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Sometimes I accidentally forget to call the superclass's method in C++ when I override a method.

Is there any way to help figure out when I'm overriding a method with, so that I don't forget to call the superclass's method? (Something like Java's @Override, except that C++ doesn't have annotations...)

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C++11 has an override member function decorator, but it's not required so I don't think it will help in your case. – ildjarn Jan 10 '12 at 20:25
Why would you want to call the method inherited from the parent class evrytime you override a method? What would you do if the method was abstract in the parent class? I would suggest using a nonvirtual public method in the base class which calls a protected virtual method instead, which will likely solve the same problem. – Grizzly Jan 10 '12 at 20:27
The unobvious need to call the superclass method is often a code smell. Try to remove the need from the design first, e.g. by making reducing the number of classes that act both as interfaces and as implementations. – thiton Jan 10 '12 at 20:28
@thiton: I'm looking for something more like a warning, not an implicit call on my behalf. – Mehrdad Jan 10 '12 at 20:30
up vote 5 down vote accepted

One suggestion is the Non-Virtual Inferface Idiom. I.e., make your public methods non-virtual and have them call private or protected virtual methods that derived classes can override to implement their specific behavior.

If you don't have control over the base class, you could perhaps use an intermediate class:

class Foo // Don't control this one
    virtual void action();

class Bar : public Foo // Intermediate base class
    virtual void action()

    virtual void doAction() = 0;

Derive your classes from Bar and override doAction() on each. You could even have doBeforeAction() and doAfterAction() if necessary.

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What if I don't have control over the base class, though? – Mehrdad Jan 10 '12 at 20:31
@Mehrdad: That definitely makes it tougher. You could maybe make an intermediate base class to help out. – Fred Larson Jan 10 '12 at 20:33
Also known as the template method pattern. – ildjarn Jan 10 '12 at 20:37
@ildjarn: Yeah, see the article I linked. Herb says this is a restricted form of template method that deserves its own name. Whatever works. – Fred Larson Jan 10 '12 at 20:41
Oh I see... yeah it definitely works for smaller interfaces but doesn't scale well to bigger stuff. +1 though, seems like the best solution so far. – Mehrdad Jan 10 '12 at 20:50

With regards to Java's @Override, there is a direct equivalent in C++11, namely the override special identifier.

Sadly, neither @Override nor override solve the problem since: (a) they're optional; (b) the responsibility of calling the base class's method still rests with the programmer.

Furthermore, I don't know of any widely available method that would address the problem (it's quite tricky, esp. given that you don't necessarily want to call the base class's method -- how is the machine to know?).

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+1 nice explanation, even though it doesn't solve the problem. – Mehrdad Jan 10 '12 at 20:32

Unfortunately Í'm not aware of a common mechanism to do this.

In C++ if you're needing to use the base class's functionality in addition to added child functionality you should look at the template method pattern. This way the common logic always lives in the base class and there's no way to forget to execute it, and you override in the child only the piece you need to change.

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