I was looking at the source code for nmap that was released in 1997 and I noticed this section of code that looks a little odd to me:

int i=0, j=0,start,end;
char *expr = strdup(origexpr);
ports = safe_malloc(65536 * sizeof(short));
i++;                                         /* <<<<<< */
i--;                                         /* <<<<<< */
for(;j < exlen; j++) 
  if (expr[j] != ' ') expr[i++] = expr[j]; 
expr[i] = '\0';

Why would you have i++; and then i--; right after each other? i is 0, then i++ turns i to 1. After that, i-- turns i to 0.

Link to original source code. Search for:


Can anyone explain what this is for?

  • 25
    Ask the author.
    – DaBler
    Commented Mar 28, 2020 at 14:40
  • 8
    I'd guess they were part of some experimental or debugging code, which the author forgot to remove afterward. Commented Mar 28, 2020 at 14:48
  • 6
    The reason is obviously to confuse you, that's the only purpose :-) There's a small chance that this works around some compiler bug in some ancient compiler, in that case there should have been comment telling us this reason.
    – gnasher729
    Commented Mar 28, 2020 at 14:58
  • 18
    @RingØ: For fun I tried it with gcc 1.27, circa 1988, on godbolt: godbolt.org/z/yYyFrQ. (It doesn't work with modern system headers so I had to declare all the standard library functions myself.) But with -O it does indeed optimize out those statements. Commented Mar 28, 2020 at 14:59
  • 21
    It means the programmer was paid by the line...
    – TonyK
    Commented Mar 30, 2020 at 11:59

4 Answers 4


This was a bug. These lines together result in i being unchanged, so they shouldn't have been there.

The linked article that introduced nmap was published on September 1 1997. If you look at the SVN repository for nmap at https://svn.nmap.org/nmap, the initial revision checked in on February 10 1998 does not have those lines:

int i=0, j=0,start,end;
char *expr = strdup(origexpr);
char *mem = expr;

ports = safe_malloc(65536 * sizeof(short));
for(;j < exlen; j++) 
  if (expr[j] != ' ') expr[i++] = expr[j]; 
expr[i] = '\0';

So this is something the author found and fixed between publishing the initial nmap source code and the initial checkin to SVN.

  • 1
    Hmm that page is missing <pre> tags around the article, too; Chrome's inspector reveals how that leads to some document mangling during DOM construction ;) Commented Mar 29, 2020 at 1:37
  • 4
    It confuses readers, which is completely unintended. I'd say it is clearly a bug. ;-)
    – sergut
    Commented Mar 30, 2020 at 11:30
  • 2
    @sergut Wikipedia does not agree with you, but this blog post does, and I'm inclined to as well :-) Commented Mar 30, 2020 at 12:44
  • 4
    Now if i wasn't an int but some fancy class with operator overloads, it's possible (though unlikely and generally a sign of poor coding practices) that this could have some side effects. (Only applies if this were C++ of course.) Commented Mar 30, 2020 at 18:12
  • 5
    Maybe worth noting that in some contexts (memory-mapped IO), changing a variable can have external effects.
    – nullromo
    Commented Mar 30, 2020 at 18:17

It's useless. It does absolutely nothing.

If I were to speculate it's probably the remains of some debugging code that was used during development.

I'm guessing that either one of i++ or i-- was introduced in one change and the other was introduced in another.

I have no way to find the point of introduction, though, because there was no revision history between the initial source release and the first SVN revision.

  • 14
    I think the speculation about debugging code is accurate. I've seen so many different kind of debugging code just to get breakpoints where you expect them. Commented Mar 30, 2020 at 16:24

For a non-optimizing compiler, or one that recognized hardware side effects, the i++; i-- sequence would cause i to be read from memory, then re-written, regardless of the path taken through the for loop and nested if.

In parallel processing, sometimes compiler hacks are taken to ensure a code sequence uses its own local copies of variables rather than global copies.

Since the example is a code snippet, one cannot determine the compiler used, the expected operating system/hardware, nor whether this is in a code sequence/function that is possible to be executed as an independent thread.

In simpler systems, I've temporarily forced changes to variables to exercise the trap feature in a debugging environment. If that were the case, the author may have forgotten to remove the code when development was completed.

  • 1
    then why not just declare it as volatile?
    – vsz
    Commented Mar 31, 2020 at 4:56
  • 6
    The declaration of i as a local variable is shown in the code above, and there is no way it can be accessed by another thread at the point where the i++; i-- lines are.
    – interjay
    Commented Mar 31, 2020 at 7:17
  • @vsz I rather think he means i is forced to be non-volatile. I haven't dealt with threading in C or C++ though, so I have no clue how it could be treated as volatile and how i++; i-- would suppress that.
    – Egor Hans
    Commented Apr 6, 2020 at 14:49
  • volatile has other purposes besides thread-safety. It can also be used while debugging to ensure the compiler won't optimize it away.
    – vsz
    Commented Apr 6, 2020 at 16:37

I will suggest you to check the updated code only. If you use (i = 2+1) right after that (i-1) that make no sense . The value of i remains unchanged. You can try it using any c or c++ compiler. or even in any other language it is same. Run the code in compiler.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.