You should take a look at the stack overflow question "C++11 equivalent to boost shared_mutex", and in particular the following linked email conversation: http://permalink.gmane.org/gmane.comp.lib.boost.devel/211180 (which explains the resistance of the C++11 committee to approving shared_mutex). Also the following experiment on Joe Duffy's weblog: http://www.bluebytesoftware.com/blog/2009/02/12/ReaderwriterLocksAndTheirLackOfApplicabilityToFinegrainedSynchronization.aspx.
Every time you are considering a reader/writer lock, ask yourself the following 6 questions. If you can answer "no" to any of them then reader/writer locks are going to make your program worse, not better.
- Is my shared object
const? I have seen more incorrect uses of
shared_mutex in my life than correct uses. To use a
shared_mutex correctly it must be the case that you can declare your shared objects
const inside the reader critical section without any compiler complaints. A "consumer" is not equivalent to "someone who does not mutate the data structure at all."
- Are my critical sections really long? Locking a shared_mutex is much more expensive than locking a regular mutex. You have to have a lot of work in your critical section to make up for the increased overhead of the lock acquire/release.
- Should my critical sections be that long? You should ask yourself whether you really need to be doing all that work in a critical section. Often there is a bunch of preparatory work and/or work to massage the return object surrounding the
const calls to the shared object. Much of that extra work that isn't on the data-dependence path from the first use of the shared object to the last use of the shared object can be moved outside the critical section.
- Is lock contention really my performance problem? Even if your critical sections are long, you should be absolutely sure that lock contention is really your performance problem. If you aren't experiencing significant lock contention then switching to reader/writer locks isn't going to buy you anything.
- Could I reduce my lock contention by switching to a finer-grain locking scheme? Are you using a single lock to protect multiple objects? Can you give each object its own lock?
- Is the ratio of readers to writers significantly greater than 1:1? Even if your critical sections are long and lock contention is a serious problem the ratio of readers to writers needs to be extremely high to get any benefit from reader/writer locks. The amount depends on costs for atomic instructions on your hardware and the quality of the particular implementations. (Joe Duffy finds that on his machine he needed a ratio around 20:1 readers:writers to make reader/writer locks a win.)