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The __COUNTER__ symbol is provided by VC++ and GCC, and gives an increasing non-negative integral value each time it is used.

I'm interested to learn whether anyone's ever used it, and whether it's something that would be worth standardising?

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Curious: is COUNTER defined in the C99 standard? (Or maybe the C++ standard?) –  strager Mar 17 '09 at 3:59
I don't think it's defined in either. AFAIK, it's an extension that started in VC++, and went over to GCC recently. Don't know if any other compilers support. Maybe if there's a reallu important use for it there'd be reason to standardize ... –  dcw Mar 17 '09 at 5:48
I've used it, but it was so long ago that I can't remember why. –  Mark Ransom Aug 18 '09 at 17:31
@strager: Neither COUNTER nor __COUNTER__ appear in the C (99) standard. –  Paul Biggar Aug 18 '09 at 17:49
@dcw: clang supports it. –  Keith Thompson Dec 23 '14 at 0:03

10 Answers 10

up vote 3 down vote accepted

It's used in the xCover code coverage library, to mark the lines that execution passes through, to find ones that are not covered.

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Interesting I'll cehck it out. Thanks –  dcw May 9 '09 at 23:38

__COUNTER__ is useful anywhere you need a unique name. I have used it extensively for RAII style locks and stacks. Consider:

struct TLock
  void Lock();
  void Unlock();
g_Lock1, g_Lock2;

struct TLockUse
  TLockUse( TLock &lock ):m_Lock(lock){ m_Lock.Lock(); }
  ~TLockUse(){ m_Lock.Unlock(); }

  TLock &m_Lock;

void DoSomething()
  TLockUse lock_use1( g_Lock1 );
  TLockUse lock_use2( g_Lock2 );
  // ...

It gets tedious to name the lock uses, and can even become a source of errors if they're not all declared at the top of a block. How do you know if you're on lock_use4 or lock_use11? It's also needless pollution of the namespace - I never need to refer to the lock use objects by name. So I use __COUNTER__:

#define CONCAT_IMPL( x, y ) x##y
#define MACRO_CONCAT( x, y ) CONCAT_IMPL( x, y )
#define USE_LOCK( lock ) TLockUse MACRO_CONCAT( LockUse, __COUNTER__ )( lock )

void DoSomething2()
  USE_LOCK( g_Lock1 );
  USE_LOCK( g_Lock2 );
  // ...

But don't get hung up on the fact I called the objects locks - any function(s) that need to get called in matching pairs fit this pattern. You might even have multiple uses on the same "lock" in a given block.

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It's a significantly better idea to use a single use_lock(g_Lock1, g_Lock2) function that is smart enough to order the locks to avoid deadlocking. –  TBohne Feb 17 at 1:46

I've used it in a compile-time assertion macro to have the macro create a name for a typedef that will be unique. See

if you want the gory details.

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Why do you want unique name for each of typedefs? They will be either defined eqiuvalently or compilation will fail. –  n0rd Mar 17 '09 at 14:09
@nOrd - hmm - either it's over-engineered or there's a reason that's escaping me... but, I probably won't revisit it, since the C_ASSERT stuff seems to be working just fine for me. –  Michael Burr May 10 '09 at 1:23
Equivalent definitions are an error at least in C89, I believe. I think C99 and C++11 both allow redundant typedefs, but they weren't always permitted. –  Jeff Walden Jul 3 '13 at 22:38

I've never used it for anything but a DEBUG macro. It's convenient to be able to say

#define WAYPOINT \
    do { if(dbg) printf("At marker: %d\n", __COUNTER__); } while(0);
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Interesting. But how is this as good as / better than using FILE. After all, that will tell you exactly where the waypoint is, rather than perhaps having to search the file for WAYPOINT instances? Am I missing something ;-) –  dcw Mar 17 '09 at 2:21
Well, you might be missing me saying "this is all I've ever found it useful for." Which isn't very. –  Charlie Martin Mar 17 '09 at 2:25
Me again: kudos on the do {} while(0), btw. :-) –  dcw Mar 17 '09 at 2:45
There's an extra ';' at the end of your #define... –  johnny Mar 17 '09 at 5:11
No there isn't. It's there on purpose. If someone writes WAYPOINT; the extra ; is a no-op, silently optimized out. Do it the other way and it can become a syntax error somewhere south of the macro, with the cause hidden in the macro body. –  Charlie Martin Mar 17 '09 at 14:06

