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In a C++ function like this:

int& getNumber();

what does the & mean? Is it different from:

int getNumber();
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The & basically states that I'm returning the address where the value returned is stored (i.e. it returns the reference of the integer) whereas the int getNumber() returns the value of the integer returned by the function. One thing is that if the reference integer points to a NULL, you may have a segmentation fault whereas the other function returns a 0; –  Buhake Sindi Mar 4 '10 at 14:28
One thing that nobody's mentioned: never return a reference to a local variable! You'll get undefined results when the variable goes out of scope at the end of the function. –  Mark Ransom Mar 4 '10 at 14:44
As an aside, if getNumber() is a public method of a class that returns a private member variable of that class, don't use the version that returns a reference. Otherwise, users of your class will be able to change the value of that private member outside the class. In other words, the private member is no longer encapsulated by the class. –  Matt Davis Mar 4 '10 at 14:52

11 Answers 11

up vote 10 down vote accepted

Yes, the int& version returns a reference to an int. The int version returns an int by value.

See the section on references in the C++ FAQ

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Downvoter care to explain? –  Nick Meyer Mar 4 '10 at 14:42
Rather than make the OP read through a huge document that answers his question but only in a roundabout way, why not write a 10 line program that demonstrates the difference. –  Loki Astari Mar 4 '10 at 14:42

It's different.

int g_test = 0;

int& getNumberReference()
     return g_test;

int getNumberValue()
     return g_test;

int main()
    int& n = getNumberReference();
    int m = getNumberValue();
    n = 10;
    cout << g_test << endl; // prints 10
    g_test = 0;
    m = 10;
    cout << g_test << endl; // prints 0
    return 0;

the getNumberReference() returns a reference, under the hood it's like a pointer that points to an integer variable. Any change applyed to the reference applies to the returned variable.

The getNumberReference() is also a left-value, therefore it can be used like this:

getNumberReference() = 10;
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Yes, it's different.

The & means you return a reference. Otherwise it will return a copy (well, somethimes the compiler optimizes it, but that's not the problem here).

An example is vector. The operator[] return an &. This allows to do :

my_vector[2] = 42;

That wouldn't work with a copy

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+1 for a reasonable example that doesn't use global variables! @Johan, it wouldn't work because you'd be assigning to either a stack location or a copy of the location in the vector... –  Brian Postow Mar 4 '10 at 14:39

The first version allows you to write getNumber() = 42, which is probably not what you want. Returning references is very useful when overloading operator[] for your own containers types. It enables you to write container[9] = 42.

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Explain why it works for containers and you have a perfect answer. –  Loki Astari Mar 4 '10 at 14:45

int& getNumber(): function returns an integer by reference.

int getNumber(): function returns an integer by value.

They differ in some ways and one of the interesting differences being that the 1st type can be used on the left side of assignment which is not possible with the 2nd type.


int global = 1;

int& getNumber() {
        return global; // return global by reference.

int main() {

        cout<<"before "<<global<<endl;
        getNumber() = 2; // assign 2 to the return value which is reference.
        cout<<"after "<<global<<endl;

        return 0;


before 1
after 2
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"&" means reference, in this case "reference to an int".

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The difference is that without the & what you get back is a copy of the returned int, suitable for passing into other routines, comparing to stuff, or copying into your own variable.

With the &, what you get back is essentially the variable containing the returned integer. That means you can actually put it on the left-hand side of an assignment, like so:

getNumber() = 200;
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It's a reference

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It means that it is a reference type. What's a reference?


In the C++ programming language, a reference is a simple reference datatype that is less powerful but safer than the pointer type inherited from C. The name C++ reference may cause confusion, as in computer science a reference is a general concept datatype, with pointers and C++ references being specific reference datatype implementations. The declaration of the form:

Type & Name

where is a type and is an identifier whose type is reference to .


  1. int A = 5;
  2. int& rA = A;
  3. extern int& rB;
  4. int& foo ();
  5. void bar (int& rP);
  6. class MyClass { int& m_b; /* ... */ };
  7. int funcX() { return 42 ; }; int (&xFunc)() = funcX;

Here, rA and rB are of type "reference to int", foo() is a function that returns a reference to int, bar() is a function with a reference parameter, which is reference to int, MyClass is a class with a member which is reference to int, funcX() is a function that returns an int, xFunc() is an alias for funcX.

Rest of the explanation is here

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unfortunately wikipedia is wrong here. It isn't safer than a pointer, it's exactly syntactic sugar for a const pointer (I do NOT mean pointer to const data). –  Ben Voigt Mar 4 '10 at 14:18
But it can avoid a lot of compiler errors. This is what wikipedia means. –  Shayan Mar 4 '10 at 15:25
I've never heard of a single compiler error that was fundamentally different for pointers and references. –  Ben Voigt Mar 5 '10 at 5:24

It means it's returning a reference to an int, not an int itself.

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It's a reference, which is exactly like a pointer except you don't have to use a pointer-dereference operator (* or ->) with it, the pointer dereferencing is implied.

Especially note that all the lifetime concerns (such as don't return a stack variable by address) still need to be addressed just as if a pointer was used.

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References can be likened to pointers, and thought of as pointers but are definitely not "exactly like pointers". For example, assigning to a reference changes the value referred to, instead of the reference itself. Furthermore, references have to be assigned a value at the time of their creation, and keep referring to that same value throughout their lifetime. –  Thomas Mar 4 '10 at 14:20
@Thomas: References aren't assigned a value at creation, they're associated with an address -- a pointer. Yes, they can't be reassociated with a new address, but neither can a const pointer. Assignment via a reference is exactly the same as assignment via a pointer except that you need an extra asterisk for the pointer syntax, that's what I meant by "pointer dereferencing is implied". A reference is no more and no less than a const pointer mixed with a little syntactic sugar. –  Ben Voigt Mar 5 '10 at 5:26

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