I've read that the Member Access Operators dot operator . and arrow operator -> return values:

The arrow operator requires a pointer operand and yields an lvalue. The dot operator yields an lvalue if the object from which the member is fetched is an lvalue; otherwise the result is an rvalue.

This is from C++ Primer 5 edition.

So I imagine I can assign a value whenever a non-const lvalue is the return of their expression e.g:

struct foo {
    int x_;
    const int y_ = 17; ;
    void bar() { cout << "bar()" << endl;}
}f, *pf;

pf = &f;

(pf->bar()) = 75; // error
cout << f.x_ << endl;
(f.bar()) = 12;// error
(f.x_) = 23;
cout << "f_x: " << f.x_ << endl;
(pf->y_) = 34;// error

I am confused about assigning to the return value of arrow operator. Above it is said that -> always returns an lvalue but it fails if I try to assign to that value.

  • Can anyone explain to me the paragraph above from the C++ book. Thank you.
  • 2
    This has nothing to do with operator->. Its just that you are assigning to the result of a void function and to a const int. You would get the same thing if you changed pf-> for f. everywhere. – François Andrieux Mar 6 at 20:04
  • Thats happens because your bar() is a function and your y_ is a const, you cannot change that values. – Esdras Xavier Mar 6 at 20:04
  • @FrançoisAndrieux: What does it mean "arrow operator always returns an lvalue" ? or this is a mistake in the book? – AdamMenz Mar 6 at 20:05
  • @AdamMenz It means just what it says. That operator-> always returns an lvalue. Edit : Though how old is that quote? I'm not sure if that's true. – François Andrieux Mar 6 at 20:06
  • 1
    pf->bar evaluates to the address of the function bar. pf->bar() evaluates to the return type of the function bar, which is this case is void. You can't assign a value of 75 to that, sorry. But if the function had returned a reference to a modifiable integer, for example, then (pf->bar()) = 75; would have compiled (with or without the additional parentheses). – Tim Randall Mar 6 at 20:12

Above it is said that -> always returns an lvalue but it fails if I try to assign to that value.

This is about member variables, not functions. bar returns void so you can never assign to it. x_ works since it gives you an integer lvalue expression. y_ fails because it is const, and you can't assign to a const variable.

So, in

foo bar;
foo* f = &bar;

both member accesses yield an lvalue expression. In

foo f;

you again have lvalues since f is an lvalue. However, in


both member accesses are rvalues since foo{} is an rvalue.

  • Thank you very much. That is really so clear and instructive. In fact I know I can't assign to an rvalue fro example from a function returns by value. But now you made things so clear and I understood the paragraph in the book. Thank you again. – AdamMenz Mar 6 at 20:33
  • 2
    @AdamMenz You're welcome. Glad to help. – NathanOliver Mar 6 at 20:35
  • 1
    So as in your example foo{}.x_ = 10; is incorrect because the dot operator here returns rvalue because the object on which it is called is an rvalue not lvalue. But f.x_ = 2; is correct becuase f is an lvalue and x_ . is also a modifiable lvalue thus the assignment succeeds. – AdamMenz Mar 6 at 21:02
  • 1
    @AdamMenz Correct. – NathanOliver Mar 6 at 21:09
  • Thanks for your time and elaboration and being such constructive person. – AdamMenz Mar 6 at 21:13

Can I assign to the return value of member access operator?

If the left hand operand of the operator is an lvalue, and if the member is assignable and non-const, then yes. In other cases, no.

(pf->bar()) = 75; // error

You are not assigning to the result of the member access operator. You are invoking a member function. The result is whatever the function returns. The function returns void, which is not assignable.

 (pf->y_) = 34;// error

You're attempting to assign a const object. That is ill-formed even if the expression is an lvalue.

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