Is there a faster kind of
TMultiReadExclusiveWriteSynchronizer out there? FastCode perhaps?
Starting with Windows Vista, Microsoft added a Slim Reader/Writer lock. It performs much better than Delphi's
TMultiReadExclusiveWriteSynchronizer. Unfortunately it only exists in Windows Vista and later, something which few customers actually have yet.
Presumably the concepts in use inside a
Slim Reader/Writer lock could be redone in native Delphi code - but has anyone done it?
i have a situation where acquiring and releasing locks on a
TMultiReadExclusiveWriteSynchronizer (even when there's no contention - a single thread), causes 100% overhead (the operation time doubles). i can run without locking, but then my class is no longer thread-safe.
Is there a faster
Note: If i use a
TCriticalSection i only suffer a 2% performance hit (although critical sections are known to be fast when the acquire succeeds, i.e. while it's single threaded and there's no contention). The downside of a CS is that i lose the "multiple readers" capability.
TMultiReadExclusiveWriteSynchronizer a sizable amount of time is spent inside
i then ported the code to use Window's own SlimReaderWriter Lock (which some code rewrite, as it doesn't support recursive lock taking), and profiled the resutls:
TMultiReadExclusiveWriteSynchronizer: 10,698 ns per iteration
10,697,772,613 ns to iterate 1,000,000 times
SRWLock: 8,802 ns per iteration
8,801,678,339 ns to iterate 1,000,000 times
Omni Reader-Writer lock: 8,941 ns per iteration
8,940,552,487 ns to iterate 1,000,000 times
A 17% improvement when using SRWLocks (aka Omni's spinning lock).
Now, i cannot switch the code permanantly over to use Windows Vista SRWLocks, as there are some entire enterprises of customers that are still on Windows XP.
The Slim locks are just careful use of
InterlockedCompareExchange functions; but more careful than i can successfully use. I'm this far away from just stealing the 140 machine instructions involved, and have it done.