizations due to Marshall Lochbam on the J Forums.

### Python: 118 characters

Pretty much a straightforward port of the Perl version.

``````r=input()
u=r+r%2
t=0
for i in range(u):n=1+2*int((r*r-(u-1-2*i)**2)**.5);t+=n;print' '*(r-n/2-1),'*'*n
print 2.*t/r/r
``````
• For python2 you can just use `r=input()` Mar 14, 2010 at 8:11
• You don't need the space between `print` and `' '` Mar 14, 2010 at 8:13
• OK, that's scary, it's shorter than the Perl version now. (I completely put "input" out of my mind because it's so unsafe ordinarily...) Mar 14, 2010 at 8:37

C++: 169 characters

``````#include <iostream>
int main(){int i,j,c=0,n;std::cin>>n;for(i=-n;i<=n;i+=2,std::cout<<'\n')for(j=-n;j<=n;j++)std::cout<<(i*i+j*j<=n*n?c++,'*':' ');std::cout<<2.*c/n/n;}
``````

Unminified:

``````#include <iostream>
int main()
{
int i,j,c=0,n;
std::cin>>n;
for(i=-n;i<=n;i+=2,std::cout<<'\n')
for(j=-n;j<=n;j++)
std::cout<<(i*i+j*j<=n*n?c++,'*':' ');
std::cout<<2.*c/n/n;
}
``````

(Yes, using std:: instead of `using namespace std` uses less characters)

The output here doesn't match the test cases in the original post, so here's one that does (written for readability). Consider it a reference implementation (if Poita_ doesn't mind):

``````#include <iostream>
using namespace std;

int main()
{
int i, j, c=0, n;
cin >> n;
for(i=-n; i<=n; i++) {
if (i & 1) {
for(j=-n; j<=n; j++) {
if (i*i + j*j <= n*n) {
cout << '*';
c++;
} else {
cout << ' ';
}
}
cout << '\n';
}
}
cout << 2.0 * c / n / n << '\n';
}
``````

C++: 168 characters (with output I believe is correct)

``````#include <iostream>
int main(){int i,j,c=0,n;std::cin>>n;for(i=-n|1;i<=n;i+=2,std::cout<<"\n")for(j=-n;j<=n;j++)std::cout<<" *"[i*i+j*j<=n*n&&++c];std::cout<<2.*c/n/n;}
``````
• The code loops from -n to n, so for an input of for example 4 it displays a diameter of 9, not 7 as shown in the test cases. Mar 13, 2010 at 23:48
• Is it a requirement that your circle matches the OP's exactly? Mar 14, 2010 at 0:03
• You may wish to change it to `#include <iostream.h>` which basically is `#include <iostream> -- using namespace std;` for compatibility with old C++ compilers. Mar 14, 2010 at 5:18
• @Carlos, I didn't write that particular bit, but it's a binary AND operator. It checks that the last bit is set, which is equivalent to doing `i%2`, but is "faster". It's not really faster because the compiler would do it anyway. Mar 14, 2010 at 19:54
• @Poita_: Actually, i%2 and i&1 behave differently with negative numbers. (-1)&1 is 1, which is what we want here. (-1)%2 is -1 on my system, and this conforms to C99. Thus, although if (i&1) and if (i%2) will do the same thing, one must be careful with if (i%2 == 1), which won't work when i is negative. Mar 14, 2010 at 22:45

## PHP: 126 132 138

(based on Guffa C# solution)

126:

``````for(\$y=1-(\$r=\$argv[1]);\$y<\$r;\$y+=2,print"\n")for(\$x=1-\$r;\$x<\$r;\$s+=\$i,++\$x)echo(\$i=\$x*\$x+\$y*\$y<=\$r*\$r)?'*':' ';echo\$s*2/\$r/\$r;
``````

132:

``````for(\$y=1-(\$r=\$argv[1]);\$y<\$r;\$y+=2){for(\$x=1-\$r;\$x<\$r;@\$s+=\$i,++\$x)echo(\$i=\$x*\$x+\$y*\$y<=\$r*\$r?1:0)?'*':' ';echo"\n";}echo\$s*2/\$r/\$r;
``````

