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Suppose I want to have an inheritance hierarchy like this.

class Base

class DerivedOne : public Base

class DerivedTwo : public Base

The base class is not meant to be instantiated, and thus has some pure virtual functions that the derived classes must define, making it an abstract base class.

However, there are some functions that you would like your derived classes to get from your base class. These functions modify private data members that both DerivedOne and DerivedTwo will have.

class Base {
      virtual void MustDefine() =0; // Function that derived classes must define
      void UseThis(); // Function that derived classes are meant to use

However, the UseThis() function is meant to modify private data members. That's where the question comes in. Should I give the Base class dummy private data members? Should I give it protected data members (and thus the derived classes won't declare their own private data members). I know the second approach will decrease encapsulation.

What is the best approach to a situation like this? If a more detailed explanation is needed I'd be happy to provide it.

share|improve this question
If UseThis is in Base it can only modify private variables in Base so make the variables private in Base - what are you expecteing to happen in Derived? – Mark Nov 1 '09 at 20:00
I want to define functions that both Derived classes can use. Otherwise I wouldn't even bother with inheritance. – Anonymous Nov 1 '09 at 20:02
The other option would just be to define a non member function that the classes can pass their private data members to as references. – Anonymous Nov 1 '09 at 20:04
I would strongly recommend against a non-member function doing work on private data of a class. That completely defies the concept of both encapsulation AND cohesion of data and code (i.e. object-oriented design). – digitalarbeiter Nov 1 '09 at 20:43
Yes. However, it seems like all of this could be avoided by just giving the base class private dummy members. Is this bad form or something? – Anonymous Nov 1 '09 at 20:53

If those member variables are supposed to exist in all derived classes then you should declare them in the base class. If you are worried about encapsulation, you can make them private and provide protected accessor methods for derived classes.

share|improve this answer
+1 for protected accessors – alexkr Nov 1 '09 at 20:07
Thanks. This is a great option that I didn't even consider. – Anonymous Nov 1 '09 at 20:16
However, then wouldn't the UseThis() function have to be virtual because I would need to modify it to use the accessors? Unless I implemented the accessors in the base class version as well? – Anonymous Nov 1 '09 at 20:21
If UseThis is the only way derived classes are allowed to modify private variables, you can choose not to provide set accessors. Derived classes would use UseThis directly to modify the variables. If they ever need to read the values of those variables, you can provide protected get accessors. I can't see why you might need to make UseThis virtual (assuming its implementation is similar for all derived classes). – Mehrdad Afshari Nov 1 '09 at 20:25
What I'm saying is that the base class's UseThis implementation would be accessing the members directly. The derived class's wouldn't be able to use the implementation because they can't access the member's directly. – Anonymous Nov 1 '09 at 20:29

Another five cents: the good practice is to have abstract interface class which has no other members, but only public pure virtual methods and often public virtual destructor. Then you create base implementation which can also be abstract but can have protected fields, etc.

In you case it would be something like:

class IBlaBla;

class BlaBlaBase : public IBlaBla;

class DerivedOne : public BlaBlaBase

class DerivedTwo : public BlaBlaBase

This allows you to have more flexibility in the future if you decide that Base is no longer good for some specialized task.

Should I give the Base class dummy private data members?

If you can implement a part of functionality without exposing the details to the derived classes, then do it in base class. If your derived classes would need access to these members, provide setters and getters. However, it is not convenient to have setters available for derived classes because your code becomes tightly coupled.

share|improve this answer
That is the recommended practice, but I have seen several cases in which it really does make sense to have data members in the abstract base class. I do think that any design that results in private data members in the base class should be thought about carefully though. – Omnifarious Nov 1 '09 at 20:21
@Omnifarious, yeah, I just updated the post. The idea is that it is fine to have private members in base class, but it is not good to change these fields from derived. If you are sure that derived classes would not need to change the private things, then it is fine to have them in base class. – alexkr Nov 1 '09 at 20:24

Encapsulation is sometimes overrated. If your base class and derived classes need to access those members, then they should probably be protected, not private. If it really is something that needs to be encapsulated, then you may want to make them private but provide getters and setters (either make them private to Base, with getters and setters defined there, or private to the derived classes, with pure virtual getters and setters in Base).

It's a bit hard to give you more specific advice without knowing about the actual problem you're trying to solve.

share|improve this answer

You will have to define Base::UseThis(), in the body of which you will make use of Base's fields (which you will also need to declare in the class definition above). If you only need to access them in UseThis, they can be private. If DerivedOne/Two will need access to them, you should make them protected.

share|improve this answer

Here is a possible resolution to your dilemna:

class Base {
   virtual ~Base() {}

   virtual void redefine_me() = 0;
   void utility_function();

   virtual int get_data_member() = 0;
   virtual void set_data_member(int v) = 0;

class Derived1 : public Base {
   virtual void redefine_me() { do_d1_stuff(); }

   int my_private_idaho_;
   virtual int get_data_member() { return my_private_idaho_; }
   virtual void set_data_member(int v) { my_rpviate_idaho_ = v; }

class Derived2 : public Base {
   virtual void redefine_me() { do_d2_stuff(); }

   int gomer_pyle_;
   virtual int get_data_member() { return gomer_pyle_; }
   virtual void set_data_member(int v) { gomer_pyle_ = v; }

void Base::utility_function()
   set_data_member(get_data_member() + 1);

It's biggest disadvantage is that now access to the private data member is mediated by a virtual function call, which isn't the cheapest thing around. It's also hidden from the optimizer.

This means that if you choose it, you should adopt a pattern where you fetch the private data member into a local variable at the beginning of your utility function and set it from the local variable before you return. Of course some utility functions may call out to functions that require the object state to be updated before they're called, and this pattern would then have to be modified to account for that. But then again, such utility functions are likely not to be able to satisfy the strong exception handling guarantee and should be rethought anyway.

share|improve this answer

It looks as if you need some interface for client code, and some 'convenient' functionality for implementors of the interface, which they can only use if they follow the rule of calling the useThis function of the convenience layer, which will tweak their private members.

Whenever I gave in to the temptation of putting the convenience functionality in my abstract base class, I regretted it (soon!) afterwards. It takes away a lot of flexibility. The solution proposed by AlexKR makes this situation slightly better.

An alternative way of doing this is providing some convenience class that implementers of the interface can aggregate instead of inheriting it. It can provide a function taking the implementer's members as arguments.

class Interface { public: virtual void f() = 0; };

class Convenience { 
   void tweakMyMembers( int& member1, float& member2 ); 
   bool somestate;

class Implementor : public Interface {
   int m1; float m2;
   public: Implementor( bool b ): conv( b ) {}

   virtual void f() { conv.tweakMyMembers( m1, m2 ); if( m1<m2 ) dothis(); }
share|improve this answer
I take it that the Implementor class is meant to have a member variable named conv, that is a Convenience object? – Jeremy Friesner Nov 2 '09 at 4:43
@Jeremy: if the convenience needs state, the Implementor needs to aggregate it. Otherwise, the convenience may even be a set of functions. – xtofl Nov 2 '09 at 6:33

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