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One in a while there's a need for a no-op statement in C++. For example when implementing assert() which is disabled in non-debug configuration (also see this question):

#ifdef _DEBUG
#define assert(x) if( !x ) { \
                     ThrowExcepion(__FILE__, __LINE__);\
                  } else {\
                     //noop here \
#define assert(x) //noop here

So far I'm under impression that the right way is to use (void)0; for a no-op:


however I suspect that it might trigger warnings on some compilers - something like C4555: expression has no effect; expected expression with side-effect Visual C++ warning that is not emitted for this particular case but is emitted when there's no cast to void.

Is it universally portable? Is there a better way?

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It is usually not such a good idea to have macros that will change the behavior of the program based on DEBUG/RELEASE... you might end up with issues by which the DEBUG (easy to work with) build behaves correctly but the RELEASE build doesn't. As of a no-op: ; should do it, (void)0; (your macro should not contain the ;, that should be up to the caller to add) –  David Rodríguez - dribeas Nov 2 '11 at 10:15
@David Rodríguez - dribeas: Yes, I know, but it's a widespread practice to have assertions disabled in non-debug builds and I only use it as an example. –  sharptooth Nov 2 '11 at 10:16
I do not get why you need to insert a no-op in an otherwise empty else block. If you want to fill it later, you can leave the else block empty. –  ziu Nov 2 '11 at 10:16
@ziu he's more-so talking about #define assert(x) //noop here –  AusCBloke Nov 2 '11 at 10:18
Your first macro might be better written as #define assert(x) if(x); else ThrowException(__FILE__, __LINE__), which will require the semicolon to compile properly and will look/act like a statement. Leaving in the brackets allow that to be omitted, which can be a problem (particularly if your release macro definition requires the semicolon, and you forgot to use it somewhere). –  Chris Lutz Nov 2 '11 at 10:26

7 Answers 7

up vote 2 down vote accepted

I suspect that it might trigger warnings on some compilers

Unlikely, since ((void)0) is what the standard assert macro expands to when NDEBUG is defined. So any compiler that issues warnings for it will issue warnings whenever code that contains asserts is compiled for release. I expect that would be considered a bug by the users.

I suppose a compiler could avoid that problem by warning for your proposal (void)0 while treating only ((void)0) specially. So you might be better off using ((void)0), but I doubt it.

In general, casting something to void, with or without the extra enclosing parens, idiomatically means "ignore this". For example in C code that casts function parameters to void in order to suppress warnings for unused variables. So on that score too, a compiler that warned would be rather unpopular, since suppressing one warning would just give you another one.

Note that in C++, standard headers are permitted to include each other. Therefore, if you are using any standard header, assert might have been defined by that. So your code is non-portable on that account. If you're talking "universally portable", you normally should treat any macro defined in any standard header as a reserved identifier. You could undefine it, but using a different name for your own assertions would be more sensible. I know it's only an example, but I don't see why you'd ever want to define assert in a "universally portable" way, since all C++ implementations already have it, and it doesn't do what you're defining it to do here.

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The simplest no-op is just having no code at all:

#define noop

Then user code will have:

if (condition) noop; else do_something();

The alternative that you mention is also a no-op: (void)0;, but if you are going to use that inside a macro, you should leave the ; aside for the caller to add:

#define noop (void)0
if (condition) noop; else do_something();

(If ; was part of the macro, then there would be an extra ; there)

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How about do { } while(0)? Yes it adds code, but I'm sure most compilers today are capable of optimizing it away.

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; is considered as standard no-op. Note that it is possible that the compiler will not generate any code from it.

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Well, the answers to the linked question suggest that it is not such a good idea. –  sharptooth Nov 2 '11 at 10:19

AFAIK, it is universally portable.

#define MYDEFINE()

will do as well.

Another option may be something like this:

void noop(...) {}
#define MYDEFINE() noop()

However, I'd stick to (void)0 or use intrinsics like __noop

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#define assert in your own code is undefined behavior; the standard says what assert must mean. –  James Kanze Nov 2 '11 at 12:32
+1 @JamesKanze I didn't mean to literally define assert name, it was a user-defined name placeholder. Clarified. –  mloskot Nov 2 '11 at 13:31
I suspected as much, but you never know what some reader will read into what was for you a purely arbitrary choice:-). (The standard assert usually uses (void)0 because it is required to be usable as a subexpression; e.g. someCondition || assert(otherCondition).) –  James Kanze Nov 2 '11 at 14:23
@JamesKanze I agree, completely. –  mloskot Nov 2 '11 at 14:47

I recommend using:

static_cast<void> (0)   
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    inline void noop( ) {}


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How does this answer "Is it universally portable? Is there a better way?" –  Micky Duncan Mar 23 at 0:51
Generally avoid code-only answers. Consider adding a description that helps to explain your code. I think you can do better than "Self-documenting". Thanks. –  Micky Duncan Mar 23 at 0:51
If the reader does not understand what the code does I suggest either en.cppreference.com or www.cplusplus.com. It's obviously portable if using a C++ compiler, and whether it is "better" than some other way is strictly opinion; readers can use it, or not, as they wish. –  gerardw Mar 23 at 1:37
This can cause a function call and that's hardly a "no-op". –  sharptooth Mar 23 at 6:53
Which C++ compiler generates code for that when optimizing? –  gerardw Mar 23 at 13:19

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