In general there is nothing similar in C#, and its need is much less than in C++.
In C# when you have a
List<SomeReferenceType> what you really have is a
List<ReferenceToSomeType>, so a list of references, with the size of each element of 4 or 8 bytes (see How big is an object reference in .NET?). Copying a reference doesn't cause the underlying object to be duplicated, so it is very fast (you are copying around 4 or 8 bytes, and the processor is optimized for this operation, because that is the size of the native pointer of the processor). So when you
someList.Add(someReference) what you are doing is adding a reference to your
In C++ when you have a
std::vector<SomeType> what you have is a vector of
SomeType, with the size of each element equal to
sizeof(SomeType). Inserting a new element in
std::vector<> will cause the element you are inserting to be duplicated (cloned, copied... choose a verb you like). This is an expensive operation.
Quite often the pattern you use is that you create an object just to insert it into a
std::vector<>. To optimize this operation in C++11 they added two ways to do it: the
std::vector<>::emplace method and support by the
std::vector<> of the move semantic. The difference is that the move semantic must be supported by the
SomeType type (you need a move constructor with the
noexcept specifier), while every type supports the
emplace (that in the end simply used placement constructor).