Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a counter variable which will be accessed by multiple threads which will increment/decrement it. It should not be updated by multiple threads at the same time.

I know that you can create a mutex object which has to be obtained before the variable in question can be changed. A critical section in this case is not appropriate because there are more than 1 function which can change the variable in question.

Is there another I can do this without using the mutex? Using a mutex does have a performance penalty (see I believe that in Java, there is a key word you can use in the variable declaration to accomplish that (is it called "synchronized"?), but is there such a thing in C++ at all?

I know that volatile is not the keyword I am looking for.

Thank you very much.

share|improve this question
A critical section would still work here, so long as the counter is only accessed by a single process. It can be used by multiple functions withing the same process. In fact, critical sections are faster than mutextes. – John Dibling Jan 28 '10 at 13:31
re Java: no, synchronized in java is equivalent to a critical section, which is different from volatile and atomic increment/decrement. – finnw Jan 28 '10 at 14:10
up vote 8 down vote accepted

Most processors have 'atomic' increment and decrement instructions - in a large part, they are how mutexes are implemented at a machine level.

You can access these atomic instructions in your own code. Windows provides the InterlockedIncrement() function, and glib provides equivalents. In x86 assembly language, you can use LOCK CMPXCHG and kin directly.

C++ does not know anything about these concepts - you must use them yourself; there are no magic keywords for thread safety in C++.


share|improve this answer

While the use of atomic operations is probably the most efficient, the fact that this is used in more than one function is no bar to using a critical section in this or any other code - simply write a function:

void IncDec( bool inc ) {
   EnterCritical Section( theCS );
   if ( inc ) {
   else {
   LeaveCriticalSection( theCS );

and cal it from your other functions.

share|improve this answer
The qt library has a nice implementation of atomic operations – Jay Jan 28 '10 at 16:27

From the description, it sounds like maybe you only need InterlockedIncrement and the associated decrement function.

Edit - These are Windows functions ... I didn't stop to ask which platform.

share|improve this answer
So there is nothing you can put in front of a variable declaration which specifies that it has to be accessed in an atomic fashion? I know that const, mutable and volatile are C++ qualifier words but they do not fit the bill. – Andy Jan 28 '10 at 12:59
@Andy No there isn't. The current C++ Standard does not address threading at all. – anon Jan 28 '10 at 13:03
Thank you very much. – Andy Jan 28 '10 at 14:35

A critical section in this case is not appropriate because there are more than 1 function which can change the variable in question.

This is a common scenario where critical sections are used, you need to assure every piece of code that access the variables do so while entering the same critical section(or mutex, or whichever guarding is used).

share|improve this answer

In Win32 IntelockedIncrement/IntelockedIncrement64 and associated operations compile to x86 instructions that allow processor level atomic operations on 32 or 64 bit words (depending on your architecture). This works fine in the case of a simple counter, but naturally won't work if your trying to synchronize a larger structure with multiple words.

PS from here, the corresponding asm you would need to implement this on a non Win32 system running on an x86.

inline long InterlockedExchangeAdd( long* Addend, long Increment )
long ret;
__asm__ (
/* lock for SMP systems */
"xaddl %0,(%1)"
:"=r" (ret)
:"r" (Addend), "0" (Increment)
:"memory" );
return ret;

inline long InterlockedIncrement( long* Addend )
return InterlockedExchangeAdd( Addend, 1 );

inline long InterlockedDecrement( long* Addend )
return InterlockedExchangeAdd( Addend, -1 );
share|improve this answer

You could use atomic type for the counter variable - like sig_atomic_t (in GNU libc). Then there is no need for synchronization, since a race condition cannot happen, the operation on this variable is guaranteed to be atomic.

share|improve this answer
sig_atomic_t has atomic writes (i.e. you don't need to worry about only 3 bytes of the variable being updated before a context switch) but not atomic increment/decrement. See this question: – finnw Jan 28 '10 at 14:14

As others have mentioned, there's nothing in the current C++ standard that supports atomic variable access. If you're asking for C++ library support however (not entirely clear to me), there's an attempt-in-progress to mimic the upcoming C++ standard's atomic support here.

share|improve this answer
Thank you. C++ does have something to make a variable local to a thread - declspec(thread) but it is probably specific to the Windows platform. – Andy Jan 28 '10 at 14:37
@Andy: __declspec(thread) makes variables thread-affine - meaning that they can't be shared between threads (well, at least not without violating their purpose). – Cwan Jan 28 '10 at 14:42
@Andy: Oh, and __declspec(thread) isn't windows-specific, it's VC++ specific. – Cwan Jan 28 '10 at 14:51
Thank you very much. – Andy Jan 31 '10 at 20:12

A critical section in this case is not appropriate because there are more than 1 function which can change the variable in question.

How will you know you have found all places the variable might be access if you don't create a single function using a critical section to modify it?

Additionally you will need to declare the variable volatile just make sure your compiler doesn't optimize any accesses to the variable inadvertently.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.