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I cannot set a variable or change it while it is defined volatile (in Main). Removing volatile solves the problem, but I need my variable to be volatile.

My tries:

Really a lot of tries out there. Overloading operator=, making new operator= volatile, making new volatile method. Nothing actually worked so far.

My main:

int main() {
    volatile PlaceParentConversion s(10.0); // remove volatile = no errors
    std::cout << s.mX << std::endl;
    s = PlaceParentConversion::IDENTITY_CONVERSION;
    std::cout << s.mX << std::endl;
    return 0;

My class:

class PlaceParentConversion {
public: //all public, easier to check
    const static PlaceParentConversion IDENTITY_CONVERSION;
    double mX;
    PlaceParentConversion(const double x);
    PlaceParentConversion(const PlaceParentConversion& other);

const PlaceParentConversion PlaceParentConversion::IDENTITY_CONVERSION(0);

PlaceParentConversion::PlaceParentConversion(const double x) : mX(x) {}
PlaceParentConversion::PlaceParentConversion(const PlaceParentConversion& other) : mX(other.mX) {}


‘volatile PlaceParentConversion’ as ‘this’ argument of ‘PlaceParentConversion& PlaceParentConversion::operator=(const PlaceParentConversion&)’ discards qualifiers [-fpermissive] 
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Bit strange to use volatile for a class-type (let alone at all)...what for? –  GManNickG Jul 26 '12 at 16:53
It was -written as AtomicReference variable in Java, now I need to re-write it to C++. The reason is to disable 'caching' this variable, because it might have been changed by a server. I don't know exactly how, will ask tomorrow and reply. –  Benjamin Jul 26 '12 at 20:00

2 Answers 2

up vote 2 down vote accepted

Define a volatile assignment operator:

Foo volatile & operator=(Foo const & rhs) volatile
    // ...
    return *this;

(I've shortened your class name for readability.)

Here's a more complete example:

struct Foo
    Foo() { }
    Foo(Foo const volatile &) { }
    Foo volatile & operator=(Foo const &) volatile
    { return *this; }

int main()
    volatile Foo x;
    Foo y;
    static_cast<Foo>(x = y);

The static cast in the final line makes GCC not issue a warning that no access is happening to the volatile object which is the result of the evaluation of the assignment expression: the standard says that in a void context there is no lvalue-to-rvalue conversion and thus no access. We make the conversion explicit.

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does static_cast only disable a gcc warning? Or should it be used because it preserves app from some troubles? –  Benjamin Jul 26 '12 at 20:03
@Benjamin: As far as I can tell, the difference is whether or not the volatile variable is "accessed", and that only happens when lvalue-to-rvalue conversion takes place. I don't suppose it has any practical relevance, though. –  Kerrek SB Jul 26 '12 at 21:15

Yeah, it's correct, since you have no volatile PlaceParentConversion& operator =(const PlaceParentConversion&) volatile;

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