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I'd expect this to work:

template <typename T> class MyBaseClass

    virtual ~MyBaseClass();

    void DoSomething(const T& myClass);  
         // Implemented in .cpp file

    virtual void DoSomething(int n, const T& myClass);  
                 // Implemented in .cpp file

class MyDerivedClass : public MyBaseClass<int>
    virtual void DoSomething(int n, const int& myInt);  
                 // Implemented in .cpp file

...and elsewhere in my code:

int i;
MyDerivedClass myClass;

However, it does not; instead, it fails to compile with an error saying (in the case of Visual C++)

error C2660: 'int::DoSomething' : function does not take 1 arguments

...even though there manifestly is a version of DoSomething, declared in the base class, that does take just one argument. The error goes away if I comment out the redefinition of DoSomething with two arguments from the derived class.

What subtle C++ rule have I falled foul of, and is there an elegant way to work around this?

share|improve this question
Sorry I was wrong with my 1st comment. – πάντα ῥεῖ Jul 7 '14 at 10:13
please edit your code, myBaseClass needs capital initial letter and int MyDerivedClass needs to be class MyDerivedClass – TemplateRex Jul 7 '14 at 10:32
My guess is it's some intricacy of function lookup. The function is found in derived, and not looked further; only then overload resolution is tried (within derived) which fails (derived doesn't declare that signature). Cf. – Peter A. Schneider Jul 7 '14 at 10:56
BTW, implementation of template <typename T> void MyBaseClass<T>::DoSomething(const T& myClass) should go in header... – Jarod42 Jul 7 '14 at 11:39
@TemplateRex, you're quite right; I've done so. – Eos Pengwern Jul 7 '14 at 13:58
up vote 2 down vote accepted

A method in C++ shadows all methods of the super class which have the same name. In your example

virtual void DoSomething(int n, const int& myInt);

in the derived class shadows

void DoSomething(const T& myClass);

in the base class, so the latter method is not visible when working with an object of the derived type.

This behaviour is quite different to other languages like Java where a method does not shadow other methods with the same name but different signatures and might feel a bit counter intuitive at first. The reason for this is simply the name lookup rules of C++: Once a name is found in a scope, further scopes are not considered. In your example, the compiler finds DoSomething(const T&) in your derived class and stops looking for further methods in the super class.

There is a simple remedy: To make all DoSomething methods visible again, use the using directive in your derived class:

using MyBaseClass<int>::DoSomething;

The using directive makes the methods that were shadowed visible again by pulling them into the scope of the derived class. Now, name lookup will find the correct DoSomething(int, const int&) method in the scope of the derived class.

share|improve this answer
Or calling the shaded method directly: myClass.MyBaseClass::DoSomething(i); – SomeWittyUsername Jul 7 '14 at 11:01
@icepack: Your suggestion works for this scenario but is usually not what you want, because it will disable vtable lookup for virtual methods. So, if DoSomething(int) was virtual, your call would always call MyBaseClass::DoSomething(int) instead of an overriding DoSomething(int) method in a potential subclass! – gexicide Jul 7 '14 at 11:07
Of course, that's why I prefixed it explicitly :) I think it would've been pretty confusing if explicit prefix would allow polymorphic behavior – SomeWittyUsername Jul 7 '14 at 11:13
@icepack: But this is not what you usually want. Here, the problem is simply method shadowing. You solve it by removing polymorphism from the called method which is a totally orthogonal thing. – gexicide Jul 7 '14 at 11:32
Thank you; simply adding the 'using' directive on the line before declaring my overriding overload did the trick. As you say, it's counter-intuitive and rather irritating but at least the workaround is painless. – Eos Pengwern Jul 7 '14 at 13:55

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