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Consider the following code:

class Base
{
public:
    virtual void Foo() {}
};

class Derived : public Base
{
private:
    void Foo() {}
};

void func()
{
    Base* a = new Derived;
    a->Foo(); //fine, calls Derived::Foo()

    Derived* b = new Derived;
//  b->Foo(); //error
    static_cast<Base*>(b)->Foo(); //fine, calls Derived::Foo()
}

I've heard two different schools of thought on the matter:

1) Leave accessibility the same as the base class, since users could use static_cast to gain access anyway.

2) Make functions as private as possible. If users require a->Foo() but not b->Foo(), then Derived::Foo should be private. It can always be made public if and when that's required.

Is there a reason to prefer one or the other?

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1  
This design is very counter-intuitive for the reasons you mention. I would advise against it unless you encounter a scenario that can only be solved this way. –  Björn Pollex Apr 27 '12 at 6:52
    
If your intent is to restrict direct usage of the derived class (e.g. Factory pattern), then protected or private inheritance is more appropriate way (instead of restricting particular methods) –  user396672 Apr 27 '12 at 7:47

3 Answers 3

up vote 6 down vote accepted

Restricting access to a member in a subtype breaks the Liskov substitution principle (the L in SOLID). I would advice against it in general.

Update: It may "work," as in the code compiles and runs and produces the expected output, but if you are hiding a member your intention is probably making the subtype less general than the original. This is what breaks the principle. If instead your intention is to clean up the subtype interface by leaving only what's interesting to the user of the API, go ahead and do it.

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2  
I don't think this break the substitution principle. You can still use a reference to Derived anywhere a reference to Base is required, and it will work just fine. –  Björn Pollex Apr 27 '12 at 6:50
    
@BjörnPollex I was going to reply by comment but then realised the answer would benefit from an update. –  Joni Apr 27 '12 at 7:16
1  
+1, however, I'd mention that it may be applied only to public inheritance which usually is a mechanism to model is_a relationship. To restrict direct access to the derived class private or protected inheritance should be use (instead of restricting access to particular members). –  user396672 Apr 27 '12 at 7:38
1  
@BjörnPollex: "can still usa a reference to Derived..." - true, but if you have a template taking that reference without forcing it back to a Base&, or a Base object by value, then you can't pass it a Derived object. These scenarios might not be the home ground for LSP, but the concepts in LSP remain applicable and should be honoured where possible. Hiding the virtual function unnecessarily frustrates CPU/memory tuning using a mix of runtime and compile-time polymorphic mechanisms. –  Tony D Apr 27 '12 at 7:48
2  
@Jon: that depends very much on how you package and distribute your code. If some customer calls you up and says, "the need has just arisen", then can you push a new release out of the door fast enough for them? And at least in theory, changing a member function from private to public could break binary compatibility, although I suspect in practice you'll be OK in pretty much any executable format. Given that there's a workaround, I think it's better to either support it or not support it, don't think as though it's available even when it isn't, on the basis that you could add it later. –  Steve Jessop Apr 27 '12 at 8:30

Not an answer to your original question, but if we are talking about classes design...

As Alexandrescu and Sutter recommend in their 39th rule, you should prefer using public non-virtual functions and private/protected virtual:

class Base {
public:
    void Foo(); // fixed API function

private:
    virtual void FooImpl(); // implementation details
};

class Derived {
private:
    virtual void FooImpl(); // special implementation
};
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You could reasonably put the implementation of Base::Foo right there in the class definition, void Foo() { FooImpl(); }. It's never going to be more than a predictable one-liner, that's the point. –  Steve Jessop Apr 27 '12 at 8:35
    
@SteveJessop Agree, if FooImpl() is really just an implemetation for Foo. In real life it may be a part of Foo's algorithm with fixed structure but some floating details. And sometimes, corporate coding standards may forbid implementation in class declaration even for one-liners :) –  anxieux Apr 27 '12 at 8:41
1  
@SteveJessop: Actually, NO! The point is that you can change Foo at will to include pre/post treatment before calling the virtual function. It it was always a one-liner, it would be quite pointless to include an extra wrapper! –  Matthieu M. Apr 27 '12 at 8:51
3  
@anxieux: the issue with inlined one-liners is inlining. Any change therefore requires all clients to re-compile. Within the library, it's clearly not an issue, however when you deliver middleware libraries to your users, you want to be able to say "just switch to this new library" rather than "switch to the new library, and oh, you need to recompile and deliver a new version of your libraries too". It's a matter of ABI compatibility. –  Matthieu M. Apr 27 '12 at 8:54
    
@MatthieuM. Agree. –  anxieux Apr 27 '12 at 8:56

This depends on your design, whether you want to access the virtual function with a derived class object or not.
If not then yes, it's always better to make them private or protected.

There is no code execution difference based on access specifier, but the code becomes cleaner.
Once you have restricted the access of the class's virtual function; the reader of that class can be sure that this is not going to be called with any object or pointer of derived class.

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