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We have several moderately sized C code bases that receive commits from developers with a variety of experience levels. Some of the less disciplined programmers commit assert() statements with side effects that cause bugs with assertions disabled. E.g.


We already use our own assert() implementation, but evaluating the expression with NDEBUG defined would cause unacceptable performance degradations. Is there a GCC extension or flag we can pass that will trigger compile time warnings/errors for these? With simple enough control flow it should be possible for GCC to determine that you are only calling pure functions.

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No, GCC doesn't check to see whether functions have side effects. – Seth Carnegie May 15 '12 at 2:42
Perhaps require code review before commit. – William Morris May 15 '12 at 2:43
I don't buy arguments about "not having resources". You're saving time (and sanity) by catching bugs early. It's not about reviewing existing code, it's about reviewing changes before they get committed. – jamesdlin May 15 '12 at 4:04
If you asked a coworker to look over a diff before you submit, your manager would object? You should find a new place to work. – jamesdlin May 15 '12 at 5:11
Sigh. We can do code review when necessary, but it would be nice to catch coding errors made by newcomers without manual review. I was simply asking if a feature existed, not for a critique of workplace practices and trolling. – Matthew May 16 '12 at 3:28

Even if GCC could reliably detect pure computations (which would require solving the halting problem), a flag would have to have additional magical powers to notice that a non-pure computation was passed as an argument to your home-grown assert macro. An extension couldn't help either -- what exactly is it supposed to do?

The solution to your problem is

  1. Hire competent developers.
  2. Educate your developers about how to use asserts (among other things).
  3. Do code reviews.
  4. Do all testing against deliverable versions -- if asserts are off in deliverables, then assert(function_that_should_always_be_called()) is no different than simply omitting function_that_should_always_be_called(), which is a blatant bug that should be caught in testing.
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I think these "solutions" are unhelpful. But more importantly, because pure computations cannot be always be detected, it does not mean that eliminating most pure computations is not immensely useful. – Bruno De Fraine 2 days ago

With simple enough control flow it should be possible for GCC to determine that you are only calling pure functions.

And if it's not a simple enough control flow how will it know if it's pure or not?

Something like this is likely your best bet:

#ifdef NDEBUG
#define assert(s) do { (s); } while(false)
// ...

Several expressions would be compiled out, including functions with __attribute__((pure)).

The most logical solution would be to just review your code and fix mistakes though.

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Agreed - for the correct uses of assert(), where the expression has no side-effects - the compiler will be able to elide the code as long as you have optimisation enabled. A cast to (void) is likely to also be useful here, since it may stop the compiler from warning about a statement with no side-effects. – caf May 15 '12 at 3:40
Obviously more complicated control flow and things like recursion can turn this into the halting problem, but most assertions are relatively simple. I was envisaging some check with a timeout or maximum call depth limit. As for the suggestion, as I said in the question I specifically do not want all assertions evaluated when NDEBUG is defined. – Matthew May 15 '12 at 3:40
@Matthew "I was envisaging some check with a timeout or maximum call depth limit." -- what the heck does that have to do with a compile-time check for non-pure functions? You're making no sense at all in your desperation for a GCC feature that a moment's reflection ... or a perusal of the manual ... makes obvious does not exist. – Jim Balter May 15 '12 at 5:25
The main problem with this solution is that it doesn't catch bugs, but fixes them. assert with side effects is a very bad practice. The question was how to make assert catch this, not how to make it work. Also, this could severely degrade performance, is something like assert(check_data_structures()) is done. – ugoren May 15 '12 at 7:06
" As for the suggestion, as I said in the question I specifically do not want all assertions evaluated when NDEBUG is defined. " -- You completely missed the point. Read the sentence starting "Several expressions ..." and try to understand it. – Jim Balter May 15 '12 at 7:43

Despite the many unhelpful non-answers this question has received, I think it has a lot of merit in a context of a legacy code base.

Imagine that many assertions have been accumulated over the years, but because there wasn't a habit of building/testing with NDEBUG, some side-effects have trickled into the assertions and now you don't dare to disable the assertions anymore.

You may turn on NDEBUG and detect some test failures in your test suite, but it is totally not straightforward to link a test failure to the 'effectful' assertion because it may be very far from the point where you detect the failure. And even a test suite with good coverage cannot be trusted to be complete.

You may conduct a code review of all assertions in the code, but this is potentially a lot of work and prone to human error. It would be much better if some static analysis can already eliminate all assertions where it can prove that no side-effects appear and you only have to investigate those cases where their absence is not guaranteed.

Here is how you can use the optimizer of your compiler to conduct such a static analysis. Suppose that you organize to replace the definition of the assert macro by:

extern int not_supposed_to_survive;
#define assert(expr) ((void)(not_supposed_to_survive || (expr)))

If expr has any side-effect, the execution of the effect is conditional on the value of global variable not_supposed_to_survive. But if expr does not to have any side-effect, the value of the global variable does not matter (note that the expr result is discarded). A good optimizer knows this and will eliminate the load of global variable not_supposed_to_survive, hence the name of the variable.

If our program does not contain a definition of the symbol not_supposed_to_survive, we will get a link error when the load is not eliminated and we can use this to detect a potentially effectful assertion.

E.g. with gcc 4.8:

int g;

int foo() { return ++g; }

int main() {
    return 0;

gcc -O2 assert_effect.c
/tmp/ccunynya.o: In function `main':
assert_effect.c:(.text.startup+0x2): undefined reference to `not_supposed_to_survive'
collect2: error: ld returned 1 exit status

The compiler helped me find a dubious assertion! On the other hand, if I replace ++g by g+1, the link error disappears and I don't have to investigate. Indeed, that assertion is guaranteed harmless.

Of course, the concept of provably side-effect free is limited by what the optimizer "can see". For a more precise analysis, I would recommend using link-time optimization (gcc -flto) to analyze across compilation units.

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