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The MSDN docs for "volatile" in Visual C++ indicate that writes have "release semantics" and that reads have "acquire semantics", in addition to ensuring that reads always read from memory and that writes always write accordingly.

The C spec for "volatile" includes the second part (don't do crazy optimizations), but not the first part (a memory fence).

Is there any way in Visual C++ to get the "C" volatile behaviour only, without the memory fence?

I want to force a variable to always be on the stack, in a fixed spot, but I don't want to take the overhead of a memory fence on every assignment to it.

Is there any easy way to do that with Visual C++ source?

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The first part is not Standard C++ behaviour, I think. I'm not sure, though. –  Nawaz Sep 21 '11 at 18:21
"I want to force a variable to always be on the stack, in a fixed spot" and how would volatile help with that? FWIW, variables are always in a fixed spot. @Nawaz: no, the first part is not standard. –  R. Martinho Fernandes Sep 21 '11 at 18:25
@Fernades Local variables are NOT always in a fixed spot. Local variables can be eliminated, or their address on the stack can be in different spots depending on where the PC is. The optimizer can do lots of crazy stuff. I want to suppress those optimizations. The way to do that is to use "volatile". However, I don't want the not-mandated-by-the-standard memory fence that Visual C++ throws in. –  Scott Wisniewski Sep 21 '11 at 18:31
edited to (hopefully) make it clear that this is MS-specific behavior. In fact I think it only applies to Visual C++ 2005 and later. –  Ben Voigt Sep 21 '11 at 18:32
@ScottWisniewski: It's more likely to be on the stack at times, and in registers at times, rather than two different locations on the stack. But you definitely have a point. –  Ben Voigt Sep 21 '11 at 18:33

1 Answer 1

up vote 3 down vote accepted

Is there any way in Visual C++ to get the "C" volatile behaviour only, without the memory fence?

On x86 there are no memory fences created at the assembly level on reads and writes to a volatile memory location since on that platform every load has acquire semantics, and every store has release semantics. Therefore for MSVC on x86, the volatile directive simply directs the compiler to prevent the reordering of loads and stores depending on if you are writing or reading from the memory location that was marked volatile.

You would only incur the "penalty" of a memory fence on the IA64 architecture, since there the memory ordering model of the platform does not ensure acquire and release semantics for loads and stores.

Keep in mind this behavior is MSVC-specific, and is not a standardized semantic of volatile.

Update: According to @ildjarn you would also see a memory fence on ARM with Windows 8 since that platform also has a weakly ordered memory-consistency model like IA64.

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The penalty applies to ARM as well. –  ildjarn Sep 21 '11 at 18:39
Does MSVC work on ARM? ... I didn't know you could run Windows programs on ARM ... –  Jason Sep 21 '11 at 18:40
ARM is a primary platform for Windows 8, so MSVC11 supports ARM as a primary architecture as well. –  ildjarn Sep 21 '11 at 18:41
Ah, Okay ... right, I was thinking about Windows 7 and earlier ... –  Jason Sep 21 '11 at 18:43
Thanks! IA64 isn't a big deal. On Arm, is it possible to suppress the memory fence? –  Scott Wisniewski Sep 21 '11 at 18:48

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