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What is exactly happening here? Why is this an error?

void f(int &&);

int && i = 5;


Isn't it a bit counterintuitive?

I would expect i to be a rvalue reference, and so be able to pass it to f(). But I get an error;

no known conversion from int to int &&

So I guess i is not an rvalue reference after declaration?

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What are you hoping will happen? What are you trying to do? What do you think && means in this context? – Galik Feb 10 at 11:40
@Galik, I added some more comments to my question. – Jorge González Lorenzo Feb 10 at 11:44
Use std::move() to get an rvalue reference. – Gill Bates Feb 10 at 11:44
Thanks @JameyD . What I find confusing is that a declare something of type X, and then I pass it to a function accepting X, but it does not work. I guess "i" is not a rvalue reference (even if I write &&) because it has a name, and I can use it to assign things to it, but still wanted to know what is really happening under the hood. – Jorge González Lorenzo Feb 10 at 11:46
"I guess "i" is not a rvalue reference" That's not true, i is an rvalue-reference, but that describes what it binds to, not what kind of value category it has. Its value category is lvalue. – Jonathan Wakely Feb 10 at 12:31
up vote 18 down vote accepted

There's a basic distinction here between is a and binds a. For example:

void f(int &&);

declares a function accepting a parameter that can only be initialized with an rvalue reference to a (type convertible to) int.

int && i = 5;

declares an lvalue that can only be initialized with an rvalue reference to a (type convertible to) int. Thus, in simple terms,


tries to pass an lvalue reference to an int to a function accepting only rvalue references to an int. So it doesn't compile.

To tell the compiler to cast an lvalue to an rvalue, thereby utilizing move constructors where applicable (though not in the case of an int), you can use std::move().

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I would add information about std::move in this case. – Zereges Feb 10 at 11:44
@Zereges Good idea. Added. – Yam Marcovic Feb 10 at 11:46
This is almost an excellent answer, but slightly inaccurate. "declares an lvalue that can only be assigned an rvalue reference to an int." No, it cannot be "assigned" anything, certainly not an rvalue reference (because assigning to a reference actually assigns to the thing it is bound to, but this is initialization not assignment). It declares an lvalue, i, of rvalue-reference type, that can only be initialized with an rvalue (not an rvalue-reference, an rvalue). – Jonathan Wakely Feb 10 at 12:28
@LogicStuff, if you forward as an rvalue, yes, but that's pointless here. If you know you want an rvalue, use std::move. If you want to forward something as either lvalue or rvalue, depending on its original value category, use std::forward. It's completely pointless to write std::forward<int>(i) instead of std::move(i). – Jonathan Wakely Feb 10 at 12:32
@YamMarcovic Yes, i is an lvalue and an rvalue reference. – cpplearner Feb 11 at 11:54

I see why you are confused. The thing to remember is that whenever you have a variable name, you have an l-value.

So when you say:

int i = 0; // lvalue (has a name i)

And also

int&& i = 0; // lvalue (has a name i)

So what is the difference?

The int&& can only bind to an r-value so:

int n = 0;
int i = n; // legal


int n = 0;
int&& i = n; // BAD!! n is not an r-value


int&& i = 5; // GOOD!! 5 is an r-value

So when passing i to f() in this example you are passing an l-value, not an r-value:

void f(int &&);

int&& i = 5; // i is an l-value

f(i); // won't accept l-value

The situation is actually a little more complicated than I have presented here. If you are interested in a fuller explanation then this reference is quite thorough:

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Great explanation. – erip Feb 10 at 12:15
I think it's a great answer. The only slight thing I'd suggest is, perhaps make it a bit more clear in that first sentence, because often this can be thought of as a variable (though it isn't really), but then this is a prvalue. Can you think of any good way to address this point, or if it's really relevant after all? – Yam Marcovic Feb 10 at 12:43
@YamMarcovic I know the situation can be a little more complicated but I think for learning purposes it is better to present what is simple and relevant to the example the OP is trying to understand. What I will do is add a link for further information. – Galik Feb 10 at 13:08
@Galik Sounds reasonable. Thanks. – Yam Marcovic Feb 10 at 13:11

Does it have a name?
Is it addressable?

If the answer to both is "yes", it's a L-Value.

In this snippet: i has a name, i has an address (you can write &i), so it's a l-value.

f(&&) gets r-value-reference as a parameter, so you need to turn l-value to r-value reference, which can be done with std::move.

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Note: there are also some lvalues which don't have names. Also, "Is it addressable" is a circular definition. By "addressable", I assume you mean, "can unary & be applied to it?"; however the definition of unary & includes that it can be applied to lvalues only! – M.M Feb 10 at 13:16
Well, enumerators also have names.... – cpplearner Feb 11 at 11:31

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