It's common that modern CPU architectures employ performance optimizations that can result in out-of-order execution. In single threaded applications memory reordering may also occur, but it's invisible to programmers as if memory was accessed in program order. And for SMP, memory barriers come to the rescue which are used to enforce some sort of memory ordering.
What I'm not sure, is about multi-threading in a uniprocessor. Consider the following example: When thread 1 runs, the store to
f could take place before the store to
x. Let's say context switch happens after
f is written, and right before
x is written. Now thread 2 starts to run, and it ends the loop and print 0, which is undesirable of course.
// Both x, f are initialized w/ 0. // Thread 1 x = 42; f = 1; // Thread 2 while (f == 0) ; print x;
Is the scenario described above possible? Or is there a guarantee that physical memory is committed during thread context switch?
According to this wiki,
When a program runs on a single-CPU machine, the hardware performs the necessary bookkeeping to ensure that the program execute as if all memory operations were performed in the order specified by the programmer (program order), so memory barriers are not necessary.
Although it didn't explicitly mention uniprocessor multi-threaded applications, it includes this case.
I'm not sure it's correct/complete or not. Note that this may highly depend on the hardware(weak/strong memory model). So you may want to include the hardware you know in the answers. Thanks.
PS. device I/O, etc are not my concern here. And it's a single-core uniprocessor.
Edit: Thanks Nitsan for the reminder, we assume no compiler reordering here(just hardware reordering), and loop in thread 2 is not optimized away..Again, devil is in the details.