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Unlike protected inheritance, C++ private inheritance found its way into mainstream C++ development. However, I still haven't found a good use for it.

When do you guys use it?

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11 Answers 11

up vote 33 down vote accepted

Note after answer acceptance: This is NOT a complete answer. Read other answers like here (conceptually) and here (both theoretic and practic) if you are interested in the question. This is just a fancy trick that can be achieved with private inheritance. While it is fancy it is not the answer to the question.

Besides the basic usage of just private inheritance shown in the C++ FAQ (linked in other's comments) you can use a combination of private and virtual inheritance to seal a class (in .NET terminology) or to make a class final (in Java terminology). This is not a common use, but anyway I found it interesting:

class ClassSealer {
private:
   friend class Sealed;
   ClassSealer() {}
};
class Sealed : private virtual ClassSealer
{ 
   // ...
};
class FailsToDerive : public Sealed
{
   // Cannot be instantiated
};

Sealed can be instantiated. It derives from ClassSealer and can call the private constructor directly as it is a friend.

FailsToDerive won't compile as it must call the ClassSealer constructor directly (virtual inheritance requirement), but it cannot as it is private in the Sealed class and in this case FailsToDerive is not a friend of ClassSealer.


EDIT

It was mentioned in the comments that this could not be made generic at the time using CRTP. The C++11 standard removes that limitation by providing a different syntax to befriend template arguments:

template <typename T>
class Seal {
   friend T;          // not: friend class T!!!
   Seal() {}
};
class Sealed : private virtual Seal<Sealed> // ...

Of course this is all moot, since C++11 provides a final contextual keyword for exactly this purpose:

class Sealed final // ...
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That's a great technique. I will write an blog entry on it. –  Sasha Mar 18 '09 at 1:14
    
Question: if we didn't use virtual inheritance, then FailsToDerive would compile. Correct? –  Sasha Mar 18 '09 at 1:15
3  
+1. @Sasha: Correct, virtual inheritance is needed since the most-derived class always calls the constructors of all virtually inherited class directly, which is not the case with plain inheritance. –  j_random_hacker Mar 18 '09 at 8:23
3  
This can be made generic, without making a custom ClassSealer for every class you want to seal! Check it out: class ClassSealer { protected: ClassSealer() {} }; that's all. –  Iraimbilanja Mar 18 '09 at 8:23
    
+1 Iraimbilanja, very cool! BTW I saw your earlier comment (now deleted) about using the CRTP: I think that should in fact work, it's just tricky to get the syntax for template friends right. But in any case your non-template solution is much more awesome :) –  j_random_hacker Mar 18 '09 at 8:36

I use it all the time. A few examples off the top of my head:

  • When I want to expose some but not all of a base class's interface. Public inheritance would be a lie, as Liskov substitutability is broken, whereas composition would mean writing a bunch of forwarding functions.
  • When I want to derive from a concrete class without a virtual destructor. Public inheritance would invite clients to delete through a pointer-to-base, invoking undefined behaviour.

A typical example is deriving privately from an STL container:

class MyVector : private vector<int>
{
public:
    // Using declarations expose the few functions my clients need 
    // without a load of forwarding functions. 
    using vector<int>::push_back;
    // etc...  
};
  • When implementing the Adapter Pattern, inheriting privately from the Adapted class saves having to forward to an enclosed instance.
  • To implement a private interface. This comes up often with the Observer Pattern. Typically my Observer class, MyClass say, subscribes itself with some Subject. Then, only MyClass needs to do the MyClass -> Observer conversion. The rest of the system doesn't need to know about it, so private inheritance is indicated.
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2  
Wow, this answer is excellent. +1 –  Krsna Jul 20 '09 at 15:40
2  
@Krsna: Actually, I don't think so. There is only one reason here: laziness, apart from the last, which would be trickier to work around. –  Matthieu M. Jan 7 '11 at 8:51
5  
Not so much laziness (unless you mean it in the good way). This allows creation of new overloads of functions that have been exposed without any extra work. If in C++1x they add 3 new overloads to push_back, MyVector gets them for free. –  David Stone Dec 22 '12 at 1:20

The canonical usage of private inheritance is the "implemented in terms of" relationship (thanks to Scott Meyers' 'Effective C++' for this wording). In other words, the external interface of the inheriting class has no (visible) relationship to the inherited class, but it uses it internally to implement its functionality.

