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Can this ever happen ? 3 asserts, where one should activate.

int nr = perform_calc();
assert( nr == 0);
assert( nr > 0);
assert( nr < 0);

Can there be a case when the program doesn't activate the asserts on g++ 3.4.4.

And no I don't have the possibility to change the code in order to print the number out in case the asserts don't activate.

Any ideas?

Edit: After reading several comments I was forced to edit. Show the code? why are you doing this stupid thing ? I don't believe it ! Where is it used ? From my question it should have been obvious that I will not post/change the code because of several possible reasons:

  • I'm a total beginner and is ashamed of the code (no crime there, sure it makes answering to the question much easier if I did post it)
  • I was asked to help out a friend with only little information (and no I did not ask him why can't you check the number returned, or why can't he just add a breakpoint).
  • I am writing my code in emacs without any compiler and is sending it to a remote server that compiles it, runs it and only can return failed asserts if something goes wrong.

If you believed that I was making a prank or a hoax you should have voted for a closure of the thread instead. I would have been perfectly fine with that. But adding unnecessary comments like this only made me want an "attitude" flag to be implemented.

I want to thank others for their comments and answers that actually tried to explain and answered my question.

share|improve this question
What was the intention of writing these 3 asserts originally? – Sinan Taifour Jul 18 '09 at 21:44
Simply put it, to generate an error in case the code actually performs the lines above, otherwise it will terminate by returning 0 – Milan Jul 18 '09 at 21:48
Put a break point on the line and inspect the value of nr. – Aaron Maenpaa Jul 18 '09 at 21:48
What's your platform? what CPU, what OS? – Michael Kohne Jul 18 '09 at 21:51
I don't believe a word of this. – Daniel Earwicker Jul 18 '09 at 21:52
up vote 13 down vote accepted

As I've seen so ugly things in my life, it could be explained if perform_calc() has a buffer overrun that overwrites the return address in the stack. When the function ends, the overwritten address is recovered from the stack and set to the current PC, leading to a jump maybe in another area of the program, apparently past the assertion calls.

Although this is a very remote possibility, so it's what you are showing.

Another possibility is that someone did an ugly macro trick. check if you have things like

#define assert

or some colleague put something like this in a header while you were at the restroom

#define < ==
#define > ==

As suggested in another answer, check with gcc -E to see what code is actually compiled.

share|improve this answer
Well yes, undefined behaviour can explain anything. – anon Jul 18 '09 at 21:59
Since the code in perform_calc() is heavy using buffers... guess there's the answer. Thanks – Milan Jul 18 '09 at 21:59
Ahaha python comments, instead of C preprocessor directives... – R. Martinho Fernandes Jul 18 '09 at 22:00

assert is unchecked if the macro NDEBUG is defined. Make sure you #undef NDEBUG when compiling this translation unit.

You can invoke gcc with the -E switch to verify that your assert statements are still in the code.

share|improve this answer
Good thinking. :D – GManNickG Jul 18 '09 at 21:45
Since it seems to throw for other asserts in the code, my guess is that the macro is not defined. – Milan Jul 18 '09 at 21:46
Well, he says in the question that his happens on a certain value (implying that on other values the asserts are working). – Frank Jul 18 '09 at 21:49

It doesn't look like that code is correct in the first place. If debugging is on (DEBUG and/or _DEBUG are set and NDEBUG is unset):

assert( nr == 0);

The above line will call exit() if nr != 0. Therefore, if this line passes, the second assert will execute:

assert( nr > 0);

... And call exit() because nr == 0 and !(nr > 0).

assert( nr < 0);

And this third line will never run at all.

What, precisely, is the point of this code? And why, if these asserts could be added, could you not instead add a printf()?

share|improve this answer

Is this code multithreaded? Maybe you have a race condition.

share|improve this answer

And no I dont have the possibility to change the code in order to print the number out..

Strange. You obviously have the ability to insert the assert() statements, because if they were actually in real code you couldn't touch, the code could not possibly work. So why can't you print the value the assert() calls test?

share|improve this answer
It's possible his implementation doesn't have a screen or any sort of output – Andreas Bonini Jul 18 '09 at 22:24
Then how is he going to know the asserts didn't fail? And am I the only person on SO to have heard of Occam's Razor? – anon Jul 18 '09 at 22:27
Occam's Razor: the atheist's choice for shaving needs ;) – Stefano Borini Jul 18 '09 at 22:32

I suspect you've accidentally eliminated the problem while sanitizing the code fragment. There's either more code (and nr is getting changed between asserts) or it doesn't actually look like that (or, per rlbond, you don't have assert turned on).

Try posting a less sanitized code segment, and let's see if we can't work it out.

share|improve this answer

Could it be a NaN? In that case, the following assert would fail:

assert( nr == nr );
share|improve this answer
Unlikely for an integer. – Daniel Earwicker Jul 18 '09 at 21:49
ints can't be NaN. NaN is a floating point number. Well, actually NaN is not-a-floating-point-number. – R. Martinho Fernandes Jul 18 '09 at 21:50
Integers don't do NaN on any platform I'm aware of. – Michael Kohne Jul 18 '09 at 21:50
~0 is a very reasonable choice for 2complement int(NaN), in which case you'd also have the nice property of INT_MIN==-INT_MAX. Such representations are explicitly allowed. And I think Crays (not the recent Opteron ones, the older T3?) have such funky ints. On those systems, ints are just floats with a fixed exponent. – MSalters Jul 20 '09 at 10:52

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