7
#include <stdio.h>
#include <conio.h>

void main()
{
  char far *v = (char far*)0xb8000000;
  clrscr();

  *v = 'w';
  v += 2;
  *v = 'e';

  getch();
}

Output is: we

I don't get how the output is getting printed without any printf or other print statements.

11
  • 8
    Plz format teh codez properly and incrs ur accpt r8. (for the record, this was funnier before the flurry of 9 or 10 edits in less than 5 minutes).
    – user124493
    Feb 23, 2011 at 20:23
  • 3
    Wow, writing to an arbitrary address in memory. This can spectacularly crash or cause other undefined behavior.
    – EboMike
    Feb 23, 2011 at 20:24
  • 2
    @Ebo If you're going to do something stupid, you might as well do it in a blaze of glory and segfaults.
    – Maxpm
    Feb 23, 2011 at 20:24
  • 2
    9 edits in about a minute! Is that some kind of record? Feb 23, 2011 at 20:26
  • 2
    @Andrew: 9 edits in about a minute! Is that some kind of record : Multiple people trying to correct the same text but in different ways, this is what is called a race condition... :-)
    – paercebal
    Feb 23, 2011 at 20:29

6 Answers 6

23

This is a x86 real-mode IBM PC program that assumes CGA/EGA/VGA compatible graphics adapter in color text mode mapped at the default memory location (B800:0000); it is basically from the era of MS-DOS (1980s/1990s). In any case it's very old school!

char far *v=(char far*)0xb8000000;

Memory address (in real mode) of the video buffer (use 0xb0000000 if you have an old Hercules)

clrscr();

Clears the screen

*v='w';

Writes at row 0, column 0 the character w

v+=2;

Skips 2 bytes (in the character mode the buffer is interleaved: 1 byte for the character and 1 byte for the color. 1 bit for the flashing, 3 bits for the background 0-7 and 4 bits for the foreground 0-15, packed in this way: foreground + 16 * background + 128 if you want flashing)

*v='e';

Writes at row 0, column 1 the character e

getch();

Waits for a key

Now a link about the CGA Text Mode Format, for those that FEEL the need of knowing how the "old generation" did it, before "Windows" came (and even before all that "Linux" came :-) ). Ah... and another link (a wiki this time) for those that still don't know what REAL-MODE is.

2
  • @paercebal if you think my explanation isn't complete enough, the next time I'll have you use the INT 10h of the BIOS to write on the screen :-) :-) :-) ( en.wikipedia.org/wiki/INT_10H ), but remember (to quote the wiki) INT 10h is fairly slow! :-) (if it isn't clear, it's a joke)
    – xanatos
    Feb 23, 2011 at 21:37
  • I just finished the article on Real Mode, and my final thought was "Hey, I'm SOOOO glad I was too young to code in these environments!", so I guess I will pass the "INT 10h" one for tonight... ^_^ ...
    – paercebal
    Feb 23, 2011 at 22:23
9

He's writing directly to the video buffer which is usually sitting at that address.

Also, this is seriously old school graphics manipulation.

1

The reason it's displayed is because 0xB8000000 is the address where video memory starts.

0

You didn't specify what platform it is, and it's apparently not one that would crash this nasty code.

0xb8000000 on the legacy DOS platform was the video memory buffer, so in text mode, you could write characters there directly. See here: http://wiki.answers.com/Q/What_is_0xB8000000

0

First, it gets the address of the beginning of the video buffer. It then clears the screen, and starts adding text to the buffer.

0

This is the beginning of the video memory address space. What is written to memory here will be displayed on the screen.

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