int &z = 12;
int y; int &r = y;
Why is the first code wrong? What is the "meaning" of the error in the title?
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C++03 3.10/1 says: "Every expression is either an lvalue or an rvalue." It's important to remember that lvalueness versus rvalueness is a property of expressions, not of objects.
Lvalues name objects that persist beyond a single expression. For example, obj , *ptr , ptr[index] , and ++x are all lvalues.
Rvalues are temporaries that evaporate at the end of the full-expression in which they live ("at the semicolon"). For example, 1729 , x + y , std::string("meow") , and x++ are all rvalues.
The address-of operator requires that its "operand shall be an lvalue". if we could take the address of one expression, the expression is an lvalue, otherwise it's an rvalue.
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On the right hand side, a temporary object of type
Why a temporary gets created? Because a reference has to refer to an object in the memory, and for an object to exist, it has to be created first. Since the object is unnamed, it is a temporary object. It has no name. From this explanation, it became pretty much clear why the second case is fine.
A temporary object can be bound to const reference, which means, you can do this:
C++11 and Rvalue Reference:
For the sake of the completeness, I would like to add that C++11 has introduced rvalue-reference, which can bind to temporary object. So in C++11, you can write this:
Note that there is
Since C++11 has introduced rvalue-reference,
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References are "hidden pointers" (non-null) to things which can change (lvalues). You cannot define them to a constant. It should be a "variable" thing.
I am thinking of
as almost equivalent of
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Non-const and const reference binding follow different rules
These are the rules of the C++ language:
You have to understand that these are C++ rules. They just are.
It is easy to invent a different language, say C++', with slightly different rules. In C++', it would be permitted to create a non-const reference with a rvalue. There is nothing inconsistent or impossible here.
But it would allow some risky code where the programmer might not get what he intended, and C++ designers rightly decided to avoid that risk.