Linked Questions

0
votes
2answers
558 views

Why do we need reference collapsing rules [duplicate]

Everyone may know that we use rvalue-references combined with the reference collapsing rules to build perfect forwarding functions, like so template<typename T> void f(T&& arg) { ...
4
votes
1answer
74 views

What is the type of a reference of a reference in a template class [duplicate]

In the code below, what are the types of a and b? template <class T = const int&> struct A { T& a; T b; }; int main() { int i = 1; A<> a{i, i}; return 1; } I ...
2
votes
1answer
68 views

An rvalue reference binds to an lvalue [duplicate]

Let's considet the following code: int x = 0; using U = int&; U&& r = x; I tought that, by definition, an rvalue reference to Type only binds to an rvalue expressions of Type (no matter ...
1
vote
1answer
70 views

Why doesn't C++ standard distinguish rvalue references and forwarding references? [duplicate]

As far as I'm aware C++ standard does't distinguish between rvalue references and forwarding references. I'd like to know the reason behind that. If I want to write a template function that only ...
2
votes
0answers
68 views

Forwarding reference with class template parameter [duplicate]

I have a question about forwarding references in member functions of template classes. The standard clearly states (here), that in their example: template<class T> struct A { template<...
0
votes
0answers
48 views

Why do lvalue reference and rvalue reference collapse in lvalue reference? [duplicate]

Let's consider this code: int i=0; using U = int&; U&& x = i; using V = int&&; V& y = i; Could you please explain the motivation for these two reference collapsing rules?
15
votes
1answer
720 views

Why is adding a reference to a rvalue reference not an error?

I have the following typedef: using int_ref = int&&; Why does the following code not produce an error (or print false)? std::cout << is_same< int_ref, int_ref&& >::value;...
10
votes
2answers
766 views

How can we instantiate template functions with a reference type?

C++ does not instantiate templates with, say T = Hoge&. A minimal example: hoge.h: #include<cstdio> class Hoge { public: Hoge() : hoge(0) { } ~Hoge() { } ...
11
votes
4answers
998 views

A failure to instantiate function templates due to universal (forward) reference to a templated type

Universal references (i.e. "forward references", the c++ standard name) and perfect forwarding in c++11, c++14, and beyond have many important advantages; see here, and here. In Scott Meyers' article ...
6
votes
3answers
774 views

C++ why does passing an lvalue to a move constructor work for templates?

I have this code, which doesn't compile, which is expected. This is the error: an rvalue reference cannot be bound to an lvalue class SomeData { public: vector<int> data; SomeData() ...
7
votes
3answers
1k views

Are unnamed objects and temporary objects equivalent?

In my effort to understand rvalue references, I have been pondering when the compiler will determine that a particular function argument is an rvalue reference, and when it will determine it to be an ...
6
votes
2answers
231 views

Is it specified in the C++11 standard that std::begin(Container&&) returns const_iterator?

Here's a link to relevant code: #include <iostream> #include <string> #include <vector> #include <type_traits> int main() { std::vector<int> v{1, 2, 3, 4, 5}; auto ...
4
votes
2answers
702 views

Named rvalue references

Please pardon my lack of clarity on this topic. I am trying to create functions for inserting a big class into a vector. In this example, I use vector of ints as the big class. #include <vector>...
0
votes
1answer
913 views

What does triple ampersand `&&&` stand for in C++?

I understand that after a typename, a single & means an lvalue reference, and a double && means an rvalue reference or a "deduced reference", also called a universal reference by Scott ...
2
votes
2answers
343 views

Confusion about the return type of std::get() on std::tuple objects

Please see the following code (see it live here): #include <iostream> #include <tuple> #include <type_traits> #include <utility> struct S { int&& v; }; int main()...

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