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Suppose I have a type hierarchy:

struct B { ... };

struct D1 : B { ... };
struct D2 : B { ... };
struct Dn : B { ... };

Each Di has its own operator== defined:

struct Di : B
    bool operator==(const Di&) const { ... }

I now want to define the B operator== such that:

struct B
    bool operator==(const B& that) const
        // psuedo-code
        let i, such the dynamic type of this is Di
        let j, such the dynamic type of that is Dj

        if (i != j)
            return false;
            return Di::operator==(this, that);

What is the best way to organize this or write this?

(The end goal is that I want to use the standard container types with a value type of B* (eg std::set<B*>), but for it to use the custom Di::operator==s when they are from the same derived class)

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have you tried make the operator virtual ? –  Zang MingJie May 28 '13 at 12:44
As an aside the std associative containers use an ordering relation like std::less not equality. See C++ ordering for requirements on any specialization of operator</operator> you provide. –  indeterminately sequenced May 28 '13 at 12:50
operator== should not be a member function, it should be an external function. –  qdii May 28 '13 at 12:53
@indeterminatelysequenced: Some do yes, others use other things, for example std::unordered_set uses equality and a hash function. The point of the question is specifically the architecture for equality. –  Andrew Tomazos May 28 '13 at 12:53
@qdii: Why is that? –  Andrew Tomazos May 28 '13 at 12:54

2 Answers 2

Define a protected virtual function in the base class. Make it pure virtual to ensure that each subclass Di provides an implementation. The function will know the target of the cast, because it belongs to a Di. Call that function from the operator == in the base class, and let it perform the comparison, like this:

struct B {
    bool operator==(const B& that) const {
        return this->equals(that);
    virtual bool equals(const B& other) const=0;
struct D1 {
    virtual bool equals(const B& other) const {
        D1 *that = dynamic_cast<D1*>(&other);
        if (!that) return false;
        // Perform D1-specific comparison here.
        // You can use the == operator of D1, but you do not have to:
        return (*this) == (*that);

The effect of this construct is making the implementation of the == operator virtual.

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This double dispatch looks like a candidate for the Visitor pattern. –  Peter Wood May 28 '13 at 12:53
@PeterWood Double-dispatch with or without the visitor would be an overkill here. If comparing Di and Dj was required to return anything but false at least in some situations, a double dispatch would be warranted. However, OP wants all cross-type comparisons to return false, hence I think that this simplified solution would work well. –  dasblinkenlight May 28 '13 at 12:58
I think you shouldn't make the base class equals pure virtual: virtual bool equals(const B& other) const { return false; } as otherwise you might get weird errors when D1 is compared to D2. –  Alex May 28 '13 at 13:03
@Alex I don't think it's going to be a problem, because the equality check will be done either by D1 or D2, not by B, so an implementation of equals would be available. Comparing an instance of B to anything would be problematic, but it does not look like the OP allows creating instances of B in the first place. –  dasblinkenlight May 28 '13 at 13:12
@user1131467 having a non public virtual function and a public nonvirtual function calling the other one allows you to do some common work before dispatching to class specific stuff (i.e.: it would be possible to check if the address is equal and only if they aren't call the virtual function) Mikhail: if you want syntax duplication removed one could use CRTP to inherit the operator== with the baseclass name. –  Alex May 28 '13 at 14:04

Here is a slight variation of dasblinkenlight solution with added features (e.g. less code duplication)

#include <typeinfo> // for typeid

struct B {

  bool operator==(const B& that) const {

    if (this == &that) // trivially equal
      return true;

    if (typeid(*this) != typeid(that)) // trivially different
      return false;

    return equals(that); // delegates to the virtual function

  // polymorphic classes must have virtual destructors
  virtual ~B() = default;


  virtual bool equals(const B& that) const = 0;


struct D1 : B {

  bool operator ==(const D1& that) const {
    // ...


  // private because this function is not meant to be called except through
  // B::equals
  bool equals(const B& that) const override {
    // static_cast is safe here because execution only gets here if the
    // dynamic type of that is D1 (this was tested in B::operator =()
    return *this == static_cast<const D1&>(that);

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