If I'm understanding the functionality correctly, I wished I had that functionality when I was working in Perl, adding an Event Logging function into an existing GUI. I wanted to ensure that the needed hand testing (sigh) gave us complete coverage, so I logged every test point to a file, and logging a __counter__ value made it easy to see what was missing in the coverage. As it was, I hand coded the equivalent.

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Sounds interesting. How did you "hand code" the equiv.? –  dcw May 9 '09 at 23:39
As I reread my own post, I didn't really hand-code the equivalent. I just put counters in by hand. (hard coded all the numbers throughout each file.) That's why I wish I'd had the functionality. –  Leonard May 11 '09 at 1:11

I've used it to generate unique types in this article: http://www.codeproject.com/Articles/42021/Sealing-Classes-in-C

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I intend to use __COUNTER__ to give every file in our codebase a unique identifier, so that that unique code can be used in logging ASSERTs in an embedded system.

This method is much more efficient than using strings to store filenames (using __FILE__), especially on an embedded system with tiny ROM. I thought about the idea whilst I was reading this article - Assert Yourself on Embedded.com. It's a shame that it only works with GCC-based compilers though.

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__COUNTER__ gets reset for each cpp file though, so headers would get a different number depending on the order they're included. I think you're misremembering. –  TBohne Feb 17 at 1:50

I am using this variable to introduce some entropy in a PRNG (Pseudo Random Number Generator). Each time I call the PRNG I can provide some entropy using this variable. In the long run, if the calls to the PRNG are random because it depends of the user actions, Some entropy will be added to the generator.

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This sounds dangerous to me. The __COUNTER__ produces a compile-time constant. There is no short-term entropy in that. It only ever changes if you use __COUNTER__ in another place. During run-time, the value stays the same. –  Jonas Wielicki Sep 9 '13 at 15:10
@JonasWielicki The entropy comes from the user usage. For example if two functions fa and fb are using the prng, function fa will always provide 1 to the pool and fb will always provide 2 to the pool. If the usage is fa then fb, the pool will end up in a different state compared to the usage fb then fa. This should be used with other sources of entropy of course. –  Arnaud Sep 9 '13 at 15:36
Okay, this depends a lot on how and where you use __COUNTER__. If done right, what you say is true. One should note though, that actual entropy in the control flow is only a reflection of external inputs. –  Jonas Wielicki Sep 9 '13 at 15:50
You are absolutely right! –  Arnaud Sep 9 '13 at 15:54

I'm interested to learn whether anyone's ever used it,

Yes, but as you can see from many examples in this Q&A, __LINE__, which is standardized, would also be sufficient in most cases.

__COUNTER__ is only really necessary in cases where the count must increase by one each time, or it must have continuity over several #include files.

and whether it's something that would be worth standardising?

__COUNTER__, unlike __LINE__, is very dangerous because it depends on which header files are included and what order. If two .cpp files (translation units) include a header file that use __COUNTER__, but the header file obtains different count sequences in the different instances, they may use different definitions of the same thing and violate the one-definition rule.

One-definition rule violations are very difficult to catch and potentially create bugs and security risks. The few use-cases of __COUNTER__ don't really outweigh the downside and lack of scalability.

Even if you never ship code that uses __COUNTER__, it can be useful when prototyping an enumeration sequence, saving you the trouble of assigning names before the membership is concrete.

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__COUNTER__ is guaranteed to be unique unlike __LINE__. Some compilers allow __LINE__ to be reset. #include files will also reset __LINE__.

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All standard C and C++ compilers are required to provide the feature that resets __LINE__. –  Potatoswatter Jan 25 at 12:38

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