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Is it possible for a thread to change a cached value, which then never leaves its cache and so is never visible to other threads? If we're talking literally about the hardware caches, then we need to talk about specific processor families. And if you're working (as seems likely) on x86 (and x64), you need to be aware that those processors actually have a ...


In order from easiest to do correctly to easiest to screw up Use locks when reading/writing Use the functions on the Interlocked class Use memory barriers


Research Thread.MemoryBarrier and you will be golden.


I'm not entirely sure that this answers your question, but here goes. If you run the release (not debug) version of the following code, it will never terminate because waitForFlag() never sees the changed version of flag. However, if you comment-out either of the indicated lines, the program will terminate. It looks like making any call to an external ...


In addition to the visibility concerns previously mentioned, there is another problem with the original code, viz. it can throw a NullPointerException here: return Which is counter-intuitive, but that is what you can expect from incorrectly synchronized code. Sample code to prevent this: Map temp; if ((temp = == null) { ...


No, 0 0 is not possible. A relaxed memory order doesn't mean the operations aren't atomic, and the only way for 0 0 to occur is for the read-modify-writes to be non-atomic. But since std::atomic::fetch_add operates atomically, we know that only one fetch_add may be operating at a time, so only 0 1 or 1 0 are possible.

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