Question

What Is the most beautiful code you have ever seen or written yourself? I think John Carmack’s Unusual Inverse Square Root is pretty good

float Q_rsqrt( float number )
{
  long i;
  float x2, y;
  const float threehalfs = 1.5F;

  x2 = number * 0.5F;
  y  = number;
  i  = * ( long * ) &y;  // evil floating point bit level hacking
  i  = 0x5f3759df - ( i >> 1 ); // what?
  y  = * ( float * ) &i;
  y  = y * ( threehalfs - ( x2 * y * y ) ); // 1st iteration
  // y  = y * ( threehalfs - ( x2 * y * y ) ); // 2nd iteration, this can be removed

  #ifndef Q3_VM
  #ifdef __linux__
    assert( !isnan(y) ); // bk010122 - FPE?
  #endif
  #endif
  return y;
}

Answer 1

Wow, you and I have different ideas of beautiful code, I guess. IMnHO, "beautiful" code is clear, concise, and (most importantly) self-documenting. None of the examples I've seen so far in this thread are remotely understandable when you look at them -- even if you read the comments.
Not to be unpleasant, but I'll take an undocumented bubblesort over these examples any day.

Answer 2

Code I'm most proud of would be the main.cpp file of a Nintendo DS game I wrote, it was a Pong / Space Invaders merge.

// main.cpp
#include "header.h"

int main(int argc, char ** argv)
{
    init();
    while(true) // Keep app running
    {
    	preGame();
    	while(game.lives) // New Round
    	{
    		preRound();
    		while(!game.gameover) // Neither player missed the ball
    		{
    			game.frames++;
    			getInput();
    			processAI();
    			moveBall();
    			moveBullets();
    			checkBulletCollisions();
    			displayOutput();
    			checkPause();

    			// Sleep
    			PA_WaitForVBL();
    		}
    		postRound();
    	}
    	postGame();
    }
    return 0;
}

I like it because it's clean and easy to read, it's almost psuedo-code.

Answer 3

Let's face it, many of us in this industry were introduced to programming by some variation of the following code:

10 PRINT "DAN IS COOL"
20 GOTO 10

RUN

It's so much better than "Hello World".

Answer 4

#include                                     <math.h>
#include                                   <sys/time.h>
#include                                   <X11/Xlib.h>
#include                                  <X11/keysym.h>
                                          double L ,o ,P
                                         ,_=dt,T,Z,D=1,d,
                                         s[999],E,h= 8,I,
                                         J,K,w[999],M,m,O
                                        ,n[999],j=33e-3,i=
                                        1E3,r,t, u,v ,W,S=
                                        74.5,l=221,X=7.26,
                                        a,B,A=32.2,c, F,H;
                                        int N,q, C, y,p,U;
                                       Window z; char f[52]
                                    ; GC k; main(){ Display*e=
 XOpenDisplay( 0); z=RootWindow(e,0); for (XSetForeground(e,k=XCreateGC (e,z,0,0),BlackPixel(e,0))
; scanf("%lf%lf%lf",y +n,w+y, y+s)+1; y ++); XSelectInput(e,z= XCreateSimpleWindow(e,z,0,0,400,400,
0,0,WhitePixel(e,0) ),KeyPressMask); for(XMapWindow(e,z); ; T=sin(O)){ struct timeval G={ 0,dt*1e6}
; K= cos(j); N=1e4; M+= H*_; Z=D*K; F+=_*P; r=E*K; W=cos( O); m=K*W; H=K*T; O+=D*_*F/ K+d/K*E*_; B=
sin(j); a=B*T*D-E*W; XClearWindow(e,z); t=T*E+ D*B*W; j+=d*_*D-_*F*E; P=W*E*B-T*D; for (o+=(I=D*W+E
*T*B,E*d/K *B+v+B/K*F*D)*_; p<y; ){ T=p[s]+i; E=c-p[w]; D=n[p]-L; K=D*m-B*T-H*E; if(p [n]+w[ p]+p[s
]== 0|K <fabs(W=T*r-I*E +D*P) |fabs(D=t *D+Z *T-a *E)> K)N=1e4; else{ q=W/K *4E2+2e2; C= 2E2+4e2/ K
 *D; N-1E4&& XDrawLine(e ,z,k,N ,U,q,C); N=q; U=C; } ++p; } L+=_* (X*t +P*M+m*l); T=X*X+ l*l+M *M;
  XDrawString(e,z,k ,20,380,f,17); D=v/l*15; i+=(B *l-M*r -X*Z)*_; for(; XPending(e); u *=CS!=N){
                                   XEvent z; XNextEvent(e ,&z);
                                       ++*((N=XLookupKeysym
                                         (&z.xkey,0))-IT?
                                         N-LT? UP-N?& E:&
                                         J:& u: &h); --*(
                                         DN -N? N-DT ?N==
                                         RT?&u: & W:&h:&J
                                          ); } m=15*F/l;
                                          c+=(I=M/ l,l*H
                                          +I*M+a*X)*_; H
                                          =A*r+v*X-F*l+(
                                          E=.1+X*4.9/l,t
                                          =T*m/32-I*T/24
                                           )/S; K=F*M+(
                                           h* 1e4/l-(T+
                                           E*5*T*E)/3e2
                                           )/S-X*d-B*A;
                                           a=2.63 /l*d;
                                           X+=( d*l-T/S
                                            *(.19*E +a
                                            *.64+J/1e3
                                            )-M* v +A*
                                            Z)*_; l +=
                                            K *_; W=d;
                                            sprintf(f,
                                            "%5d  %3d"
                                            "%7d",p =l
                                           /1.7,(C=9E3+
                              O*57.3)%0550,(int)i); d+=T*(.45-14/l*
                             X-a*130-J* .14)*_/125e2+F*_*v; P=(T*(47
                             *I-m* 52+E*94 *D-t*.38+u*.21*E) /1e2+W*
                             179*v)/2312; select(p=0,0,0,0,&G); v-=(
                              W*F-T*(.63*m-I*.086+m*E*19-D*25-.11*u
                               )/107e2)*_; D=cos(o); E=sin(o); } }

