Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Just a question. Looking at C++ Boost libraries (in particular boost::thread class) I ended up thinking: "how is it possible to create a class defining objects that cannot be copied but that can be returned from a function?"

Well consider this example, the boost::thread class has the characteristics I mentioned before, so it is possible to do this:

boost::thread make_thread();

void f()
{
    boost::thread some_thread=make_thread();
    some_thread.join();
}

Well this means that the object boost::thread cannot be copied, but returned from a function, this is possible. How is this possible????

I suppose that a copy constructor must not be provided, but how to deal with returning from a function? doesn't it need to use a copy constructor???

Thankyou

share|improve this question

2 Answers 2

This will be possible in C++1x, which provides move semantics via rvalue references. Using this you can implement moving and/or copying separatedly:

class my_class {
  private:
    data_t* data_;
  public:
    my_class(const my_class& rhs)      // copy constructor
     : data_(rhs.data_.clone())
    {}
    my_class(my_class&& rhs)           // move constructor
     : data_(rhs.data_)
    {
      rhs.data_ = NULL;
    }
    ~my_class() {delete data_;}        // noop if data_==NULL

    my_class& operator=(my_class rhs)  // copy assignment
    {
      this->swap(rhs);
    }
    my_class& operator=(my_class&& rhs)// move assignment
    {
      this->swap(rhs);
    }

    // ...
};

Copying and moving can be forbidden separately, so you can setup classes that can be moved, but not copied.

Of course, there are a few magical tricks that let you do this even when your compiler doesn't yet support move semantics (std::auto_ptr, after all moves instead of copying when assigned to), so this might work for boost::thread even in the absence of move semantics.

share|improve this answer
    
What's c++1x? I can see c1x and c++0x on the internet, but not c++1x. Is it shorthand for both of them? –  Alex Brown Nov 23 '10 at 19:57
1  
@Alex - it's smart-ass speak for the fact that it's already 2010 and they haven't released. There's a smarter-ass counter: 0x is hexidecimal. –  Crazy Eddie Nov 23 '10 at 19:59
    
@Alex: It used to be named C++0x, because it was expected before 2010, but this didn't work out. Many still stick to "C++0x", even though it will likely end up as C++11 or C++12. –  sbi Nov 23 '10 at 19:59
2  
@sbi: I think most committee members and compiler implementers still refer to it as C++0x, so I think it'd be more fair to say that it is named C++0x because it was expected before 2010. But that's just nitpicking. :) –  jalf Nov 23 '10 at 21:02
1  
@sbi: Ah, right. In that case I correct my previous comment: its name will be "ISO/IEC 14882: Programming Language C++", the same as C++98 and C++03. Which can't possibly cause any confusion :-) –  Steve Jessop Nov 24 '10 at 11:31

This is an advanced topic of C++ if you want to do this in C++03. See Howard Hinnants Unique_ptr C++03 emulation for an example of that.

It basically works by abusing several subtle rules in C++ overload resolution, in particular the rule that non-const references cannot bind to rvalue temporaries and that non-const conversion functions can still be called on non-const temporaries.

You can also use the auto_ptr technique as employed by C++03, which however is seen as broken by several groups because auto_ptr lets you copy variables, but steal resources from the copied-from object (other groups have other opinions about this).

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.