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I'm using C++, and I'm using the boost library mutex, recursive_mutex and other synchronization objects.

I often have the following pattern:

  • void RebuildAll(). This function makes many internal changes.
  • void DoSomethingA(). Do some work using what RebuildAll built.
  • void DoSomethingB(). Do some work using what RebuildAll built.
  • void DoSomethingC(). Do some work using what RebuildAll built.
  • ...

The functions can be called from different threads. I want to be able to execute DoSomethingA(), DoSomethingB() and DoSomethingC() in parallel. But when RebuildAll() is called, I need to make sure that the DoSomething functions are not being executed.

Is there anything to help me protect these functions?

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up vote 4 down vote accepted

This is often called a reader-writer lock. The rules for a reader-writer lock are:

  • Any number of read locks can be acquired at any given time, presumably by different threads.
  • Only one writer can ever acquire the lock and only when all readers are done.
  • No readers can acquire the lock while the writer owns it.

In your example, RebuildAll() would be a writer and DoSomethingA() through DoSomethingC() would be readers.

Boost has an implementation of a reader-writer lock called boost::shared_mutex. This is not yet in the standard library, though.

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