It's part of a feature allowing C++11 non-static member functions to differentiate between whether they are being called on an lvalues or rvalues.
In the above case, the copy assignment operator being defaulted here can only be called on lvalues. This uses the rules for lvalue and rvalue reference bindings that are well established; this just establishes them for this
.
In the above case, the copy assignment operator is defaulted only if the object being copied into can bind to a non-const lvalue reference. So this is fine:
C c{};
c = C{};
This is not:
C{} = c;
The temporary here cannot bind to an lvalue reference, and thus the copy assignment operator cannot be called. And since this declaration will prevent the creation of the usual copy assignment operator, this syntax effectively prevents copy-assignment (or move-assignment) to temporaries. In order to restore that, you would need to add a &&
version:
C& operator=(const C&) && = default;
C& operator=(C&&) && = default;
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