@JohannesSchaublitb I have question, do you know if I have to add Memory barriers inside a critical section when using a weaker memory model, in order to be sure that all threads see what has happend to the variables inside the section?
If it's required, the critical section itself consists of memory barriers, so maybe they are not needed anyway?
Then std::pair<T, T> pair(std::piecewise_construct, std::forward_as_tuple(1, 2l, 3.), std::forward_as_tuple(4, 5l, 6.)); constructs the two T inside the pair from 1, 2l, 3. and 4, 5l, 6..
You can also do std::pair<T, T> pair(T { 1, 2l, 3. }, T { 1, 2l, 3. }); but that's doesn't do the exact same thing.
I didn't expect you to help with that code snippet,i was asking if anybody was willing to help with the question, and i could post more code, but did not want to bog down the chat. Thanks though
Imagine I'm writing some container template or something. And the time comes to specialize std::swap for it. As a good citizen, I'll enable ADL by doing something like this:
template <typename T>
void swap(my_template<T>& x, my_template<T>& y) {
using std::swap;
...
if you make a namespace tricks { using std::swap; template<typename A, typename B> void swap(A&a, B&b) noexcept(swap(a, b)) { } } and call noexcept(tricks::swap(x, y)) in your template
I always get scared when I decide to use bullet points (like I did in my recent answer), I can't remember English typography rules :(
> In British English, the word following the colon is in lower case unless it is a proper noun or an acronym, or if it is normally capitalized for some other reason. However, in American English, many writers capitalize the word following a colon if it begins an independent clause (i.e., a complete sentence).
No wonder I get confused.
@JohannesSchaublitb Do you think your clever trick should belong as an answer?
Is this a valid statement to make You can assume virtual dispatch is disabled in constructor and destructors. from a users perspective not the pedantic perspective. And if not why?
Calling virtual functions inside the constructor or destructor does not call the function you assume it will call. It always results in call to the functions of that same class.
You can assume virtual dispatch is disabled in constructor and destructors.
If you call Base::virtual_member() you still end up in *this. You don't get 'lower-down' because it's not constructed yet, but you still get some dispatch.
In C++ it's problematic because it doesn't work as expected; in languages where it works as expected it's problematic because you have no idea what the code will do, and your object is still being constructed.
@RMartinhoFernandes It's not problematic in C++ (it's not like constructors of an abstract class should do much); it's too bad there's not an option to run a second phase of construction but that's what you get for doing advanced OOP in a multiparadigm language.
you can start by defining what you mean by dynamic binding (whatever you called) outside constructor/destructor. define it so that you can defpositively say here it is, and here it is not.
then apply your definition to destructor and see if things are different. they are not.
if virtual dispatch was disabled, the Derived destructor should not be able to get a virtual dispatch down from Base::foo. however, it you try it (and fix any typos) you will see that it works just as usual.
@DeadMG you have some misconception about this. you can just read the FAQ. the main thing to learn is probably: that during construction and during destruction of T, the type of the object is T.
@AlfPSteinbach That's not a very straightforward explanation. After construction (and before destruction), there is still an object of type T, namely *this.
@Als i'm wondering if you're there at all? you have just had demonstrated to you by concrete code that what you wrote was not true. that the effect that you predicted would not happen, did not fail to occur. and i've given you the relevant faq urls. what more do you require?
if you call a base class function from the ctor/dtor, the base class can do this->f() and virtual dispatch can "lift" control up into the derived class again