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I have an assert macro that resolves to an if, something like this:

#define assert(expr) \
if (!(expr)) \
{ \
    handle_failed_assert(); \

Ignore how handle_failed_assert() works, and you don't need to cite the do { ... } while(0) trick. Please, focus on the functionality behind this.

Now, the real question comes. Sometimes I want to force and assert, and make it meaningful. So we use this:

assert(!"Assert cause carefully described.");

The problem is that we have this compiler, vrxcc, based on RVCT 2.2, that throws this warning when compiling that:

#236-D: controlling expression is constant

Of course, that resolves to a compile constant if.

How could I trick the compiler into accepting that?

share|improve this question
I don't know if this would help the warning, but I would use the ?: operator rather than an if statement so you don't have to worry about the expansion of the macro being a compound statement. It can simply be an expression. You might could use && or || in place of ?: too, and these might silence the warning. –  R.. Jul 4 '13 at 21:55
I like that. Something like if (expr && handle_failed_assert()) might work. I'll try and report that. –  Spidey Jul 4 '13 at 22:32

1 Answer 1

Your problem ultimately boils down to "my compiler is too smart, how do I make it stop complaining about something that, yes, is true and is often a programmer mistake, but in this case is not a programmer mistake". There are only two ways to do that:

  • Outwit the compiler. This is compiler-dependent.
  • Tell the compiler "don't complain, this is not a mistake." This is compiler-dependent.

I know nothing about vrxcc. R's comment goes towards doing the first. This sort of thing is almost guaranteed to work:

extern int __truefunc(void);
#define assert(expr) ((__truefunc() && (expr)) || __assert_fail(#expr))

where truefunc is a function that always returns 1, and that you can compile separately to outwit the compiler. The cost, of course, is that darned useless run-time call.

The "tell the compiler" method is nicer, but requires some sort of compiler documentation assist.

Addendum: it occurred to me in the shower that in your particular case, you've already decided to panic, so you could just have a panic function, and call that here. The disadvantage is that you have to change all your existing common_assert(!"some string") calls, but at least you can do that mechanically.

It might be nice if the language had a two-argument assert built in or as a standard thing. The FreeBSD kernel uses KASSERT for this these days, more or less as:

#define KASSERT(expr, panic_args) \
    do { if (!(expr)) panic panic_args; } while (0)

which is a bit klunky syntactically, but is nicely flexible:

KASSERT(foo.field == FOO_MAGIC,
    ("memory overwrite of foo data structure: %d != %d",
        foo.field, FOO_MAGIC));
share|improve this answer
So, is it actually necessary to make __truefunc() an extern function? I was about to suggest something similar using a volatile integer. –  This isn't my real name Jul 4 '13 at 22:10
@Spidey Also, I must strongly suggest that you name your macro something other than assert(), if for no other reason than to avoid severely confusing anyone reading your code. The macro named assert() is, if you #include <assert.h>, defined by the C standard to call abort() if the condition is false. If you're writing an assert-type macro (or function) that actually handles the error, assert() is a bad choice of name. –  This isn't my real name Jul 4 '13 at 22:13
It's actually common_assert, don't worry about that. –  Spidey Jul 4 '13 at 22:33
@ElchononEdelson: not necessarily; an extern volatile is likely to work too. –  torek Jul 4 '13 at 22:42

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