138:

``````for(\$y=1-(\$r=\$argv[1]);\$y<\$r;\$y+=2){for(\$x=1-\$r;\$x<\$r;@\$s+=\$i){\$t=\$x;echo(\$i=\$t*\$x++ +\$y*\$y<=\$r*\$r?1:0)?'*':' ';}echo"\n";}echo\$s*2/\$r/\$r;
``````

Current full:

``````for( \$y = 1 - ( \$r = \$argv[1]); \$y < \$r; \$y += 2, print "\n")
for( \$x = 1-\$r; \$x < \$r; \$s += \$i, ++\$x)
echo( \$i = \$x*\$x + \$y*\$y <= \$r*\$r) ? '*' : ' ';
echo \$s*2 /\$r /\$r;
``````

Can be without `@` before first `\$s` but only with error_reporting set to 0 (Notice outputs is messing the circle)

• what does the /\$r do in echo \$s*2 /\$r /\$r; Mar 15, 2010 at 23:45
• OHH division... the spacing threw me off, thought it was some operator shorthand i'd never seen Mar 16, 2010 at 0:06

## Ruby 1.8.x, 93

``````r=\$_.to_f
q=0
e=r-1
(p(('*'*(n=1|2*(r*r-e*e)**0.5)).center r+r)
q+=n+n
e-=2)while-r<e
p q/r/r
``````

Run with `\$ ruby -p piday`

• Nice one, but it doesn't print out the pi approximation Mar 21, 2010 at 22:14
• It doesn't work in 1.9.1, and prints double quotes around the circle. Mar 22, 2010 at 18:30
• It's normal for golf programs not to work on a wildly different language levels. How many Perl or Python c-g's work on every version of the language? It is interesting, though, turns out the reason is because `Integer|Float` no longer coerces the float on 1.9. Mar 23, 2010 at 13:55

# APL: 59

This function accepts a number and returns the two expected items. Works correctly in bonus cases.

``````{⍪(⊂' *'[1+m]),q÷⍨2×+/,m←(2|v)⌿(q←⍵*2)>v∘.+v←2*⍨⍵-⍳1+2×⍵-1}
``````

Dialect is Dyalog APL, with default index origin. Skill level is clueless newbie, so if any APL guru wants to bring it down to 10 characters, be my guest!

You can try it online on Try APL, just paste it in and put a number after it:

``````   {⍪(⊂' *'[1+m]),q÷⍨2×+/,m←(2|v)⌿(q←⍵*2)>v∘.+v←2*⍨⍵-⍳1+2×⍵-1} 13
*************
*******************
*********************
***********************
*************************
*************************
*************************
*************************
***********************
*********************
*******************
*************
2.98225
``````
• Although I dont know APL, It looks prettier than the J version. Jul 25, 2013 at 1:10
• @ahala Indeed. APL is beautiful, both conceptually and aesthetically. I started learning J, but was turned off by the random ASCII craziness. A good soul wrote an open source APL interpreter for Node.js (npm install apl) that's pretty good. It computes the above code with just a minor change (no monadic `⍪`, 2nd char.) You can find good APL documentation on all vendor sites, such as Dyalog. Jul 25, 2013 at 1:20

## And a bash entry: 181 186 190 chars

``````for((y=-(r=\$1,r/2*2);y<=r;y+=2));do for((x=-r;x<=r;++x));do((x*x+y*y<r*r))&&{((++n));echo -n '*';}||echo -n " ";((x<r))||echo;done;done;((s=1000,p=n*2*s/r/r,a=p/s,b=p%s));echo \$a.\$b
``````

Run with e.g. `bash py.sh 13`

Python: 148 characters.