From 1988, a flight simulator written in C.

Compile info here

Answer 5

Some could argue that the source code for TeX is pretty good.

Donald Knuth wrote some books (the art of computer programming), and was not pleased with how they were being typeset.

So he invented TeX, which is, to this day, still very widely used for documents with lots of math or mathy notation. It also happens to be a Turing-complete language.

Along the way he pioneered the idea of literate programming - that you can write a program which reads like a book, and can be separately compiled into a coding language (he chose pascal) and a human-readable document.

The feature set for TeX has been frozen for many years, and the only changes have been bug fixes. The current version is 3.1415926 (as of March 2008), and it is planned to become exactly pi after Knuth is done (aka dies). Seriously.

So, in effect, we have some extraordinarily well-tested, well-documented code, written primarily by one of the greatest computer scientists of our time.

Answer 6

Duff's Device.

Answer 7

You have a strange eye for beauty. That code may be extremely clever, but it's hardly beautiful. To me, beautiful code is code that's a completely clear and obvious solution to a tricky problem. My favorite is the Y Combinator:

(define (Y M)
  ((lambda (F)
     (M (lambda (A)
          ((F F) A))))
   (lambda (F)
     (M (lambda (A)
          ((F F) A))))))

I actually prefer the reduced version which allows the Y combinator itself to be recursive (and much more compact, though it can no longer be considered a "combinator"):

(define (Y M)
  (M (lambda (A)
       ((Y M) A))))

Answer 8

How about MapReduce, which Google uses to do much of their distributed calculations. Simple yet effective.

http://en.wikipedia.org/wiki/Map_reduce

Actually even better

http://www.joelonsoftware.com/items/2006/08/01.html

Answer 9

Many different kinds of code I find beautiful, but one of the pieces that struck me the most is (I found it on the internet somewhere at some point):

while (*a++ = *b++);

Which will copy a string in C/C++. It should never really be used in real code because it is a bit cryptic, but its simplicity is also quite elegant.

Answer 10

I think the most beautiful piece of computer code is McCarthy's Lisp code for a Lisp interpreter. Here it is translated into Common Lisp from Paul Graham's excellent article "On Lisp":

 (defun null. (x)
   (eq x '()))

 (defun and. (x y)
   (cond (x (cond (y 't) ('t '())))
         ('t '())))

 (defun not. (x)
   (cond (x '())
         ('t 't)))

 (defun append. (x y)
   (cond ((null. x) y)
         ('t (cons (car x) (append. (cdr x) y)))))

 (defun list. (x y)
   (cons x (cons y '())))

 (defun pair. (x y)
   (cond ((and. (null. x) (null. y)) '())
         ((and. (not. (atom x)) (not. (atom y)))
          (cons (list. (car x) (car y))
                (pair. (cdr x) (cdr y))))))

 (defun assoc. (x y)
   (cond ((eq (caar y) x) (cadar y))
         ('t (assoc. x (cdr y)))))

