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My assert macro is like this:

#ifdef DEBUG
#define ASSERT(x) ((void)(!(x) && assert_handler(#x, __FILE__, __LINE__) && (exit(-1), 1)))
#define ASSERT(x) ((void)sizeof(x))

I thought this was more or less bulletproof but I seem to be using it a lot in the context of asserting the return value of functions which are important for their side effects. If in my release build I end up compiling


which would become


Is there a chance this will get completely optimized out? I am fairly certain that it won't (I'm calling a function, fgets), but what exactly is the condition that assures it? Are there any operations with side effects which the optimizer might throw out?

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Usually, you write assertions so that they don't have any side effect and hence can be remoevd. Do the fgets on its own line, save the result, then use assert(result != NULL). Then define the non-debug assert to discard x. Or while we're at it, isn't there an assert in the stdlib? –  delnan Sep 11 '11 at 17:16
Okay, so asserts simply aren't meant to be used with side effects. I feel silly now. Having my own assert is nice because it traces very easily in a debugger as opposed to popping up from some CRT, and I can control its behavior (app-specific alert? stderr? passive? abort program?) –  Steven Lu Sep 11 '11 at 17:23
The purported "assert with side effects" is sometimes called "verify", so you could name your macro like that. "assert" is commonly understood to not be required as part of your program logic. –  Kerrek SB Sep 11 '11 at 17:58
I was trying to come up with a good word to describe it and "verify" fits the bill. thanks. –  Steven Lu Sep 11 '11 at 21:29

2 Answers 2

up vote 3 down vote accepted

The usual meaning of assert is to be optimized out, so it might be better to stick to those semantics and do

#define ASSERT(x)

If you insist on it not being optimized out, why not just do

#define ASSERT(x) ((void)(x))


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why don't simply #define ASSERT(x) x ? –  Karoly Horvath Sep 11 '11 at 17:18
@yi_H: Sure. I guess this way, you are explicitly discarding the return value, so no one can write if (ASSERT(x))… –  Neil G Sep 11 '11 at 17:20
Many of the ideas came from this: cnicholson.net/2009/02/stupid-c-tricks-adventures-in-assert It seems like I need to reassess how I use these macros. Maybe I should be using different versions of asserts. –  Steven Lu Sep 11 '11 at 17:20
@yi_H: That definition will generate compiler warnings. –  Dietrich Epp Sep 11 '11 at 17:24
To be more specific, the exact reason for the sizeof is so that it suppresses "variable declared but not referenced" type warnings. The canonical int r=func(); assert(r==OK) when using #define assert(x) for optimizing it out would leave r hanging. I use the sizeof trick as an unused macro: #define UNUSED(x) ((void)sizeof(x)) so ASSERT becomes UNUSED (no instructions generated, no warning) when compiling for release –  Steven Lu Sep 11 '11 at 21:34

It has nothing to do with optimization. When you evaluate a sizeof expression, the operand never gets evaluated. For example,

char func(void) { exit(1); }

size_t sz = sizeof(func());
// same as
size_t sz = 1;

If you want to retain the side effects without generating compiler warnings, you can cast to void as Neil G noted in his answer.

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Sizeof is not necessarily evaluated at compile time. For example, size_t func(int x) { int a[x]; return sizeof(a); }. –  Dietrich Epp Sep 11 '11 at 17:47
Right, thanks, forgot about C99. –  mu is too short Sep 11 '11 at 17:53

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