Say I am working with a class:

class Foo{
  std:string name;
}/*end Foo*/

and I provide an overload for operator==

bool operator==(const Foo& fooObj, const std::string& strObj) {
    return (fooObj.name == strObj);

Do I also need to re-implement the same logic in reverse?

bool operator==(const std::string& strObj, const Foo& fooObj) {
    return (strObj == fooObj.name);
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    By the way, in c++20 you will be able to define just one new operator and the compiler will do the juggling. It's operator <=>. – StoryTeller Nov 14 '18 at 12:29
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    The bigger question, IMO, is whether the concept of equality between a Foo and a string is a valid concept or an inherent category error. A thing is not equivalent to its name, and the idea that it is is arguably part of what confuses people so much about pointers and references. – cHao Nov 14 '18 at 15:03
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    @StoryTeller - I must have missed the bit where operator<=> will reorder arguments of different types (your first comment) - can you point to the section that specifies that? – Toby Speight Nov 14 '18 at 17:04
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    @TobySpeight - eel.is/c++draft/over.match.oper#3.4 – StoryTeller Nov 14 '18 at 17:13

You do if you want to support comparisons where the string is on the left and the Foo is on the right. An implementation won't reorder the arguments to an overloaded operator== to make it work.

But you can avoid repeating the implementation's logic, though. Assuming your operator should behave as expected:

inline bool operator==(const std::string& objA, const Foo& objB) {
    return objB == objA; // Reuse previously defined operator
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    So theoretically one could implement different behaviour for Foo==String and String==Foo – hehe3301 Nov 14 '18 at 12:25
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    Yes, you could. But you definitely shouldn't. – Matthieu Brucher Nov 14 '18 at 12:25
  • @StoryTeller Do we get op!= for free with this as !(op==) or should that be implemented both directions as well? (expecting the answer no) – hehe3301 Nov 14 '18 at 13:46
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    @hehe3301 - I'm afraid all the overloads you want will need to be implemented explicitly. Although again, the body can be !(lhs == rhs). That's why operator <=> generates so much excitement. Because it can cut down on a lot of boilerplate. – StoryTeller Nov 14 '18 at 13:50
  • @hehe3301: You can use boost/operators.hpp, which provides classes to inherit from which fill in operators based on your provided ones. For instance, if you inherit from equality_comparable<T, U> and provide operator==(T, U), it will supply bool operator==(const U&, const T&), bool operator!=(const U&, const T&), and bool operator!=(const T&, const U&) for you. – Kundor Nov 15 '18 at 9:12

Yes, you do. Just like in lots of other languages, C++ takes sides and comparisons between two objects of different types will lead to calls to two different comparison operators depending on the order.

Of course, you want them to be consistent and not surprising, so the second should be defined in terms of the first.

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    Re: "Just like in other languages": Overloading works sufficiently differently from one language to the next that I don't think this sort of sweeping statement is helpful. – ruakh Nov 14 '18 at 21:02

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