 (defun eval. (e a)
   (cond
     ((atom e) (assoc. e a))
     ((atom (car e))
      (cond
        ((eq (car e) 'quote) (cadr e))
        ((eq (car e) 'atom)  (atom   (eval. (cadr e) a)))
        ((eq (car e) 'eq)    (eq     (eval. (cadr e) a)
                                     (eval. (caddr e) a)))
        ((eq (car e) 'car)   (car    (eval. (cadr e) a)))
        ((eq (car e) 'cdr)   (cdr    (eval. (cadr e) a)))
        ((eq (car e) 'cons)  (cons   (eval. (cadr e) a)
                                     (eval. (caddr e) a)))
        ((eq (car e) 'cond)  (evcon. (cdr e) a))
        ('t (eval. (cons (assoc. (car e) a)
                         (cdr e))
                   a))))
     ((eq (caar e) 'label)
      (eval. (cons (caddar e) (cdr e))
             (cons (list. (cadar e) (car e)) a)))
     ((eq (caar e) 'lambda)
      (eval. (caddar e)
             (append. (pair. (cadar e) (evlis. (cdr e) a))
                      a)))))

 (defun evcon. (c a)
   (cond ((eval. (caar c) a)
          (eval. (cadar c) a))
         ('t (evcon. (cdr c) a))))

 (defun evlis. (m a)
   (cond ((null. m) '())
         ('t (cons (eval.  (car m) a)
                   (evlis. (cdr m) a)))))

It is powerful, concise and deep. Alan Kay described it as "Maxwell's Equations of Software".

The original code can be found here along with a discussion and link to the Lisp 1.5 manual.

Answer 11

I answered in a previous post

The Jaromil bash forkbomb, once explained looks beatiful to me :)

:(){ :|:& };:

This is an explanation of the Jaromil program

Also, the more concise Windows shell forkbomb is a sure winner in any golf match:

%0|%0

Answer 12

How about a fractal tree in LOGO?

to tree :size
    if :size > 1 [
        fd :size
        rt 45
        tree :size*0.6
        lt 90
        tree :size*0.6
        rt 45
        bk :size
    ]
end

Run it here, and tack this on the end to position and size it:

cs
pu
bk 150
pd
tree 90

Answer 13

The beauty of code lies in the architecture, the ideas, the grander algorithms and strategies that code represents.

Answer 14

The Haskell prelude. Specially the List module. Sample which gives me an erection:

(++) :: [a] -> [a] -> [a]
[]     ++ ys = ys
(x:xs) ++ ys = x : (xs ++ ys)

Answer 15

Let's see how many down votes I get for this, but I think this is some beautiful vb.net code. Wanna know why? forget the language, but the beautiful part comes in because it's freakin' simple. Someone that comes after me has to take like 10 seconds to figure out how it works and needs to be changed. Also, it's something from the real world (client dictated language choice, if you must know), not glamorous or insanely awesome, just straightforward (WORKS) and easy to read.

Protected Sub SubmitButtonClick(ByVal sender As Object, ByVal e As System.EventArgs) Handles btnSubmit.Click
        Try

            If Page.IsValid = True Then
                If IsUserCampaignMember() = False Then
                    SendVerificationMessage()
                    DisplayStepTwo()
                Else
                    DisplayAlreadyInCampaign()
                End If
            Else
                DisplayErrorOnForm()
            End If

        Catch exc As Exception
            LogException(exc)
            DisplayServerError()
        End Try

    End Sub

Answer 16

For me it's x=42-x . 42 could be any number, it depends on what you need, but the result is that x will toggle between 2 numbers. So if x was 0 it will alternate between 42 and 0 all with one clean piece of code.

Answer 17

using System.Linq;

Not really, but it seems to make a lot of other things more beautiful ;)

For prettiness, I really like a lot of the sequence and pattern matching functions in F#. But for "beautiful" I pretty much agree with Danimal.

Answer 18

Most beautiful code?

The one which is on your mind and yet to be written ;)

Answer 19

My personal favorite:

bool b;
int x, y;
...
int q = -!!b&x|-!b&y;

Answer 20

 int sum = list.Sum(s => s.Value);//list is a Collection of object which has property Value

How many lines it would have been taken if there was no LINQ. I like LINQ , it reduces and simplifies the code a lot

Answer 21

Another beauty I got from Paul Graham:

(defun foo (n)
  (lambda (i) (incf n i)))

which takes a value and returns an accumulator function for that value. I found it a really clever, cool use of closures. Though, I prefer Ruby to Lisp, so here's a Ruby version:

def foo(n)
  lambda { |i| n += i }
end

Answer 22

char*s="char*s=%c%s%c;%cmain(){printf(s,34,s,34,10,10);}%c";
main(){printf(s,34,s,34,10,10);}

... for certain values of beautiful.

