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The shortest program by character count that accepts standard input of the form X-Y R, with the following guarantees:

  • R is a non-negative decimal number less than or equal to 8
  • X and Y are non-negative angles given in decimal as multiples of 45° (0, 45, 90, 135, etc.)
  • X is less than Y
  • Y is not 360 if X is 0

And produces on standard output an ASCII "arc" from the starting angle X to the ending angle Y of radius R, where:

  • The vertex of the arc is represented by o
  • Angles of 0 and 180 are represented by -
  • Angles of 45 and 225 are represented by /
  • Angles of 90 and 270 are represented by |
  • Angles of 135 and 315 are represented by \
  • The polygonal area enclosed by the two lines is filled with a non-whitespace character.

The program is not required to produce meaningful output if given invalid input. Solutions in any language are allowed, except of course a language written specifically for this challenge, or one that makes unfair use of an external utility. Extraneous horizontal and vertical whitespace is allowed in the output provided that the format of the output remains correct.

Happy golfing!

Numerous Examples


0-45 8




0-135 4




180-360 2




45-90 0




0-315 2



locked by Shog9 Apr 3 '15 at 16:46

This question exists because it has historical significance, but it is not considered a good, on-topic question for this site, so please do not use it as evidence that you can ask similar questions here. This question and its answers are frozen and cannot be changed. More info: help center.

If the angle is greater than 180, do we fill the angle or it's supplement? For instance what should "0-315 2" look like? "The polygonal area enclosed by the two lines" is not specific enough. – Triptych Jul 29 '10 at 18:12
@Tryptich: Even if the difference between the starting and ending angles equals or exceeds 180 degrees, the region from the starting angle up to the ending angle should be filled. So 0-315 2 is (to use the technical terms) a Pac-Man, not a pie slice. See example in edit. – Jon Purdy Jul 29 '10 at 20:43
Seeing the title I thought the goal is to write an Arc interpreter... that would actually be in spirit with Paul Graham's "Shorter is better"! – liori Jul 30 '10 at 15:17
Where do you all come up with these crazy ideas from? :) – willcodejavaforfood Jul 30 '10 at 16:26
@javaforfood: Boredom? :P – Jon Purdy Jul 30 '10 at 16:29

12 Answers 12

up vote 15 down vote accepted

Perl, 235 211 225 211 207 196 179 177 175 168 160 156 146 chars

<>=~/-\d+/;for$y(@a=-$'..$'){print+(map$_|$y?!($t=8*($y>0)+atan2(-$y,$_)/atan2 1,1)&-$&/45==8|$t>=$`/45&$t<=-$&/45?qw(- / | \\)[$t%4]:$":o,@a),$/}

Perl using say feature, 161 149 139 chars

$ echo -n '<>=~/-\d+/;for$y(@a=-$'"'"'..$'"'"'){say map$_|$y?!($t=8*($y>0)+atan2(-$y,$_)/atan2 1,1)&-$&/45==8|$t>=$`/45&$t<=-$&/45?qw(- / | \\)[$t%4]:$":o,@a}' | wc -c
$ perl -E '<>=~/-\d+/;for$y(@a=-$'"'"'..$'"'"'){say map$_|$y?!($t=8*($y>0)+atan2(-$y,$_)/atan2 1,1)&-$&/45==8|$t>=$`/45&$t<=-$&/45?qw(- / | \\)[$t%4]:$":o,@a}'

Perl without trailing newline, 153 143 chars

<>=~/-\d+/;for$y(@a=-$'..$'){print$/,map$_|$y?!($t=8*($y>0)+atan2(-$y,$_)/atan2 1,1)&-$&/45==8|$t>=$`/45&$t<=-$&/45?qw(- / | \\)[$t%4]:$":o,@a}

Original version commented:

$_=<>;m/(\d+)-(\d+) (\d+)/;$e=$1/45;$f=$2/45; # parse angles and radius, angles are 0-8
for$y(-$3..$3){                               # loop for each row and col
            $t=atan2(-$y,$x)/atan2 1,1;   # angle of this point
            $t+=8if($t<0);                # normalize negative angles
            @w=split//,"-/|\\"x2;         # array of ASCII symbols for enclosing lines
            # if it's origin -> "o", if it's enclosing line, get symbol from array
            # if it's between enclosing angles "x", otherwise space

EDIT 1: Inlined sub, relational and equality operators return 0 or 1.
EDIT 2: Added version with comments.
EDIT 3: Fixed enclosing line at 360º. Char count increased significantly.
EDIT 4: Added a shorter version, bending the rules.
EDIT 5: Smarter fix for the 360º enclosing line. Also, use a number as fill. Both things were obvious. Meh, I should sleep more :/
EDIT 6: Removed unneeded m from match operator. Removed some semicolons.
EDIT 7: Smarter regexp. Under 200 chars!
EDIT 8: Lots of small improvements:

