I used to see the list initialization as a language level feature. Now I am starting to think that maybe it's not a language level feature but merely a few extra member functions/constructors.
Hello everyone! I got a quick question, learning about inheritance and the current exercise starts with: 'for this exercise we use std::string as a base class although that's is bad practice - why is it bad practice?' (exercise is about hiding members)
Do you think that a very short summary of this is what the question is aiming at? https://stackoverflow.com/questions/6006860/why-should-one-not-derive-from-c-std-string-class
Given a vector of some IListeners which have methods A() B() how would I go about making a function that will "call function F on each IListener"?
For example: someFunction(vector, IListener::A) would go through vector and call IListener.A()
I currently have a few places where I do the same loops but only change the function that is being called and would like to lift it to a method. Would something like std::map work perhaps?
*not std::map but std::transform i.e. mapping over
@Ramzis Just to be clear, the obvious options are: for (auto &a : yourVector) a.A(); and std::for_each(yourVector.begin(), yourVector.end(), [](auto &a) { a.A(); });. If you can use C++20, you can probably use a range instead of iterators, which can reduce the verbosity a bit, but if that's all you're trying to do, the range-based for is probably still going to be the simplest.
Oh, for both the loop and the for_each, you could use auto const &a if A() is a const member function.
@Ramzis Yes, close enough to the same--in fact, I think std::bind is a decent example of second system effect. It does a fine job of fixing the problems with std::bind1st and std::bind2nd, but I'm pretty sure I've never used it except in some example code showing how it can be used. For most practical purposes, lambdas render it obsolete.