I have seen debug printfs in glibc which internally is defined as (void) 0, if NDEBUG is defined. Likewise the __noop for Visual C++ compiler is there too. The former works on both GCC and VC++ compilers, while the latter only on VC++. Now we all know that both the above statements will be treated as no operation and no respective code will be generated; but here's where I've a doubt.

In case of __noop, MSDN says that it's a intrinsic function provided by the compiler. Coming to (void) 0 ~ Why is it interpreted by the compilers as no op? Is it a tricky usage of the C language or does the standard say something about it explicity? Or even that is something to do with the compiler implementation?

  • 2
    By just giving 0; as a statement, I don't get warnings or errors, and I am sure it'll not do any effictive operation and is equal to a no op; Even if so, why type cast it to void? Also, in case of the #define dbgprintf (void) 0, when it's called like dbgprintf("Hello World!"); -> (void) 0("Hello World!"); - what does it mean?
    – legends2k
    Feb 4, 2010 at 10:41
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    this should probably be #define dbgprintf(x) (void)0; though I found #define dbgprintf(x) perfectly sufficient. I think the cast to void is to remove any return value, so if it is used in context that requires value (and should not), it will cause an error/warning, instead of passing silently.
    – SF.
    Feb 4, 2010 at 10:48
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    Why not use #define dbgprintf instead of #define dbgprintf ((void) 0) ??? @legends2k Is there a reason?
    – AntiMoron
    Oct 19, 2015 at 7:52
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    @AntiMoron The question is more centered on what does ((void) 0) mean. Not how to define a no-op macro.
    – legends2k
    Oct 19, 2015 at 13:52
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    @SF. #define dbgprintf(x) is not sufficient, because macros may be used under bare if clause(without {}), i.e. if (something) dbgprintf(...). Thus defining as such silently creates logical error in your code.
    – imkzh
    Jan 18 at 13:13

5 Answers 5


(void)0 (+;) is a valid, but 'does-nothing' C++ expression, that's everything. It doesn't translate to the no-op instruction of the target architecture, it's just an empty statement as placeholder whenever the language expects a complete statement (for example as target for a jump label, or in the body of an if clause).

From Chris Lutz's comment:

It should be noted that, when used as a macro (say, #define noop ((void)0)), the (void) prevents it from being accidentally used as a value (like in int x = noop;).

For the above expression the compiler will rightly flag it as an invalid operation. GCC spits error: void value not ignored as it ought to be and VC++ barks 'void' illegal with all types.

  • 2
    Thanks Chris, for clarifying regarding why the type cast to void is made; it prevents from accidental usage of the said noop exp. in expression like assignment, now I did understand.
    – legends2k
    Feb 4, 2010 at 11:25
  • Can we say that, it's like "pass" in Python? Sep 21, 2014 at 14:41
  • @UnhandledException Yes, it is! Sep 22, 2014 at 2:45
  • I have an issue with this (void)(0) I am actually trying to do (void)(0) += 1 and returning it the value updated that it 1. But I get 0 as a result ?
    – Bionix1441
    Jul 17, 2015 at 12:44

Any expression that doesn't have any side-effects can be treated as a no-op by the compiler, which dosn't have to generate any code for it (though it may). It so happens that casting and then not using the result of the cast is easy for the compiler (and humans) to see as not having side-effects.


I think you are talking about glibc, not glib, and the macro in question is the assert macro:

In glibc's <assert.h>, with NDEBUG (no debugging) defined, assert is defined as:

#ifdef NDEBUG
#if defined __cplusplus && __GNUC_PREREQ (2,95)
# define __ASSERT_VOID_CAST static_cast<void>
# define __ASSERT_VOID_CAST (void)
# define assert(expr)           (__ASSERT_VOID_CAST (0))
/* more code */

which basically means assert(whatever); is equivalent to ((void)(0));, and does nothing.

From the C89 standard (section 4.2):

The header <assert.h> defines the assert macro and refers to another macro,


which is not defined by <assert.h>. If NDEBUG is defined as a macro name at the point in the source file where <assert.h> is included, the assert macro is defined simply as

#define assert(ignore) ((void)0)

I don't think defining a debug print macro to be equal to (void)0 makes much sense. Can you show us where that is done?

  • Yeah, it's glibc and not glib, thanks for notifying; corrected it in the question.
    – legends2k
    Feb 4, 2010 at 11:16
  • doc.ddart.net/msdn/header/include/assert.h.html - This is one of the many assert.hs I've seen with (void) 0.
    – legends2k
    Feb 4, 2010 at 11:19
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    @legends2k: assert(expr); is not a debug printing macro. My answer above answers your question about assert(). Feb 4, 2010 at 11:20
  • I agree, it's assert. But the whole doubt was to know more about the (void) 0 in general as no operation, based on the language or compiler constructs. Thanks!
    – legends2k
    Feb 4, 2010 at 11:28

Even if so, why type cast it to void? Also, in case of the #define dbgprintf (void) 0, when it's called like dbgprintf("Hello World!"); -> (void) 0("Hello World!"); - what does it mean?

Macros replace your code with something else, so if you #defined dbgprint (that accepts x) as

void (0)

then no rewriting of X will occur in replacement, so dbgprintf("Helloworld") will not be converted to (void) 0("Hello world"), but to (void) 0; - not only macro name dbgprint is replaced by (void) 0, but the whole call dbgprintf("...")


On Windows, I try some code like this in Main.cpp:

#include <iostream>
#define TRACE ((void)0)
int main() {
  std::cout << "ok" << std::endl;
  return 0;

Then, I build the Release version exe file with Main.i output. In Main.i file, the TRACE macro was replaced to:((void)0)("joke"), and visual studio give an warning:"warning C4353: nonstandard extension used: constant 0 as function expression.

Use '__noop' function intrinsic instead".

Run the exe file, console print out "ok" characters.

So I think all is clear: the definition of macro TRACE[#define TRACE ((void)0)] is illegal according to c++ syntax, but c++ compiler of visual studio supports this behavior as a compiler extension.

So my conclusion is: [#define TRACE ((void)0)] is illegal c++ statement, and you at best DO NOT use this. But [#define TRACE(x) ((void)0)] is legal statement. That's all.


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