  • Inner for loop -> map (1 char)
  • symbol array from split string -> qw (3 chars)
  • inlined symbol array (6 chars, together with the previous improvement 9 chars!)
  • Logical or -> bitwise or (1 char)
  • Regexp improvement (1 char)
  • Use arithmethic for testing negative angles, inspired by Jacob's answer (5 chars)

EDIT 9: A little reordering in the conditional operators saves 2 chars.
EDIT 10: Use barewords for characters.
EDIT 11: Moved print inside of loop, inspired by Lowjacker's answer.
EDIT 12: Added version using say.
EDIT 13: Reuse angles characters for fill character, as Gwell's answer does. Output isn't as nice as Gwell's though, that would require 5 additional chars :) Also, .. operator doen't need parentheses.
EDIT 14: Apply regex directly to <>. Assign range operator to a variable, as per Adrian's suggestion to bta's answer. Add version without the final newline. Updated say version.
EDIT 15: More inlining. map{block}@a -> map expr,@a.

I meant I do not draw correctly the enclosing line if it's at 360º. – ninjalj Jul 29 '10 at 21:30
Right, I had responded just before testing it; that's why my comment is removed. Good job getting it under 200! :) – Jon Purdy Jul 30 '10 at 10:38

Lua, 259 characters

Slightly abuses the non-whitespace character clause to produce a dazzling display and more importantly save strokes.

m=math"%d+")a=i()/45 b=i()/45 r=i()for y=r,-r,-1 do for x=-r,r do c=m.atan2(y,x)/m.pi*4 c=c<0 and c+8 or c k=1+m.modf(c+.5)io.write(x==0 and y==0 and'o'or c>=a and c<=b and('-/|\\-/|\\-'):sub(k,k)or c==0 and b==8 and'-'or' ')end print()end

Input: 45-360 4


Able to handle odd angles

Input: 15-75 8


Very nice! I was waiting for someone to take advantage of that wording. The support for non-multiple-of-45-degree angles is great, too, though mine and perhaps others at least degrade gracefully. – Jon Purdy Jul 31 '10 at 6:09

MATLAB, 188 chars :)

input '';[w x r]=strread(ans,'%d-%d%d');l='-/|\-/|\-';[X Y]=meshgrid(-r:r);T=atan2(-Y,X)/pi*180;T=T+(T<=0)*360;T(T>w&T<x)=-42;T(T==w)=-l(1+w/45);T(T==x)=-l(1+x/45);T(r+1,r+1)=-'o';char(-T)

Commented code:

%%# Get the string variable (enclose in quotes, e.g. '45-315 4')
input ''
%%# Extract angles and length
[w x r]=strread(ans,'%d-%d%d');
%%# Store characters
%%# Create the grid
[X Y]=meshgrid(-r:r);
%%# Compute the angles in degrees
%%# Get all the angles
%# Negative numbers indicate valid characters
%%# Add the characters
%%# Add the origin
%%# Display
Now I'm wondering why more golfs aren't done in MATLAB. – Jon Purdy Jul 30 '10 at 10:39
@Jon- I've wondered the same thing. Given how much space you save using MATLAB's vector operations, you'd think you would see it more often. – bta Jul 30 '10 at 14:52
I managed to save three chars: try input '';[w x r]=strread(ans,'%d-%d%d');l='-/|\-/|\-';[X Y]=meshgrid(r:-1:-r,-r:r);T=180+atan2(Y,X)*180/pi;T(T>w&T<x)=-42;T(T==w)=-l(1+w/‌​45);T(T==x)=-l(1+x/45);T(r+1,r+1)=-'o';char(-T) this would build the same matrix T (except the center value which doesn't really matter since its always replaced with 'o') – Amro Aug 2 '10 at 22:08
you can save one additional character if capital 'O' is used instead of small 'o': T(r+1,r+1)=-79 – Amro Aug 2 '10 at 22:17
Couldn't help but try this myself. I trimmed a MATLAB solution down to 168 characters, and I still think I could get more. – gnovice Aug 3 '10 at 4:20

Mathematica 100 Chars

Out of competition because graphics are too perfect :)

  f[x_-y_ z_]:=Graphics@Table[
                 {EdgeForm@Red,Disk[{0,0},r,{x °,y °}],{r,z,1,-1}]

