I just learned about the 4k demo scene contest. It consists in creating a 4KB executable which renders a nice 3D scene. The cited demo was build for Windows, so I was wondering, how one could create 4KB OpenGL scenes on Linux.

A bare "hello world" already consumes 8KB:

$ cat ex.c
#include <stdio.h>

int main()
       printf("Hello world\n");
$ gcc -Os ex.c -o ex
$ ls -l ex
-rwxrwxr-x 1 cklein cklein 8374 2012-05-11 13:56 ex
  • Try adding '-v' to the command line and see if it's linking in any libraries statically - you ought to be able to get it smaller than that by linking glibc dynamically. On Windows you also have to contend with it padding everything to 4K segments but I don't think ELF does that. – Rup May 11 '12 at 12:52
  • It's a lot of specialised work; and they would do shitloads of code generation optimisation ... and possibly use assembly :D – Ja͢ck May 11 '12 at 12:53
  • 2
    There was an answer here a minute ago pointing to int21.de/linux4k – seems like a good place to look, not sure why the answer was deleted. – Christopher Creutzig May 11 '12 at 12:56
  • Someone posted this link then (strangely) deleted their answer, but it is about exactly this: int21.de/linux4k – CodeClown42 May 11 '12 at 12:56
  • 1
    I think this will give a good answer, rather than an answer here on SO: muppetlabs.com/~breadbox/software/tiny/teensy.html – nos May 11 '12 at 12:56

The main reason why with the standard settings you can't make a small tool is that a lot of symbols and references to standard libraries are pulled into your binary. You must be explicit to to remove even that basic stuff.

Here's how I did it:


Relevant Options:

Mostly self-explaining:

gcc main.c -o fourk0001 -Os -mfpmath=387 \
  -mfancy-math-387 -fmerge-all-constants -fsingle-precision-constant \
  -fno-math-errno -Wall -ldl -ffast-math -nostartfiles -nostdlib  \
  -fno-unroll-loops -fshort-double


strip helps you get rid of unneeded symbols embedded in your binary:

strip -R .note -R .comment -R .eh_frame -R .eh_frame_hdr -s fourk0001


You may have to tweak and trial and error a lot. Sometimes, a loop gives smaller code, sometimes a call, sometimes a force inlined function. In my code, e.g., instead of having a clean linked list that contains all flame transforms in fancy polymorphic style, I have a fixed array where each element is a big entity containing all parameters, used or unused, as a union of all flames as per Scott Draves flame paper.

Your tricks won't be portable, other versions of g++ might give suboptimal results.

Note that with above parameters, you do not write a main() function, but rather a _start() function.

Also note that using libraries is a bit different. Instead of linking SDL and standard library functions the classy, convenient way, you must do it manually. E.g.

void *libSDL = dlopen( "libSDL.so", RTLD_LAZY );
void *libC = dlopen( "libc.so", RTLD_LAZY );
#if 1
    SDL_SetVideoMode_t sym_SDL_SetVideoMode = dlsym(libSDL, "SDL_SetVideoMode");
    g_sdlbuff = sym_SDL_SetVideoMode(WIDTH,HEIGHT,32,SDL_HWSURFACE|SDL_DOUBLEBUF);
    ((SDL_SetVideoMode_t)dlsym(libSDL, "SDL_SetVideoMode"))(WIDTH,HEIGHT,32,SDL_HWSURFACE|SDL_DOUBLEBUF);

//> need malloc, probably kinda craft (we only use it once :| )
//> load some sdl cruft (cruft!)
malloc_t sym_malloc = dlsym( libC, "malloc" );
sym_rand   = dlsym( libC, "rand" );
sym_srand  = dlsym( libC, "srand" );
sym_SDL_Flip          = dlsym(libSDL, "SDL_Flip");
sym_SDL_LockSurface   = dlsym(libSDL, "SDL_LockSurface");
sym_SDL_UnlockSurface = dlsym(libSDL, "SDL_UnlockSurface");
sym_SDL_MapRGB        = dlsym(libSDL, "SDL_MapRGB");

And even though no assembler has to be harmed, your code might yield UB.


Oops, I lied about assembly.

void _start() {
    asm( "int $0x80" :: "a"(1), "b"(42) );

this will make your program return 42.

  • I get main.c:(.text+0x83d): undefined reference to `exp'. – user1202136 May 11 '12 at 13:41
  • I'm using GCC 4.6.1 on Ubuntu 11.10. – user1202136 May 11 '12 at 13:50
  • I am afraid I lack the time to support other platforms than I wrote it on :/ You might need to dlsym the exp function from libm (which is the math library corresponding to #include<math.h>), or maybe you have to tweak some more options. Some math functions are implemented as intrinsics, some may not. As said, if you are into 4k production without too much assembly, your code will probably not be very portable. – Sebastian Mach May 11 '12 at 14:08

A Whirlwind Tutorial on Creating Really Teensy ELF Executables for Linux is an interesting article that goes through a step-by-step process to create an ELF executable as small as possible.

I don't want to spoil the ending, but the author gets it down to a lot smaller than 4K ;)


Take a look at this article in KSplice blog from a while back. It talks about linking without the standard libraries.


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