Answer 23

for(int i = 0; i < adj.length;i++){
    for(int j = 0; j < adj.length;j++){
    	for(int k = 0; k < adj.length;k++){
    		adj[j][k] = Math.min(adj[j][k],adj[j][i]+adj[i][k]);
    	}
    }
}

Given an adjacency matrix where adj[i][j] means the edge cost from i to j this computes the length of the shortest path between all possible nodes.

Answer 24

The most beautiful code I ever wrote was an N-connected components algorithm for Bell Labs in the last 80s. We had been doing signal processing with an Order(n^2) algorithm and no one thought it could be done any faster. Using a recursive function written in Lisp, I managed to create an algorithm that was a pure Order(n) that ended up being published in the Bell Labs journal and making me (very briefly and very moderately) famous.

Sigh...and then I left the job and forgot the algorithm. I thought of this because SQLMenace asked for code examples that people here have written. I wish I still had the code...

Answer 25

I find code beautiful that's instantly understandable:

5.times {  print "*" }
3.upto(6) {|i|  print i }
('a'..'e').each {|char| print char }

Simply beautiful. I love Ruby's loops.

Answer 26

I nominate de Moor & Gibbons "Bridging the algorithm gap: A linear-time functional program for paragraph formatting"

for several reasons:

• everyone can understand and relate to the problem

• the paper is the code; it's a literate script; you can save the document as text and run it thru your interpreter or compiler

• to optimize, they apply transformations to their initial program. One can be confident that the optimizations don't introduce bugs, provided the transformations are valid.

• Their reasoning about the problem points towards actually achieving "software engineering" - that is, they engineer a solution to the problem, rather than crafting a solution.

After some preliminaries, the paper lays out the problem (the line starting with > are code):

In the paragraph problem, the aim is to lay out a given text as a paragraph in a visually pleasing way. A text is given as a list of words, each of which is a string, that is, a sequence of characters:

>type Txt = [Word] 
>type Word = String

A paragraph is a sequence of lines, each of which is a sequence of words:

>type Paragraph = [Line] 
>type Line = [Word]

The problem can be specified as

>par0 :: Txt -> Paragraph 
>par0 = minWith cost . filter feasible . formats

or informally, to compute the minimum-cost format among all feasible formats. (The function filter p takes a list x and returns exactly those elements of x that satisfy the predicate p.) In the remainder of this section we formalise the three components formats, feasible and cost of this specication. The result will be an executable program, but one whose execution takes exponential time. The function formats takes a text and returns all possible formats as a list of paragraphs:

>formats :: Txt -> [Paragraph] 
>formats = fold1 next_word last_word 
> where last_word w = [ [[w]] ] 
>       next_word w ps = map (new w) ps ++ map (glue w) ps 
>new w ls = [w]:ls 
>glue w (l:ls) = (w:l):ls

(Here, the binary operator ++ is list concatenation.) That is, for the last word alone there is just one possible format, and for each remaining word we have the option either of putting it on a new line at the beginning of an existing paragraph, or of gluing it onto the front of the rst line of an existing paragraph.

A paragraph format is feasible if every line ts:

>feasible :: Paragraph -> Bool 
>feasible = all fits

(The predicate all p holds of a list precisely when all elements of the list satisfy the predicate p.)

In another dozen lines, they define the cost function and have a working program; they then successively refine it to be efficient.

Answer 27

Believe me or not, this draw a ASCII Mandelbrot using T-SQL. Awesome.

Answer 28

I think some of the more complex generators in Python.

They just make me feel warm and fuzzy inside.

Brian Gianforcaro

Answer 29

It's not exactly beautiful, but I'm quite happy with my webcam proof-of-concept application for Silverlight. It uses C#<->JavaScript<->ActionScript integration, and there is just so many moving parts that it feels really MacGyver when it comes together. But it works really nice and it's only about 40-50 lines to get it to work.

• Webcam in Silverlight 2 – Sliding Puzzle Game
• Webcam in Silverlight 2 - MacGyver style!

Answer 30

Read Implementing Business Partners the RESTful Way from Beautiful Code, avaiable at Google Books.

That's clean, that's readable, understandable. That's beautiful.