Invoke with f[30-70 5]


alt text

alt text


The SetAttributes[f, HoldAll];

is needed because the input

    f[a-b c] 

is otherwise interpreted as

lol, "graphics too perfect" xD – Alessandro Stamatto Aug 2 '10 at 4:18
@Alessandro Stamatto That was for the sake of sane competition ... and before someone complains that there is no "o" at the vertex :) ... Auguri! – Dr. belisarius Aug 2 '10 at 4:35
Now show us the output in ASCII! – Gabe Aug 2 '10 at 5:25
@Gabe Lol ... I have the output here ... but it's too large for the margin of this site :) – Dr. belisarius Aug 2 '10 at 5:49

GNU BC, 339 chars

Gnu bc because of read(), else and logical operators.

for(y=c;y>=-c;y--){for(x=-c;x<=c;x++){if(x==0)if(y<0)t=-2else t=2else if(x>0)t=a(y/x)/a(1)else if(y<0)t=a(y/x)/a(1)-4else t=a(y/x)/a(1)+4
if(x||y)if(t==a||t==b||t==b-8){scale=0;u=(t%4);scale=A;if(u==0)"-";if(u==1)"/";if(u==2)"|";if(u==3)"\"}else if(t>a&&t<b)"x"else" "else"o"};"
Nice! I would never have thought of using 'bc'. – bta Aug 1 '10 at 13:00

MATLAB 7.8.0 (R2009a) - 168 163 162 characters

Starting from Jacob's answer and inspired by gwell's use of any non-whitespace character to fill the arc, I managed the following solution:

[w x r]=strread(input('','s'),'%d-%d%d');
l='o -/|\-/|\-';

And some test output:

>> arc
0-135 4

I could reduce it further to 156 characters by removing the call to disp, but this would add an extra ans = preceding the output (which might violate the output formatting rules).

Even still, I feel like there are some ways to reduce this further. ;)

Damn. That is some tight MATLAB, sir. And rather readable, I might add. – Jon Purdy Aug 3 '10 at 4:54
@gnovice: A credit to the MATLAB community :) – Jacob Aug 3 '10 at 22:16
+1 156! Great job. – Geoff Aug 3 '10 at 22:19
T=atan2(-X',X)*180/pi;T=T+(T<=-~w)*360; can become T=180*(atan2(-X',X)/pi+(X'>=0)*2); to save 5 characters. – Geoff Aug 3 '10 at 22:29
@Geoff: That looks like it has definite promise. I'll have to try it out tomorrow. – gnovice Aug 4 '10 at 2:45

Ruby, 292 276 186 chars

x,y,r=gets.scan(/\d+/).map{|z|z.to_i};s=(-r..r);s.each{|a|s.each{|b|g=Math::atan2(-a,b)/Math::PI*180/1%360;print a|b==0?'o':g==x||g==y%360?'-/|\\'[g/45%4].chr: (x..y)===g ?'*':' '};puts}

Nicer-formatted version:

x, y, r = gets.scan(/\d+/).map{|z| z.to_i}
s = (-r..r)
s.each {|a|
    s.each {|b|
        g = (((Math::atan2(-a,b) / Math::PI) * 180) / 1) % 360
        print ((a | b) == 0) ? 'o' :
            (g == x || g == (y % 360)) ? '-/|\\'[(g / 45) % 4].chr :
                ((x..y) === g) ? '*' : ' '

I'm sure someone out there who got more sleep than I did can condense this more...

Edit 1: Switched if statements in inner loop to nested ? : operator

Edit 2: Stored range to intermediate variable (thanks Adrian), used stdin instead of CLI params (thanks for the clarification Jon), eliminated array in favor of direct output, fixed bug where an ending angle of 360 wouldn't display a line, removed some un-needed parentheses, used division for rounding instead of .round, used modulo instead of conditional add

Nice! Should probably accept parameters from standard input instead of ARGV, but I'm not picky. – Jon Purdy Jul 30 '10 at 16:15
You could save three characters by assigning -r..r to a variable. – Adrian Jul 30 '10 at 16:25
I definitely can't compete with lowjacker's answer. Some of those Ruby 1.9 changes are very useful here. – bta Jul 30 '10 at 17:52
You could also save characters if you changed s=(-r..r) to s=-r..r. – Adrian Jul 31 '10 at 23:31

Ruby, 168 characters

Requires Ruby 1.9 to work

s,e,r=gets.scan(/\d+/).map &:to_i;s/=45;e/=45;G=-r..r;{|y|{|x|a=Math.atan2(-y,x)/Math::PI*4%8;print x|y!=0?a==s||a==e%8?'-/|\\'[a%4]:a<s||a>e ?' ':8:?o};puts}

