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In C++03 Standard observable behavior (1.9/6) includes reading and writing volatile data. Now I have this code:

int main()
    const volatile int value = 0;
    if( value ) {
    return 0;

which formally initializes a volatile variable and then reads it. Visual C++ 10 emits machine code that makes room on the stack by pushing a dword there, then writes zero into that stack location, then reads that location.

To me it makes no sense - no other code or hardware could possibly know where the local variable is located (since it's in automatic storage) and so it's unreasonable to expect that the variable could have been read/written by any other party and so it can be eliminated in this case.

Is eliminating this variable access allowed? Is accessing a volatile local which address is not known to any other party observable behavior?

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up vote 6 down vote accepted

The thread's entire stack might be located on a protected memory page, with a handler that logs all reads and writes (and allows them to complete, of course).

However, I don't think MSVC really cares whether or how the memory access might be detected. It understands volatile to mean, among other things, "do not bother applying optimizations to this object". So it doesn't. It doesn't have to make sense, because MSVC is not interested in speeding up this kind of use of volatile.

Since it's implementation-dependent whether and how observable behavior can actually be observed, I think you're right that an implementation can "cheat" if it knows, because of details of the hardware, that the access cannot possibly be detected. Observable behavior that has no physically-detectable effect can be skipped: no matter what the standard says, the means to detect non-conforming behavior are limited to what's physically possible.

If an implementation fails to conform to the standard in a forest, and nobody notices, does it make a sound? Kind of thing.

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+1 for the last sentence only. – Lightness Races in Orbit Sep 26 '11 at 9:41

That's the whole point of declaring a variable volatile: you tell the implementation that that variable may change or be read by means unknown to the implementation itself and that the implementation should refrain from performing optimizations that might impact such access.

When a variable is declared both volatile and const your program may not change it, but it may still be changed from outside. This implies that not only the variable itself but also all read operations on it cannot be optimized away.

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The implications of const volatile are very simple: it means the variable can't change in my code (I can't ++ that variable), but can be changed by the third party. – sharptooth Sep 26 '11 at 9:41

Volatile also applies to your own code.

volatile int x;
x = 0;
while (x == 0){};

This will be an endless loop if x is not volatile.

As for the const. I'm unsure whether the compiler can use that to decide.

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How would spawn_thread() access the variable? – sharptooth Sep 26 '11 at 9:26
@sharptooth I should have written spawn_thread(&x); – Let_Me_Be Sep 26 '11 at 9:27
@sharptooth Plus compilers don't usually go into deciding side-effects. Mostly because that's a complex area. – Let_Me_Be Sep 26 '11 at 9:29
I would agree if it was (&x) - that would suppress elimination in most cases of non-volatile variables as well. – sharptooth Sep 26 '11 at 9:30
@sharptooth Edited. Sorry, this is what I meant in the first place. – Let_Me_Be Sep 26 '11 at 9:33

To me it makes no sense - no other code or hardware could possibly know where the local variable is located (since it's in automatic storage)

Really? So if I write an x86 emulator and run your code on it, then that emulator won't know about that local variable?

The implementation can never actually know for sure that the behaviour is unobservable.

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Well, the program does push ecx to make room for that variable. How would the emulator know it is done for this purpose and not to just preserve ecx? – sharptooth Sep 26 '11 at 9:53
FWIW, I think actual compilers can be a bit unreliable about volatile reads. So I wouldn't be surprised if an emulator (or an examination of the assembly) would in practice reveal issues in, for example, volatile int a = 0; (void)a; (void)(a+a); – Steve Jessop Sep 26 '11 at 14:36

no other code or hardware could possibly know

You can look a the assembly (you just did!), figure out the address of the variable, and map it to some hardware for the duration of the call. volatile means the implementation is obliged to account for such things too.

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