If I have a Foo *foo, I can say foo->bar(). Is it possible to call the operator->() function manually? And if so, how would I pass it bar()?

Does it make a difference if it is Foo foo instead?

Maybe something like foo.operator->(bar)?

  • 2
    @Michael, obfuscate code obviously. :)
    – Gleno
    Commented Jul 20, 2011 at 20:49
  • Lol, I was trying to be polite :) Commented Jul 20, 2011 at 20:50
  • You don't pass it bar. The overloadable operator-> is a unary operator, acting on its LHS only. It returns either a pointer, or an object that in turn has operator-> overloaded. Eventually you get a pointer, which is substituted in for the LHS. C++ functions can't take names as parameters, so there's no way to say "when bar is looked up in an instance of class Foo, do this:", as you might be used to from for example the __getattr__ function in Python. Commented Jul 20, 2011 at 23:57

3 Answers 3


Yes, you can. With overloaded -> the foo->bar() expression is interpreted by the compiler as foo.operator->()->bar(). And this is exactly how you can call it "manually": foo.operator->()->bar().

If your overloaded operator -> function is implemented "properly", i.e. it returns something that also supports operator -> then there's not much point in using the "manual" syntax, since it is doing the same thing as the "non-manual" one.

The only case you'd need the "manual" syntax is when your implementation of overloaded operator -> returns something that does not support another application of ->. An int value, for example.

  • As foo is a pointer, would that still be interpreted as foo.operator->()->bar()? . or ->? Commented Jul 20, 2011 at 20:54
  • @Nawaz can't overload operators unless at least one of the type is user-defined. If it were allowed, the call would be with the form operator->(foo)->bar() because only class types have members. Think of operator+(int, T const&) which is allowed provided T is user-defined: 0 + t would be sugar for operator+(0, t), not 0.operator+(t).
    – Luc Danton
    Commented Jul 20, 2011 at 20:56
  • @Luc: I didn't understand your comment. My confusion was about . vs -> in foo.operator Commented Jul 20, 2011 at 20:59
  • @Nawaz I assumed foo had type Foo*, as in the OP's question. If foo has a class type, e.g. std::unique_ptr<Foo>, then you are correct: foo->bar is equivalent to foo.operator->()->bar.
    – Luc Danton
    Commented Jul 20, 2011 at 21:10
  • 2
    operator->() will be implicitly called, in a chain, as many times as necessary in order to get something that's of a pointer type, at which point the built-in logic for -> (dereference the pointer and access the member) kicks in. (That can't be overridden because you can't overload operators for pointer types.) Of course, if the chain ends with a type that is neither a pointer nor has an overload (such as an int), then you get a compiler error. Commented Jul 20, 2011 at 22:23


(*foo)->bar();               //syntax one   (implicit)
(*foo)->operaror->()->bar(); //syntax two   (explicit)
 foo->operator->()->bar();   //syntax three (explicit)

Is it possible to call the operator->() function manually?

There is no operator->() function because foo in your example is a pointer. For pointers, the behavior of -> is defined by the language.

If the type Foo has an operator->() function, and you have Foo *foo defined, you can do this to call the operator->() function:


Or you can use the direct call syntax:


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