Failed (i.e. not short enough) attempt to abuse the rules and hardcode the test cases, as I mentioned in reply to the original post. Abusing it with a more verbose language may have been easier:

``````a=3.0,3.125,3.16
b="1","23","3677","47899"
r=input()
for i in b[r/3]+b[r/3][::-1]:q=1+2*int(i);print ' '*(int(b[r/3][-1])-int(i))+'*'*q
print a[r/5]
``````

bc: 165, 127, 126 chars

Based on the Python version.

``````r=read()
for(i=-1;r*2>i+=2;scale=6){n=sqrt(2*i*r-i*i)
scale=0
n=1+n/1*2
j=r-n/2
t+=2*n
while(j--)" "
while(n--)"*"
"
"}
t/r/r
``````

(New line after the last line cannot be omitted here.)

• 127 chars: r=read();for(i=1;i<r*2;scale=6){n=sqrt(2*ir-ii);scale=0;n=1+n/1*2;i+=2;j=r-n/2;t+=2*n;while(j--)" ";while(n--)"*";" "};t/r/r Mar 17, 2010 at 4:26
• The only problem here is that it now fails for 0, but according to current rules, it's ok. Mar 17, 2010 at 12:45

## JavaScript (SpiderMonkey) - 118 chars

This version accepts input from stdin and passes the bonus test cases

``````r=readline()
for(t=0,i=-r;i<r;i++)if(i%2){for(s='',j=-r;j<r;j++){t+=q=i*i+j*j<r*r
s+=q?'*':' '}print(s)}print(t*2/r/r)
``````

Usage: `cat 10 | js thisfile.js` -- jsbin preview adds an alias for print/readline so you can view in browser

# Javascript: 213 163

Updated

``````r=10;m=Math;a=Array;t=0;l=document;for(i=-r;i<r;i+=2){w=m.floor(m.sqrt(r*r-i*i)*2);t+=w*2;l.writeln(a(m.round(r-w/2)).join(' ')+a(w).join('*'));}l.writeln(t/(r*r))
``````

Nobody said it had to render correctly in the browser - just the output. As such I've removed the pre tags and optimised it further. To view the output you need to view generated source or set your stylesheet accordingly. Pi is less accurate this way, but it's now to spec.

``````r=10;m=Math;a=Array;t=0;s='';for(i=-r;i<r;i++){w=m.floor((m.sqrt(m.pow(r,2)-m.pow(i,2)))*2);t+=w;if(i%2){z=a(m.round(r-w/2)).join(' ')+a(w).join('*');s+=z+'\n';}}document.write('<pre>'+(s+(t/m.pow(r,2)))+'</pre>')
``````

Unminified:

``````r=10;
m=Math;
a=Array;
t=0;
s='';
for(i=-r;i<r;i++){
w=m.floor((m.sqrt(m.pow(r,2)-m.pow(i,2)))*2);
t+=w;
if(i%2){
z=a(m.round(r-w/2)).join(' ')+a(w).join('*');
s+=z+'\n';
}
}
document.write('<pre>'+(s+(t/m.pow(r,2)))+'</pre>');
``````

# Java: 234

``````class C{public static void main(String[] a){int x,y,s=0,r=Integer.parseInt(a[0]);for(y=1-r;y<r;y+=2){for(x=1-r;x<r;++x){boolean b=x*x+y*y<=r*r;s+=b?1:0;System.out.print(b?'*':' ');}System.out.println();}System.out.println(s*2d/r/r);}}
``````

Unminified:

``````class C{
public static void main(String[] a){
int x,y,s=0,r=Integer.parseInt(a[0]);
for(y=1-r;y<r;y+=2){
for(x=1-r;x<r;++x) {
boolean b=x*x+y*y<=r*r;
s+=b?1:0;
System.out.print(b?'*':' ');
}
System.out.println();
}
System.out.println(s*2d/r/r);
}
}
``````
• Could probably save ~50 characters rewriting this in scala Apr 16, 2012 at 5:01

GAWK: 136, 132, 126, 125 chars

Based on the Python version.

``````{r=\$1
for(i=-1;r*2>i+=2;print""){n=1+int((2*i*r-i*i)**.5)*2
t+=2*n/r/r
printf"%*s",r-n/2,""
while(n--)printf"%c","*"}print t}
``````