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I am creating a little program measure the performance difference between containers of types boost::shared_ptr and boost::intrusive_ptr. In order to prevent the compiler from optimizing away the copy I declare the variable as volatile. The loop looks like this:

// TestCopy measures the time required to create n copies of the given container.
// Returns time in milliseconds.
template<class Container>
time_t TestCopy(const Container & inContainer, std::size_t n) {
    Poco::Stopwatch stopwatch;
    for (std::size_t idx = 0; idx < n; ++idx)
        volatile Container copy = inContainer; // Volatile!

    // convert microseconds to milliseconds
    return static_cast<time_t>(0.5 + (double(stopwatch.elapsed()) / 1000.0));

The rest of the code can be found here: main.cpp.

  • Will using volatile here prevent the compiler from optimizing away the copy?
  • Are there any pitfalls that may invalidate the results?


In response to @Neil Butterworth. Even when using the copy it still seems to me that the compiler could easily avoid the copy:

for (std::size_t idx = 0; idx < n; ++idx)
    // gcc won't remove this copy?
    Container copy = inContainer;
    gNumCopies += copy.size();        
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Does using -O0 and the -g flags in the compiler not work? I don't think using volatile is the right approach here. –  RC. May 25 '11 at 19:56
@RC Instead of profiling with -O0 you can just guess the performance impact instead. The result similarly has no bearing on a realistic scenario. –  Konrad Rudolph May 25 '11 at 19:58
@RC I'm not sure. I know that optimizations like RVO will kick in even when using -O0 (see stackoverflow.com/questions/4767620/… ). –  StackedCrooked May 25 '11 at 19:59
If the copy constructer has side-effects, is the compiler even allowed to optimize away the copy? –  Robᵩ May 25 '11 at 20:00
@Rob Yes, it certainly is. –  nbt May 25 '11 at 20:01

3 Answers 3

up vote 5 down vote accepted

The C++03 standard says that reads and writes to volatile data is observable behavior (C++ 2003, 1.9 [intro.execution] / 6). I believe this guarantees that assignment to volatile data cannot be optimized away. Another kind of observable behavior is calls to I/O functions. The C++11 standard is even more unambiguous in this regard: in 1.9/8 it explicitly says that

The least requirements on a conforming implementation are:
— Access to volatile objects are evaluated strictly according to the rules of the abstract machine.

If a compiler can prove that a code does not produce an observable behavior then it can optimize the code away. In your update (where volatile is not used), copy constructor and other function calls & overloaded operators might avoid any I/O calls and access to volatile data, and the compiler might well understand it. However if gNumCopies is a global variable that later used in an expression with observable behavior (e.g. printed), then this code will not be removed.

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Volatile is unlikely to do what you expect for a non-POD type. I would recommend passing a char * or void * aliasing the container to an empty function in a different translation unit. Since the compiler is unable to analyze the usage of the pointer, this will act as a compiler memory barrier, forcing the object out to the processor cache at least, and preventing most dead-value-elimination optimizations.

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Why should it? The best solution is to use the container in some way, like by adding its size to a global variable.

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It still seems likely that the compiler could optimize away the copy here. See my edit for a code sample. –  StackedCrooked May 25 '11 at 20:09
OH, OK - then call a function on the copy and the original. –  nbt May 25 '11 at 20:28

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