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It is not possible to assign an integer value to a reference variable directly, say like:

int &x=10; //not possible

Is there any other way we can modify this statement to make it possible?

But not like this:

int a=10;int &x=a;

This works fine. But I want some other way or modify a little bit my expression and make it work!

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Why do you need this ? It would work like a normal variable from then on :-/ so.. why don't you use a normal variable ? –  cnicutar Jul 15 '11 at 8:50
@ascanio: Since when does C have a concept of references? –  phresnel Jul 15 '11 at 9:06
I didn't know the concept of reference variable –  ascanio Jul 15 '11 at 9:33
@ascanio: C does also not have a syntax like int &x=10;. –  phresnel Jul 15 '11 at 13:04
@phresnel: in fact, that produced the compile error.. –  ascanio Jul 15 '11 at 13:08
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6 Answers

up vote 2 down vote accepted

The reason it doesn't work is because 10 is of the type "const int". You can turn that into a reference, but you can't make it non-const without violating some logic at the least.

const int &a = 10;

that'll work.

int &b = const_cast<int &>(static_cast<const int &>(10));

will also compile, but you can't modify b (as that would imply modifying the actual "10" value).

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In the second example, I don't think it should compile, you can't convert an rvalue to non-const reference type even with const_cast. And if it did, you couldn't read b anyway, unless the lifetime of any temporary object that it was referring to was extended beyond the initialization. So for example, you can write int &b = const_cast<int &>(static_cast<const int &>(10));, but all that achieves is a dangling reference. –  Steve Jessop Jul 15 '11 at 10:17
Where does the standard say all this? AFAIK There is no requirement that integer literals be placed in read-only data, even when a const reference is taken to them. The implementation is perfectly entitled to stick 'em on the stack, then re-use the stack for something else later. The temporary's lifetime isn't inherently extended to the end of the block, it's extended to the lifetime of the reference to which it's bound, which in your f case is the block, but in my two-casts case is still only the statement. –  Steve Jessop Jul 15 '11 at 10:33
"Also, it will compile." - not in GCC, not in Comeau, not according to the C++03 standard (none of the rules in 5.2.11 allows an rvalue to be converted to a reference type by const_cast). YMMV. –  Steve Jessop Jul 15 '11 at 10:51
From n3242, 2.14.2 [lex.icon] "2. The type of an integer literal is the first of the corresponding list in Table 6 in which its value can be represented." None of the types listed in Table is const qualified. An integer literal is a prvalue of type e.g. int, never const int. (What Steve said is also extremely relevant to how wrong that code is.) –  Luc Danton Jul 15 '11 at 11:11
This is not at all true. 10 is of type int, the fact that you can't assign to non-const reference is because it's an rvalue, nothing to do with constness. –  DeadMG Jul 15 '11 at 11:15
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The reference as the name says has to reference to something. How do you want to assign a value to it if it doesn't reference anything?

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The crux is that 10 is a constant – somewhat obviously: you cannot change its value. But if you try to assign it to an int reference, this would mean that the value were modifiable: an int& is a modifiable value.

To make your statement work, you can use a const reference:

int const& x = 10;

But as “cnicutar” has mentioned in a comment, this is pretty useless; just assign the 10 to a plain int.

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You can't bind a reference-to-nonconst to anything immutable.

  • The standard permits storing compile time constants in ROM (btw, attempting to modify const_cast<>ed compile time constants yields undefined behaviour)
  • This would basically strip of the const, even if the const is invisible, therefore subverting the whole const-correctness-thing

However, you can bind a reference-to-const to nearly everything, including temporaries:

Consider this a "feature".

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References refer to objects (perhaps temporary objects), not to values. If you want to store a value somewhere, assign it to an object, not to a reference.

As a special case, const int &a = 10; initializes the reference a to refer to a temporary object with the value 10, and it extends the lifetime of that temporary to the end of the scope of a (12.2/5). That's pretty useless with an integer literal, but occasionally useful with objects of class type. Still, this does not assign an integer value to a reference. It creates a temporary, and binds a reference to the temporary.

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in the C++0x, you can use int&& (rvalue references ), but this can be used as function parameter.

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Not only as a function parameter, e.g. a variable at block scope is possible. –  Luc Danton Jul 15 '11 at 11:12
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