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Consider a point class, with declarations like:

// Point.h
class Point {
    public:
        Point();                           // Default constructor
        Point(const Point & p);            // Copy constructor
        Point & operator=(Point source);   // Copy assignment operator, needs implemented
        ~Point();                          // Destructor
    // ...
    private:
        double m_x;                        // X coordinate
        double m_y;                        // Y coordinate
};

For the homework, the only thing I have left to implement is the copy assignment operator.
The canonical answer for how to do this is the copy-and-swap idiom.

Using the swap function for copy assignment solves one problem and creates another (how to implement the swap function).

While I don't feel a need to provide a swap function, I wouldn't know how best to implement swap anyway. Is it to specialize std::swap? I know about neither namespaces nor template specialization yet.

Formally, my question is two-fold:

  1. How should copy assignment be implemented? If it uses a swap function, how should I implement that?
  2. In the wild, would I simply not write the Big Three members, as the Point class is simply two numbers? Will the compiler write the operations correctly and optimally?
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Is the compiler-generated operator not sufficient here? You have no resources that your class is managing. –  Oli Charlesworth Jul 15 '12 at 21:53
    
The compiler generated version should be sufficient here. But the homework asked for implementations of all three, for practice. –  Prashant Kumar Jul 15 '12 at 21:54
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2 Answers

up vote 2 down vote accepted
  1. Copy-and-swap is best practice. If you don't want to override std::swap because you're unfamiliar with templates, then you can also write a swap_points function or a Point::swap(Point &other) member function.

    The implementation of that (member) function is very simple: just call std::swap on all of the members.

  2. Yes, implementing the Big Three yourself for this class is really an academic exercise.

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The naive works here, because Point doesn't manage any resources.
Simply copying the double values won't throw an exception, so this code is exception-safe (and in turn is self-assignment safe).

// Point.cpp

Point & operator=(Point source);
    m_x = source.m_x;
    m_y = source.m_y;

    return *this;
}
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True, but this leads to duplicate code once you decide you do want std::swap overloaded on your class. –  larsmans Jul 15 '12 at 22:00
    
Definitely agreed, I just wanted to check if my reasoning was correct. –  Prashant Kumar Jul 15 '12 at 22:01
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