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Recently I came across following question. I could not figure out the reason.Could anyone point out me.

What is the parent class of “Buffered”? Why do you think this was chosen as the parent class? What is the main limitation to using this parent class?

Sample Code

template <typename T>
class Buffered : private boost::noncopyable
explicit Buffered (const T& value = T()) 
    : current_ (value), next_ (value) {}

virtual ~Buffered() {}

const T& get() const {
    return current_;

void set (const T& value) {
    next_ = value;

void skip() {

void force(const T& value) {
    next_ = current_ = value;

void flip() {
    current_ = next_;

T current_;
T next_;
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You have asked seven other questions and not once have you accepted an answer. Please accept the appropriate answers. –  josephthomas Apr 13 '12 at 3:29
May know from where I can accept answer. I did not find any link. I always got feedback button which I always used to give vote –  user765443 Apr 13 '12 at 3:32
@user765443: How does accepting an answer work? –  Alok Save Apr 13 '12 at 3:35
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2 Answers

up vote 3 down vote accepted

If you don't want your users to be able to create any instances of your class(Buffered in this case) through copying you derived your class from boost::noncopyable.
In short it makes your class non-copyable.

The boost doccumentation states the purpose clearly:

// Private copy constructor and copy assignment ensure classes derived from
// class noncopyable cannot be copied.

If you are not using boost, then you can make your class non-copyable by:

  • Declaring the class copy constructor and copy assignment operator private &
  • Not providing any definition for both of them.

The first gives you a compilation error if someone tries to copy your class instance while,
The second guards you against copying indirectly through friends by giving an linking error.

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In C++11, you can also say something like

class Class {
    Class (Class const & other) = delete;

Then you get a compile-time error, rather than a linker error if you try to access it with member functions / friend functions.

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