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We can probably agree that default copy construction is bad most of the time in C++, so it's better to disable it explicitly with either C++11 =delete or non-copyable classes like boost::noncopyable.

The question is, what happens in advanced scenarios when we use multiple inheritance or public abstract classes?

//Class uncopyable
class uncopyable {...};

class IInterface1 : private uncopyable
 virtual ~IInterface1(...) = 0;

class IInterface2 : private uncopyable
 virtual ~IInterface2(...) = 0;

//Fancy implementation
class FImpl : public IInterface1, public IInterface2, private : uncopyable
 FImpl(...) {...}
 ~FImpl(...) {...};
  • Is it a good practice to make every interface non-copyable (it seems it is, to avoid slicing)?
  • Is it a good practice to add non-copyable to every derived class (explicit safeguard, but causes multiple inheritance and diamond problems?)
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Your interfaces do not look like interfaces at all. They define constructors, and have no pure virtual methods (only some sort of destructor that looks like a syntax violation). –  Juliano Aug 4 '12 at 15:17
~IInterface1(...) = 0 is just syntax error. And you do not want to make the destructors pure virtual. –  Cheers and hth. - Alf Aug 4 '12 at 15:19
Ok, fixed. Using pseudocode, not a real code. –  Coder Aug 4 '12 at 15:21
Default copy construction isn't bad, most of the time. In a few cases it is. Starting your question that way doesn't help the discussion. –  Ben Voigt Aug 4 '12 at 15:30
@Coder: The Google guidelines are not general purpose, they appear to be optimized for the Google team (which I guess includes a lot more Java expertise than C++). Rule of three says that default copy constructor is only bad if you define a custom assignment operator or destructor, which is not most classes. –  Ben Voigt Aug 4 '12 at 15:43

2 Answers 2

No, it's not a good idea to make interface non-copyable. For example, that prevents cloning.

And no, it's not a good idea to derive from non-copyable in every derived class, because it's just redundant.

However, in order to stop especially Visual C++ from spewing out silly-warnings, it can be a good idea to declare a copy constructor and copy assignment operator in every class that should be non-copyable.

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What is cloning? Code like IInterface1 *ptr = new FImpl(); IInterface1 instA = *ptr; is wrong as far as I know? –  Coder Aug 4 '12 at 15:24
@Coder: it's very often a good idea to check the FAQ –  Cheers and hth. - Alf Aug 4 '12 at 15:27
Ok, it's good to know such approach exists, never heard of it before. However, I usually try to avoid cloning, as this usually means deep copies, critical section locks, nontrivial copy constructors (how do you copy a locked mutex, or handle to a GDI brush?), and so on. I usually use references to const whenever possible. –  Coder Aug 4 '12 at 15:57

A pure virtual (interface) class has no need to enforce the memory management for the use of the interface. Implementations of pure virtual interfaces should determine their own memory management requirements (like copy and assign).

That said, value semantics allow implementations to avoid this situation entirely. A value class (copyable, assignable, etc.) is easier to reason about and use. All of the classes in the C++ library are value classes. A good example of a value class managing memory for itself is the venerable string class. Vector is also a good example. These classes have complex internal memory management requirements, yet, as a user of these classes, I don't have to be concerned with that aspect of the class. I can focus on how to use the class.

I like this presentation from C++ Now that shows how polymorphism is also an implementation detail. This includes the ability for a client to implement classes that can participate in the polymorphism without requiring an interface class (or any base class for that matter).

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But string and vector are classes you can't derive other classes from. –  Coder Aug 5 '12 at 1:26

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