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3  
May be worth mentioning one of the reasons why it is used in this case: This allows the empty base class optimization to be performed, which won't occur if the class had been a member instead of a base class. –  jalf Mar 17 '09 at 22:10
2  
its main use is to reduce space consumption where it really matters, e.g. in policy controlled string classes or in compressed pairs. actually, boost::compressed_pair used protected inheritance. –  Johannes Schaub - litb Mar 17 '09 at 22:12
    
jalf: Hey, I didn't realize that. I thought nonpublic inheritance was mainly used as a hack when you need access to a class's protected members. I wonder why an empty object would take up any space when using composition though. Probably for universal addressability... –  Iraimbilanja Mar 17 '09 at 22:16
2  
It's also handy to make a class uncopyable - simply privately inherit from an empty class that's not copyable. Now you don't have to go through the busy work of declaring but not defining a private copy constructor & assignment operator. Meyers talks about this, too. –  Michael Burr Mar 17 '09 at 22:18
    
i didn't realize this question actually is about private inheritance instead of protected inheritance. yeah i guess there are quite a bit of applications for it. can't think of many examples for protected inheritance though :/ looks like that's only rarely useful. –  Johannes Schaub - litb Mar 17 '09 at 22:30

I think the critical section from the C++ FAQ Lite is:

A legitimate, long-term use for private inheritance is when you want to build a class Fred that uses code in a class Wilma, and the code from class Wilma needs to invoke member functions from your new class, Fred. In this case, Fred calls non-virtuals in Wilma, and Wilma calls (usually pure virtuals) in itself, which are overridden by Fred. This would be much harder to do with composition.

If in doubt, you should prefer composition over private inheritance.

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I never use it

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Whoa! How many of you -1ers have used private inheritance? This post is a valid data point. I'll wager that 90% of C++ programmers never use private inheritance, and never need to. –  j_random_hacker Mar 18 '09 at 8:51
1  
I've only used it for boost::noncopyable. The answer is not helpful though. –  Iraimbilanja Mar 18 '09 at 10:50
3  
I up voted this. The question was "When do you guys use it?" and "I never use it" is a perfectly valid answer. –  bias Mar 21 '09 at 19:46
2  
Not only is it an answer, it's the best answer. –  Cameron Pope Mar 23 '09 at 21:11
1  
I have not downvoted and I have used private inheritance. Did not downvote as I cannot tell whether your answer is right or wrong, at the end only you know if you have used it or not :) –  David Rodríguez - dribeas Mar 24 '09 at 9:24

One useful use of private inheritence is when you have a class that implements an interface, that is then registered with some other object. You make that interface private so that the class itself has to register and only the specific object that its registered with can use those functions.

For example:

class FooInterface
{
public:
    virtual void DoSomething() = 0;
};

class FooUser
{
public:
    bool RegisterFooInterface(FooInterface* aInterface);
};

class FooImplementer : private FooInterface
{
public:
    explicit FooImplementer(FooUser& aUser)
    {
        aUser.RegisterFooInterface(this);
    }
private:
    virtual void DoSomething() { ... }
};

Therefore the FooUser class can call the private methods of FooImplementer through the FooInterface interface, while other external classes cannot. This is a great pattern for handling specific callbacks that are defined as interfaces.

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Indeed, private inheritance is private IS-A. –  curiousguy Dec 24 '11 at 6:48

I find it useful for interfaces (viz. abstract classes) that I'm inheriting where I don't want other code to touch the interface (only the inheriting class).

