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Suppose I have a function that tries to protect a global counter using this code:

 static MyCriticalSectionWrapper lock;
 counter = ++m_counter;

IS there a chance that two threads will invoke the lock's constructor? What is the safe way to achieve this goal?

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See also stackoverflow.com/questions/55510/… –  Daniel Trebbien Dec 30 '10 at 23:57

4 Answers 4

up vote 2 down vote accepted

The creation of the lock object itself is not thread safe. Depending on the compiler, you might have multiple independent lock objects created if multiple threads enter the function at (nearly) the same time.

The solution to this problem is to use:

  • OS guaranteed one time intialization (for the lock object)
  • Double-checked locking (Assuming it is safe for your particular case)
  • A thread safe singleton for the lock object
  • For your specific example, you may be able to use a thread safe interlocked (e.g., the InterlockedIncrement() function for Windows) operation for the increment and avoid locking altogether
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Then, to make it safe, I need to wrap it in a critical section, leading to the same problem... right? –  Alex Emelianov Dec 30 '10 at 22:27
A thread-safe singleton is harder to write than you might think. A better solution is to eliminate the global and use an active object instead. The active object will then be in charge of whatever action you intended to do with the global. –  wilhelmtell Dec 30 '10 at 22:30
AFAIK, Double-checked locking is not considered thread-safe. It's kind of anti-pattern. –  Piotr Findeisen Dec 30 '10 at 22:31
Sometimes you need a singleton assigning unique IDs. It should not be that hard to implement. –  Alex Emelianov Dec 30 '10 at 22:32
@AlexEmelianov yes, it is that hard to implement correctly. If you introduce the singleton in order to bring in simplicity then the solution defeats itself. –  wilhelmtell Dec 30 '10 at 22:33

Constructor invoke can be implementation and/or execution environment dependent, but this isn't a scoped_lock so not an issue.

Main operation is properly guarded against multi thread access I think.

(You know, global for global, function static for function static. That lock variable must be defined in the same scope with the guarded object.)

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"lock variable must be defined in the same scope with the guarded object." - that's a good rule of thumb. Thank you. –  Alex Emelianov Dec 30 '10 at 23:07

Original sample code:

 static MyCriticalSectionWrapper lock;
 counter = ++m_counter;

I realize that the counter code is probably just a placeholder, however if it is actually what you trying to do you could use the Windows function "InterlockedIncrement()" to accomplish this. Example:

 // atomic increment for thread safety
 counter = m_counter;
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or std::atomic these days –  paulm Mar 16 at 10:37

That depends on your lock implementation.

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@wilhelmtell:Sorry,I wasn't clear. Here, lock is a static block-scope variable. Section [6.7] paragraph 4 of the (current) standard says that "such an object is initialized the first time control passes through its declaration". stackoverflow.com/questions/898432/… covers how C++ compilers do this. It's not thread-safe, so multiple threads could simultaneously run the MyCriticalSectionWrapper constructor, leaving it in an undefined state. Your statement is correct, though, for C++0x based on the latest draft, n3126. –  Daniel Trebbien Dec 31 '10 at 0:16
@wilhelmtell: "MyCriticalSectionWrapper" is a C++ class. Even if the internals are written correctly, two different instances don't have the same behavior as one instance. Two threads, creating two different instances, would (correctly, but pointlessly) lock two different contexts. My question was if the "static" declaration somehow prevented double initialization. –  Alex Emelianov Dec 31 '10 at 0:19
@wilhelmtell: please don't assume I don't know the basics. You might be surprised how much concurrent code I have debugged... At this point, I simply needed proof that some existing code is not as safe as the team owning it believes. It always helps to use constructive language rather than "read a book first" kind of remarks. –  Alex Emelianov Dec 31 '10 at 0:26
@wilhelmtell lock is not the lock object, but the critical section instance itself. This is an unfortunate naming, as lock should have been named sync_object, or something similar. The concern of the others is that the critical section or mutex object cannot be locked until it is properly created first. –  Tamas Demjen Dec 31 '10 at 1:02
Apparently C++0x is going to guarantee thread safety with static locals, as Daniel's link suggests: stackoverflow.com/questions/898432/…. This guarantee is missing from C++2003. The safest approach is to initialize all critical sections in main (before you even create your first thread), but that's inconvenient. The idea of the static local is that it would create the critical section instance the first time it's needed (on demand). But without the thread-safety guarantee it is implementation dependent. –  Tamas Demjen Dec 31 '10 at 1:20

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