Readable version:

start, _end, radius = gets.scan(/\d+/).map &:to_i
start /= 45
_end /= 45

(-radius..radius).each {|y|
    (-radius..radius).each {|x|
        angle = Math.atan2(-y, x)/Math::PI * 4 % 8
        print x|y != 0 ? angle==start || angle==_end%8 ? '-/|\\'[angle%4] : angle<start || angle>_end ? ' ' : 8 : ?o

Perl - 388 characters

Since it wouldn't be fair to pose a challenge I couldn't solve myself, here's a solution that uses string substitution instead of trigonometric functions, and making heavy use of your friendly neighbourhood Perl's ability to treat barewords as strings. It's necessarily a little long, but perhaps interesting for the sake of uniqueness:

$a.=L x$_.D.K x$t.C.J x$t.B.I x$_."\n";
$b.=M x$t.F.N x$_.G.O x$_.H.P x$t."\n"}
$_=$a.E x$r.o.A x$r."\n".$b;$x/=45;$y/=45;$S=' ';
sub A{$v=$_[0];$x==$v||$y==$v?$_[1]:$x<$v&&$y>$v?x:$S}
sub B{$x<=$_[0]&&$y>$_[0]?x:$S}
push@a,map{A$_,'\\'.qw(- / | \\)[$_%4]}1..7;

All newlines are optional. It's fairly straightforward:

  • Grab user input.
  • Build the top ($a) and bottom ($b) parts of the pattern.
  • Build the complete pattern ($_).
  • Define a sub A to get the fill character for an angle.
  • Define a sub B to get the fill character for a region.
  • Build an array (@a) of substitution characters using A and B.
  • Perform the substitution and print the results.

The generated format looks like this, for R = 4:


Where A-H denote angles and I-P denote regions.

(Admittedly, this could probably be golfed further. The operations on @a gave me incorrect output when written as one list, presumably having something to do with how map plays with $_.)


C# - 325 319 chars

using System;class P{static void Main(){var s=Console.ReadLine().Split(' ');
var d=s[0].Split('-');int l=s[1][0]-48,x,y,r,a=int.Parse(d[0]),b=int.Parse(d[1]);
@"-/|\"[r/45%4]:' ')+(x++==l?"\n":""));}}

Newlines not significant.

Sample input/output

45-180 8
135-360 5
+1 for showing that anything can take as long to read as Perl if you just remove all the whitespace. – Stroboskop Aug 11 '10 at 10:24
Replacing 3.14*180 with the result is like saying (3.14/180), that is, you should take *(3.14/180) instead. – Jon Purdy Aug 11 '10 at 11:19
Oh wow.. embarrassing. Now 6 chars shorter :-) – Anton Hansson Aug 11 '10 at 13:16

Java - 304 chars

class A{public static void main(String[]a){String[]b=a[0].split("-");int e=new Integer(b[1]),r=new Integer(a[1]),g,x,y=r;for(;y>=-r;y--)for(x=-r;x<=r;)System.out.print((x==0&y==0?'o':new Integer(b[0])<=(g=((int)(Math.atan2(y,x)*57.3)+360)%360)&g<e|g==e%360?"-/|\\".charAt(g/45%4):' ')+(x++<r?"":"\n"));}}

More readable version:

class A{
 public static void main(String[]a){
  int e=new Integer(b[1]),r=new Integer(a[1]),g,x,y=r;
    :new Integer(b[0])<=(g=((int)(Math.atan2(y,x)*57.3)+360)%360)&g<e|g==e%360
     :' '

C (902 byte)

This doesn't use trigonometric functions (like the original perl version), so it's quite ``bloated''. Anyway, here is my first code-golf submission:

#define V(r) (4*r*r+6*r+3)
#define F for(i=0;i<r;i++)
#define C ;break;case
#define U p-=2*r+2,
#define D p+=2*r+2,
#define R *++p=
#define L *--p=
#define H *p='|';
#define E else if
#define G(a) for(j=0;j<V(r)-1;j++)if(f[j]==i+'0')f[j]=a;
#define O(i) for(i=0;i<2*r+1;i++){
main(int i,char**v){char*p,f[V(8)];
int j,m,e,s,x,y,r;p=*++v;x=atoi(p);while(*p!=45)p++;
for(i=0;i<8;i++)if(i>=x&&i<y){G(64);}else G(32);
C 0:F R 45 C 1:F U R 47 C 2:F U H C 3:F U L 92
C 4:F L 45 C 5:F D L 47 C 6:F D H C 7:F D R 92;}
if(y!=8){x=y;y=8;goto q;}puts(f);}

also, the #defines look rather ugly, but they save about 200 bytes so I kept them in, anyway. It is valid ANSI C89/C90 and compiles with very few warnings (two about atoi and puts and two about crippled form of main).


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