37

In this example, C++17 can construct a Derived class using the Base class's constructor using {}, but not ().
This also works on C++20 for GCC and Clang, but not for MSVC.
Why can I constuct the Derived class this way? Is it safe?

I have looked through the additions and changes in C++17 and can not find what changed to allow this.
It is very possible that I am blind.

#include <iostream>

class Base {
public:
    Base(const int value) {
        std::cout << "Constructed with value: " << value << '\n';
    }
};

class Derived : public Base {
};

int main(){
    // does compile on C++17 with MSVC
    // does not compile pre or post C++17 with MSVC
    // does compile on and post C++17 on GCC and Clang
    // does not compile pre C++17 with GCC and Glang
    Derived foo{ 42 };

    // does not compile on any C++ version with MSVC, GCC or Clang
    Derived bar(42);
}
7
  • Do you know why {} does not require the inherited class to do this? – Lily Jan 26 at 15:16
  • 1
    What an Aggregate is has changed in every new version of C++ since and including C++11. This is definitely coming into play, but I would suspect the code to work in C++17 mode, and I can't figure out why it isn't with GCC/Clang. – NathanOliver Jan 26 at 15:24
  • 1
    @NathanOliver: The question says it does compile in C++17 mode. – Ben Voigt Jan 26 at 15:32
  • @NathanOliver is this really an Aggregate? cppreference says an an Aggregate is a type with [...] no user-provided, inherited, or explicit constructors (explicitly defaulted or deleted constructors are allowed) [...] between c++17 and c++20. – florestan Jan 26 at 15:34
  • 3
    @florestan An inherited constructor is using base_name::base_name. Derived doesn't have that, so it doesn't have any inherited constructors. It also doesn't have any constructors defined, so it doesn't have a user-provided constructor, so it is an aggregate. – NathanOliver Jan 26 at 15:36
35

Here's a quick rundown of the situation:

  1. Base is implicitly convertible from an int.
  2. Base is not an aggregate, since it has a user-provided constructor.
  3. Derived is not convertible from an int (implicitly or otherwise), since base-class constructors are not inherited unless you explicitly inherit them (which you didn't).
  4. Derived is not an aggregate due to having a base class... in C++14.
  5. Derived is an aggregate in C++17, which allows aggregates to have base classes. Derived does not have any constructors provided by the user; again, Base's constructor doesn't matter because it was not inherited.

Given these facts, what's happening is the following.

Attempting to use {} on a type will first (sort of) check to see if that type is an aggregate; if so, it will perform aggregate initialization using the values in the braced-init-list. Since whether Derived is an aggregate changed between C++14 and C++17, the validity of that initialization changed as well.

Per #4, Derived is not an aggregate in C++14. So list initialization rules will attempt to call a constructor that takes an int. Per #3, Derived has no such constructor. So Derived foo{ 42 }; is il-formed in C++14.

Per #5, Derived is an aggregate in C++17. So list initialization rules will perform aggregate initialization. This is done by copy-initializing each subobject of the aggregate by the corresponding initializer in the braced-init-list. Derived has only one subobject, of type Base, and the braced-init-list only has one initializer: 42. So it will perform copy-initialization of Base by the initializer 42. That will attempt to perform implicit conversion from an int to Base, which is valid per #1.

So Derived foo{ 42 }; is valid in C++17.

Visual Studio may not have implemented C++17's ruleset correctly.

13
  • 25
    C++ is such an expressive and friendly language. – Asteroids With Wings Jan 26 at 15:54
  • 6
    The issue is that it takes an 18-line Stack Overflow answer to explain a code statement that's supposed to instantiate a simple class from an integer, and the explanation varies considerably across versions of the language in completely esoteric ways. It's ridiculous. – Asteroids With Wings Jan 27 at 1:40
  • 2
    @AsteroidsWithWings: "instantiate a simple class from an integer" A class that, on first inspection, does not look like it can be instantiated from an integer. That's where the complexity comes from. – Nicol Bolas Jan 27 at 2:00
  • 1
    I understand how C++ works here, but that doesn't it make any less terrible. I know where the complexity comes from, but there shouldn't be any for a task like this. – Asteroids With Wings Jan 27 at 2:02
  • 3
    @AsteroidsWithWings: I don't understand the idea that this shouldn't involve complexity. It involves the usage of a constructor from a base class to initialize the derived class and a specialized form of initialization specifically for initializing individual subobjects of a class. That's going to involve complexity because it is complicated. That is the nature of the scenario. Most other languages wouldn't even allow you to do it, requiring that you can only initialize Derived by its explicitly provided constructors. C++ is more free, but that freedom requires complexity if you rely on it – Nicol Bolas Jan 27 at 2:17

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