nice, I searched that C++ Enthusiast Facebook group for my name and actually found @AlfPSteinbach talking about me
> Johannes gave a nice answer on SO, but an incomplete one: he did not discuss how virtual inheritance would affect the situation. In a sense one can say that his explanation, as given on SO, is wrong, because since it totally ignores the issue of virtual inheritance it would apply equally to such an example, where the same "logic" would produce an incorrect answer... He he.
@JohannesSchaublitb We can't. I mean, we could, maybe we could even do it in a way that Iran would never admit because it would be too embarrassing, but still probably not worth it.
I have a small collection of algorithms in Java for playing multiple turn-based games, such as TicTacToe, Othello, Checkers, etc. I do it using Java Generics (self-bounded types) to be able to use the same algorithms without having to change them specifically for each game. The reason why I use s...
Suppose I have some object of type T, and I want to put it into a reference wrapper:
int a = 5, b = 7;
std::reference_wrapper<int> p(a), q(b);
Now I can readily say if (p < q), because the reference wrapper has a conversion to its wrapped type.
However, with some classes this doesn'...
@KerrekSB perhaps you should point them to the chat log. reading the question it is not clear how you got the idea that this has anything to do with deduction or template instances
@JohannesSchaublitb: I posted a link as soon as you mentioned it. A self contained question is preffered though, and the comment can be removed if it's no longer needed
@Xeo There should be a feature like a "shareware answer": You only see one third now, and to get the full answer you need to upvote on two distinct days.
Strangely, while std::sort(v.begin(), v.end(), std::less<std::string>()); works, ...
... what does not work is to add the specialization namespace std { template <typename T> struct less<reference_wrapper<T>> : less<T> { }; } and be done with it once and for all.
Ah, but that's because sort doesn't use std::less<T>
Users are allowed to add explicit specializations to the std namespace. However, there are a few types that I am explicitly forbidden from specializing.
What types can and can't I specialize?