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So we have class with functions a and b. Thread one calls a and no other thread can call a or b untill one would call b. Meaning thread one would be capable to call a and than a and ... and than a, and while one had not called b other threads that want to call a or b stand waiting. is it possible to do such thing with boost::mutex and how to do it?

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4 Answers 4

up vote 6 down vote accepted

The mutex is not a problem; it's the lock. The simplest solution is just to call mutex::lock() and mutex::unlock() manually, and forget about the mutex::scoped_lock; after all, you don't want the lock to respect scope. The problem with this is the usual one; you probably want to free the lock in case of an exception. One solution would be to allocate the mutex::scoped_lock dynamically, and use a std::auto_ptr or a boost::shared_ptr to manage it. (Curiously enough, neither boost::mutex::scoped_lock nor std::lock_guard are movable, so you need dynamic allocation in order to transfer ownership.)

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how does a dynamically allocated mutex help if the thing that crashes the thread holding the mutex? After all the mutex is not owned by the thread, it's owned by the class? –  Nim Aug 19 '11 at 9:07
It's not the mutex which you allocate dynamically, but the scoped_lock. And you "manage" it like you would any other dynamic allocation. (This does mean that you have to return it from the function which locks, and pass it into the function which frees.) –  James Kanze Aug 19 '11 at 9:43
@James... aha... it would help to read the answer properly.. slow morning... :) –  Nim Aug 19 '11 at 9:57
for new readers... auto_ptr is deprecated you prob wanna use unique_ptr –  NoSenseEtAl Jun 26 '13 at 9:56

It has separate lock() and unlock() functions. Make the mutex a member of your class, and then call these respective functions... I would find an alternative approach though - you could have all sorts of odd situations (say thread calling a crashes?)

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There are several ways to do it. Either you have your mutex as an attribute of a base class and then inherit your working objects from it. Or else send a reference of the mutex to each working class.

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It is possible. Just call boost::mutex::lock() from a and boost::mutex::unlock() from b.

But note that in the case of an exception thrown while the mutex is locked you should ensure that unlock is called eventually. And scoped_lock does that automatically, but you'll have to do it manually.

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