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I have Base* pointers to two instances of a polymorphic type and I need to determine if the referenced objects are equivalent.

My current approach is to first use RTTI to check for type equality. If the types are equal, I then call a virtual is_equivalent function.

Is there a more idiomatic approach?

share|improve this question
What are equivalent objects according to you ? – J.N. Feb 15 '12 at 4:05
For most of the derived classes, equivalent simply means that the member variables all the same value. – RandomBits Feb 15 '12 at 4:09
This question might be related: stackoverflow.com/questions/1691007/… – John Calsbeek Feb 15 '12 at 4:32
The questions are related, but I believe the other question is concerned with comparing references of the same type (Derived1& == Derived1&) while leveraging the functionality of the base classes to do their part of the comparison. I need to be able to compare references of possibly different actual types using their base pointers (Base& == Base&). – RandomBits Feb 15 '12 at 4:56
up vote 5 down vote accepted

For most of the derived classes, equivalent simply means that the member variables all the same value

In C++ this is called 'equality' and is usually implemented using operator==(). In C++ you can override the meaning of operators, it is possible to write:

MyType A;
MyType B;
if (A == B) {
    // do stuff

And have == call a custom function you define.

I think you want to differentiate equality from identity which would mean the same object (i.e. same address).

You can implement it as member function or free function (from wikipedia):

bool T::operator ==(const T& b) const;
bool operator ==(const T& a, const T& b);

In your case you want to implement operator== for the base class, and then perform what you are doing.

More concretely it would look like this:

class MyBase
    virtual ~MyBase(); // reminder on virtual destructor for RTTI
    // ...
    virtual bool is_equal(const MyBase& other);

    friend bool operator ==(const MyBase& a, const MyBase& b); 

    // ...    

bool operator ==(const MyBase& a, const MyBase& b)
    // RTTI check
    if (typeid(a) != typeid(b))
        return false;
    // Invoke is_equal on derived types
    return a.is_equal(b);

class D1 : MyBase
    virtual bool is_equal(const Base& other)
        const D1& other_derived = dynamic_cast<const D1&>(other);
        // Now compare *this to other_derived

class D2 : MyBase;
{ };

D1 d1; D2 d2;
bool equal = d1 == d2; // will call your operator and return false since
                       // RTTI will say the types are different
share|improve this answer
In the operator== function, I would like to call a virtual function to compare the two objects. Should the signature of the comparison function be something like virtual bool is_equal(MyBase const&). This seems to work but requires an explicit downcast in the implementation of is_equal to get at the derived object type. – RandomBits Feb 15 '12 at 4:40
Yes it should be the signature. (Sorry, edit) Yes it requires a cast. You can specify that is_equal must be called with an object in the same type, make it private so that only == can call it (In that case you need to declare your operator as a friend). – J.N. Feb 15 '12 at 4:56
You forgot the "friend" part in your edit and a virtual. I've added it (but not tested). – J.N. Feb 15 '12 at 10:41

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