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I had a frustrating problem recently that boiled down to a very simple coding mistake. Consider the following code:

#include <iostream>

class Base
{
public:
    void func() { std::cout << "BASE" << std::endl; }
};

class Derived : public Base
{
public:
    virtual void func() { std::cout << "DERIVED" << std::endl; }
};

int main(int argc, char* argv[])
{
    Base* obj = new Derived;
    obj->func();
    delete obj;

    return 0;
}

The output is

BASE

Obviously (for this case), I meant to put the virtual keyword on Base::func so that Derived::func would be called in main. I realize this is (probably) allowed by the c++ standard, and possibly with good reason, but it seems to me that 99% of the time this would be a coding mistake. However, when I compiled using g++ and all the -Wblah options I could think of, no warnings were generated.

Is there a way to generate a warning when both a base and derived class have member functions of the same name where the derived class's function is virtual and the base class's function is not?

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Accepting Aaron's answer. I'm sensing the consensus is that g++ cannot warn on this situation, and he was kind enough to provide something pretty cool for Visual Studio. –  Jonesinator Dec 17 '09 at 5:56
    
delete in the example cannot destruct Derived because Base does not have a virtual destructor –  Michal Čizmazia Sep 28 '12 at 20:02
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3 Answers

up vote 5 down vote accepted

In Visual C++ you can use the override extension. Like this:

virtual void func() override { std::cout << "DERIVED" << std::endl; }

This will give an error if the function doesn't actually override a base class method. I use this for ALL virtual functions. Typically I define a macro like this:

#ifdef _MSC_VER
#define OVERRIDE override
#else
#define OVERRIDE
#endif

So I can use it like this:

virtual void func() OVERRIDE { std::cout << "DERIVED" << std::endl; }

I've looked for something like this in g++ but couldn't find a similar concept.

The only thing I dislike about it in Visual C++ is that you can't have the compiler require it (or at least warn) on all overridden functions.

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I use this as well. It's also handy when someone changes the signature of a function (adding a parameter, etc.) but fails to update the base or derived counterpart(s). Normally the virtual-ness would silently stop working, but this trick makes the compiler generate an error. –  Tim Sylvester Dec 16 '09 at 17:59
1  
Great! I didn't know about this extension. I'll probably use this for my own projects since I use Visual Studio, but for this particular project I'll have to stick to g++ :( –  Jonesinator Dec 16 '09 at 18:23
1  
please note that override is in c++11, so that will work with recent gcc and clang in c++11 mode (-std=c++11) –  DirtY iCE Mar 4 '13 at 14:36
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I don't know of any g++ flag to produce a warning on this (not to say there isn't one), but I'd say this is a pretty rare error. Most people write the base class first, as an interface using pure virtual functions. If you had said:

void func() = 0;

then you would get a syntax error.

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man gcc

-Woverloaded-virtual (C++ and Objective-C++ only) Warn when a function declaration hides virtual functions from a base class. For example, in:

           struct A {
             virtual void f();
           };

           struct B: public A {
             void f(int);
           };

   the "A" class version of "f" is hidden in "B", and code like:

           B* b;
           b->f();

   will fail to compile.
share|improve this answer
    
Using this option doesn't warn in the code posted above. In this case Foo::func isn't virtual (which is a prerequisite of the warning), and even if it was it still wouldn't trigger the warning because Bar::func matches the correct signature. If I made Foo::func virtual AND changed Bar::func's signature (i.e. func(int)) only then does the warning trigger. In my case I am overriding a NON-virtual function of Foo, which means if I have a Foo* then the Foo implementation will be called, and not the Bar implementation. However, only if I have a Bar* will the Bar implementation be called. –  Jonesinator Oct 30 '11 at 0:18
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