If I have a single int which I want to write to from one thread and read from on another, I need to use std::atomic
, to ensure that its value is consistent across cores, regardless of whether or not the instructions that read from and write to it are conceptually atomic. If I don't, it may be that the reading core has an old value in its cache, and will not see the new value. This makes sense to me.
If I have some complex data type that cannot be read/written to atomically, I need to guard access to it using some synchronisation primitive, such as std::mutex
. This will prevent the object getting into (or being read from) an inconsistent state. This makes sense to me.
What doesn't make sense to me is how mutexes help with the caching problem that atomics solve. They seem to exist solely to prevent concurrent access to some resource, but not to propagate any values contained within that resource to other cores' caches. Is there some part of their semantics I've missed which deals with this?