[edited in an example]

Take the example linked to above. Saying that

[...] class Wilma needs to invoke member functions from your new class, Fred.

is to say that Wilma is requiring Fred to be able to invoke certain member functions, or, rather it is saying that Wilma is an interface. Hence, as mentioned in the example

private inheritance isn't evil; it's just more expensive to maintain, since it increases the probability that someone will change something that will break your code.

comments on the desired effect of programmers needing to meet our interface requirements, or breaking the code. And, since fredCallsWilma() is protected only friends and derived classes can touch it i.e. an inherited interface (abstract class) that only the inheriting class can touch (and friends).

[edited in another example]

This page briefly discusses private interfaces (from yet another angle).

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Doesn't really sound useful... can you post an example –  Iraimbilanja Mar 17 '09 at 22:41
    
I think I see where you're going... A typical use case might be that Wilma is some type of utility class that needs to call virtual functions in Fred, but other classes need not know that Fred is implemented-in-terms-of Wilma. Right? –  j_random_hacker Mar 18 '09 at 8:48
    
Yes. I should point out that, to my understanding, the term 'interface' is more commonly used in Java. When I first heard of it I thought it could have been given a better name. Since, in this example we have an interface that no one interfaces with in the way that we normally think of the word. –  bias Mar 18 '09 at 14:48
    
@Noos: Yes I think your statement "Wilma is an interface" is a bit ambiguous, as most people would take this to mean that Wilma is an interface that Fred intends to supply to the world, rather than a contract with Wilma only. –  j_random_hacker Mar 19 '09 at 6:51
    
@j_ That's why I think interface is a bad name. Interface, the term, needn't mean to the world as one would think, but rather is a guarantee of functionality. Actually, I was contentious about the term interface in my Program Design class. But, we use what we are given ... –  bias Mar 19 '09 at 21:18

Sometimes it could be as alternative for aggregation, for example if you want aggregation but with changed behaviour of aggrigable entity (with overriding virtual function).

But you right it have not many explamples from real world.

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Just because C++ has a feature, doesn't mean it's useful or that it should be used.

I'd say you shouldn't use it at all.

If you're using it anyway, well, you're basically violating encapsulation, and lowering cohesion. You're putting data in one class, and adding methods that manipulates the data in another one.

Like other C++ features, it can be used to achieve side effects such as sealing a class (as mentioned in dribeas' answer), but this doesn't make it a good feature.

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wow... very insightful +1 –  Sasha Mar 23 '09 at 21:44
    
are you being sarcastic? all I have is a -1! anyway I will not delete this even if it gets -100 votes –  hasenj Mar 24 '09 at 1:02
    
wonder how hiding details breaks encapsulation... –  David Rodríguez - dribeas Mar 24 '09 at 9:22
    
wonder no longer, I edited the answer. –  hasenj Mar 24 '09 at 19:58
4  
"you're basically violating encapsulation" Can you give an example? –  curiousguy Dec 24 '11 at 6:47

Sometimes I find it useful to use private inheritance when I want to expose a smaller interface (e.g. a collection) in the interface of another, where the collection implementation requires access to the state of the exposing class, in a similar manner to inner classes in Java.

class BigClass;

struct SomeCollection
{
    iterator begin();
    iterator end();
};

class BigClass : private SomeCollection
{
    friend struct SomeCollection;
    SomeCollection &GetThings() { return *this; }
};

Then if SomeCollection needs to access BigClass, it can static_cast<BigClass *>(this). No need to have an extra data member taking up space.

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There's no need for the forward declaration of BigClass is there in this example? I find this interesting, but it screams hackish in my face. –  Thomas Eding Oct 28 '11 at 18:16

If derived class - needs to reuse code and - you can't change base class and - is protecting its methods using base's members under a lock.

then you should use private inheritance, otherwise you have danger of unlocked base methods exported via this derived class.

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