static char const err_msg[] = "Hell has frozen over.";

For a while I thought it was fine to share const variables like the one above between threads, but then it occurred to me that unless such variables both start and end exactly on a cacheline boundary, any adjacent non-const data could cause false sharing, leading to any of the performance penalties that tends to entail.

Whether that concern is valid would -I assume- depend on how the C language and/or compilers determine where space is allocated for static(const) variables; but nonetheless, to minimize the chances of false sharing I guess it's best to declare all static variables as thread_local in a multi-threading context, even if they are const:

thread_local static char const err_msg[] = "Hell has frozen over.";

Can you corroborate this?

@MichaelDorgan mentioned there are platforms where "there is an additional cost associated with accessing thread local variable and a limit on how many can be declared". Any references corroborating that could affect my assumptions above.

@JonathanLeffler mentioned that const variables tend be laid out in read-only memory regions, which would eliminate false sharing concerns. A follow-up question in that regard would then be: is this strictly platform dependent, or are there stronger guarantees available?

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    On systems I work on, there is an additional cost associated with accessing thread local variable and a limit on how many can be declared. I think you may be reaching a bit with your solution here. If you determine through careful profiling that a group of strings are hurting you, by all means group them together for improved locality. Better, use LTO/PGO to let the compiler help you a bit with this. Your solution to me look troubling, but perhaps others can prove me wrong. – Michael Dorgan Jun 27 at 23:28
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    OK; I don't think I know what you mean by false sharing — it sounds like a false problem, but in the days of Meltdown or Spectre, etc, maybe it isn't. OTOH, if the data is constant, I'm not sure what you might falsely share. I'll delete my comment since it isn't helping you. This will vanish shortly too. Note that const data tends to be stored in a readonly segment; there is no adjacent modifiable data — at least, not in general. – Jonathan Leffler Jun 27 at 23:52
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    False sharing happens when writing disables a remote cache line. You cannot write to const. The programming environment forbids it at compile time and the system at run-time. So this cannot happen. – Alain Merigot Jun 28 at 0:27
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    The const data would be in read-only pages on for example linux. There would not be writable data on the same page. This only applies to static storage duration – Antti Haapala Jun 28 at 1:39
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    This sounds like premature optimization to me. In my experience the effects of false sharing and setting up a thread local storage can be at least one order of magnitude appart. Even the implementation of thread local storage would be ideal, it generally requires one additional indirection, because there is this thread dependency that has to be resolved. – Jens Gustedt Jun 28 at 7:43

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