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I'm writing a program with three levels of inheritance. It is required that I overload the operator== in the base class, and then override that function in the derived classes (I am not allowed to change this design).

The function is a bool which does a memberwise comparison of two objects. How do I process supers return value? In Java getting this value is simple: I just make the first line of the overriden function a call to super, for example:

retValue = super.myFunction();

I need to achieve this same result, but in C++ and with awful operator overloading. Some pseudo code for the overrloaded function would be much appreciated.

I also have another question relating to this; What will happen if the operator is used on instances from different subclasses? For example sub1 and sub2 inherit from base, which version of the function will be executed for the following line of code in Main:

if (sub1 == sub2)

Will it generate a compiler error?

Edit: Firstly, I am a student so I cannot write the code to accomplish this task in the way I would like to. The program requirements state;

"Vehicle operator overload: the == operator

The Vehicle class needs to override the == operator. Two objects are equal if all of their data fields are equal and if their passenger lists are identical. This needs to be defined in the base class and then overridden in the derived classes."

I don't really have any code to post because in reading Billy's response I realized that I had actually written the operator== function free of the class (which won't allow me to override it, and won't meet the program requirements).

The example;

if (sub1 == sub2)

was entirely hypothetical. I will actually have an array of Vehicle objects, I have a Car and Airplane class which inherit from Vehicle, and then a MagicSchoolBus which inherits from Car and an Xwing which inherits from Airplane. In the Vehicle class I have an int 'vType_' which identifies the specific subclass each Vehicle instance belongs to. To prevent a runtime crash I will simply check to make sure the objects have the same vType_ prior to using the == operator on them.

As much as I would to prefer to write a compare function, I am not allowed to. I have to find a way to use the return value from the operator== function in the base class because it is comparing several data members, and I will of course be graded down if I rewrite this code in each of the derived classes.

If I can't use that return value I either have to rewrite code, or I will get the wrong result when an object has different values in members of the base class but the same values in the derived class.

I'm going to have to rewrite this function as a member of the Vehicle class but I will post it anyways in hope that it may be useful. Each of the derived classes have a few more members specific to those types of vehicles, and an array of Passenger objects which will have be compared.

// equality operator overloaded to do a memberwise comparison

bool operator== (Vehicle& obj1, Vehicle& obj2) { bool retValue = false;

if (strcmp(obj1.getName(), obj2.getName()) == 0)
{
    if (obj1.getType() == obj2.getType() && obj1.getFuel() == obj2.getFuel())
    {
        if (obj1.getRate() == obj2.getRate() && obj1.getStatus() == obj2.getStatus())
        {
            retValue = true;
        }
    }
}

return retValue;

}

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3  
You know, calling a language "awful" might make it less likely for users of that language to help you ;) –  Billy ONeal May 21 '11 at 18:57
3  
"Override" implies you're making the operator virtual, which is a terrible idea. If your teacher is really making you do this, then bear in mind you have a bad teacher. –  ildjarn May 21 '11 at 18:58
    
I've added some more of the specific requirements. My teacher is in fact making me do this. I wasn't calling C++ awful, I think Java is awful in comparison. I was referring to operator overloading which I personally prefer not to use. If I was free to write this as I wanted I would make a function like; compare(Vehicle temp); which compares the instance passed to the instance calling it. –  evanmcdonnal May 21 '11 at 19:59

3 Answers 3

up vote 1 down vote accepted

If you inherit from a class, then you have to use an explicit qualifier. There's no keyword.

class A {
public:
    virtual bool operator==(const A&);
};
class B : public A {
public:
    virtual bool operator==(const B& other) {
        bool result = A::operator==(other);
        //.. do other stuff
    }
};

If you don't define a new one, then the base one is called.

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It looks like this is precisely what I need to do. Thanks very much. –  evanmcdonnal May 21 '11 at 20:02

because C++, unlike Java, supports multiple inheritence, you will need to explicitly specify which super you need to use by SUPER::operator==() (replace SUPER by the real super class name..)

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2  
Which, in my opinion, is clearly better than the way Java does it. –  leftaroundabout May 21 '11 at 19:05
    
@leftaroundabout: There's nothing wrong with the Java way of doing things, since Java doesn't have multiple inheritance. –  Boaz Yaniv May 21 '11 at 19:15

It is required that I overload the == operator in the base class, and then override that function in the derived classes

That seems like an extremely strange thing to do. Operator overloads should generally be free functions, not class members, where possible. Could you post some code describing what you want to do more specifically? Because a general implementation of what you'd want is not possible. E.g. if you compare Derived 1 and Derived 2 through a base class pointer, how would the compiler know which operator== to call? Both Derived 1 and Derived 2 implement that function, but there'd be no way to choose. The derived classes should just implement == hiding the implementation of the base class, in the few cases where someone might need to do something like that.

Don't mix operator overloading with virtual functions -- it's painful and it's not how operator overloading is designed to operate.

How do I process supers return value?

You don't. There's no such thing as a "super" in C++ (for one thing, if you inherit from two classes, how is the language supposed to know what the base version is? :P). If you want to call the overload of the base class, you call the base class function directly. Example:

class SomeBaseName
{
    int aMember;
public:
    bool operator==(const SomeBaseName& rhs)
    {
        return aMember == rhs.aMember;
    };
};

class Derived : public SomeBaseName
{
    int anotherMember;
public:
    bool operator==(const Derived& rhs) //Note that this is not a virtual function, it is *hidden* instead.
    {
        if (!(SomeBaseName::operator==(rhs))
            return false;
        return anotherMember == rhs.anotherMember;
    }
};

I really really recommend you not do that though.. it makes no sense to do things that way with operator overloading.

What will happen if the operator is used on instances from different subclasses? For example sub1 and sub2 inherit from base, which version of the function will be executed for the following line of code in Main

Neither will be called. The call is ambiguous and will cause a compile-time error.

Finally, one last piece of advice: Don't try to learn C++ in terms of Java. Learn C++ as a new language. They are different languages -- moreso than their similar syntax would suggest. C++ allows you do do several things for which there is absolutely no equivalent in Java (e.g. pointer arithmetic, operator overloading, multiple inheritance, template metaprogramming, etc.), and while there are some things that are similar in places, idiomatic examples in both languages are very different from each other. If you think of things as the Java equivalents in places you are going to be confused when the languages differ or when C++ piles concepts onto it's (very dissimilar) object model.

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Calling base class functions like that does not require passing a first argument of "this" explicitly. –  Puppy May 21 '11 at 19:15
    
Billy, thank you for the response. I'll try to explain the requirements the best I can in an edit. I actually prefer (and am better with) C++ to Java. I just thought that reference to Java would make it clear what I need the function to do. –  evanmcdonnal May 21 '11 at 19:32

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