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if a function return an int, can it be assigned by an int value? I don't see it makes too much sense to assign a value to a function.

int f() {}

f() = 1;

I noticed that, if the function returns a reference to an int, it is ok. Is it restricted only to int? how about other types? or any other rules?

int& f() {}

f() = 1;


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what would be the point to assign a value to a function ? Why not use a variable instead ? –  Gaby aka G. Petrioli Feb 7 '10 at 13:29

4 Answers 4

up vote 17 down vote accepted

The first function returns an integer by-value, which is an r-value. You can't assign to an r-value in general. The second f() returns a reference to an integer, which is a l-value - so you can assign to it.

int a = 4, b = 5;

int& f() {return a;}

f() = 6;
// a is 6 now

Note: you don't assign a value to the function, you just assign to its return value. Be careful with the following:

int& f() { int a = 4; return a; }

You're returning a reference to a temporary, which is no longer valid after the function returns. Accessing the reference invokes undefined behaviour.

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could you explain why return by-value is a r-value? –  skydoor Feb 7 '10 at 13:36
The return value of a function isn't a proper C++ variable, such as int i;. It is just a temporary value. It doesn't represent a memory location. –  Alexander Gessler Feb 7 '10 at 13:48
@skydoor, it can be summarized by "you can only assign to objects" . In your call, the function returns a value that doesn't correspond to an object: The integer represents just an abstract value. If you had, for example, returned a std::string, the value returned (which is actually an r-value) will correspond to a string object, and you could assign to it. The same is true for a int& return value. In that case, the "value" returned (which is an l-value) corresponds to an int object, and you can assign to it. An object is necessary, because an assignment modifies a stored state. –  Johannes Schaub - litb Feb 7 '10 at 14:49

It's not limit to int only, but for the primitive types there no point in doing it. It's useful when you have your classes

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Are you saying there is no point in returning a reference to a primitive type? So things like operator[] of vector<int> are pointless? –  sepp2k Feb 7 '10 at 13:38
There is a lot of point in doing it (if by 'it' you mean returning a reference) - if you have a std::vector<int> then the functions that access things in the vector return int references. –  anon Feb 7 '10 at 13:38
In the context of his example –  anthares Feb 7 '10 at 13:41
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Links =/= answer –  Eva Mar 27 '13 at 20:15

If a function returns an object by value, then assignment is possible, even though the function call is an rvalue. For example:

std::string("hello") = "world";

This creates a temporary string object, mutates it, and then immediately destroys it. A more practical example is:


You could not write list.begin() + 1, because addition is not possible on list iterators, but increment is fine. This example does not involve assignment, but assignment is just a special case of the more general rule "member functions can be called on rvalues".

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It's a common case? Can you give me an example? –  skydoor Feb 7 '10 at 14:13
While i understand it's just an example, notice that ++list.begin() is not required to work. The operator can be implemented as a free function which accepts a non-const reference and will fail to bind to the iterator temporary. –  Johannes Schaub - litb Feb 7 '10 at 15:24
Thanks, I can never remember which operators have to member functions and which can be free functions. –  FredOverflow Feb 7 '10 at 18:09

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