The following code compiles and executed without error even though no equality operator is defined:

class A {
    operator bool() const { return true; }

int main()
    A a, b;
    a == b; //why does this compile?
    return 0;

What happens internally for a == b is that the operator bool() const is called for both operands, and then the two booleans are compared for equality (this happened in our production code where class A was a smart pointer type, and gave semantically dubious results).

My question is: What rule in the C++ standard allows for the implicit conversion of both operands in this case? I can understand that one operand would be implicitly converted to bool for the test for equality if the other operand was already a bool, but not both.

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    What makes you understand that? Have you ever followed the guideline for adding operator== to a class? It is suggested to make it a friend free function that accepts two class objects by a const reference. This is precisely to allow for implicit type conversions of both operands. – StoryTeller - Unslander Monica Jan 24 '17 at 11:01
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    consider [language-lawyer] tag? I think it is very relevant here – quetzalcoatl Jan 24 '17 at 11:02
  • @StoryTeller You could interpret the same reasoning to mean it allows conversion of either operand, and not necessarily expect it will apply to both simultaneously. And if you haven't fully got your head around normal lookup and ADL, I could see why you would expect that. – BoBTFish Jan 24 '17 at 11:06
  • @BoBTFish - You can interpret a guideline to achieve something as somehow not achieving it? – StoryTeller - Unslander Monica Jan 24 '17 at 11:10
  • @StoryTeller No, I mean you may have been told the guideline, but not been told or fully understand the complete reasoning. I'm saying I don't find it too surprising that the asker understood it differently to your description. – BoBTFish Jan 24 '17 at 11:11

I can understand that one operand would be implicitly converted ..., but not both

Then you've misunderstood. EDIT: According to the experts in comments, argument dependent lookup appears to be a case where your assumption is correct. But yours isn't a case of ADL.

What rule in the C++ standard allows for the implicit conversion of both operands

From standard draft:

[over.match] (2.9)

  • Then the best viable function is selected based on the implicit conversion sequences ( needed to match each argument to the corresponding parameter of each viable function.

My emphasis on "each argument". Not "a single argument".

| improve this answer | |
  • This is when the operator to be called is found during normal lookup, right? It couldn't be found via ADL unless one of the arguments was already the same as the parameter type? – BoBTFish Jan 24 '17 at 11:10
  • @BoBTFish - correct. That's why operator== for std::string won't be used to compare two raw character pointers. – StoryTeller - Unslander Monica Jan 24 '17 at 11:11
  • @StoryTeller Isn't the reason for that the fact that there is a built in operator, that does not require any conversions so it is preferred? – eerorika Jan 24 '17 at 11:13
  • @user2079303 - It doesn't have to be built-in. You can construct an example with user defined types. But you are correct that the reason is mostly due to a much better match being present. – StoryTeller - Unslander Monica Jan 24 '17 at 11:15
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    @user2079303: just to make sure I understand your answer correctly: overload resolution considers static bool operator(bool, bool) as a candidate function for my a==b comparison, because it essentially just ignores the parameter types at this stage. And after the list of of candidate functions is completed, the compiler determines that by applying the implicit conversion rules to the two variables of type A, those can be converted to bool so that static bool operator(bool, bool) can be called? Is that what's happening – Dreamer Jan 24 '17 at 11:37

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