I am working on someone else code in C++, and I found a weird call to a certain function func(). Here is an example:


What is the difference between func() and (*this).func()?

What are the cases where the call to func() and (*this).func() will execute different code?

In my case, func() is not a macro. It is a virtual function in the base class, with an implementation in both base and derived class, and no free func(). The if is located in a method in the base class.

  • 40
    Not that it matters much, but (*this).func() is more readable as this->func() – Ring Ø Aug 4 '16 at 10:34
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    @ringø This is highly debatable... – LukeG Aug 4 '16 at 11:03
  • 7
    @pjc50 you cannot overload * for primitive types and this is a keyword which alvays evaluates to rvalue of pointer type. – Revolver_Ocelot Aug 4 '16 at 11:49
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    @LukeG Debatable, certainly. But most of the code I see uses ->, operator that has been created for a reason. Similarly, a[X] is usually preferred to *(a+X). This makes me think that "someone else code" may not be doing what the author intended it to do ; maybe he thought the first one would call the base class implementation... – Ring Ø Aug 4 '16 at 12:11
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    @ringø I think LukeG misunderstood your first comment as "is more readable than", which is the opposite of what you meant...right? I understood it wrong at first glance, too. – DerManu Aug 5 '16 at 1:39

There actually is a difference, but in a very non-trivial context. Consider this code:

void func ( )
    std::cout << "Free function" << std::endl;

template <typename Derived>
struct test : Derived
    void f ( )
        func(); // 1
        this->func(); // 2

struct derived
    void func ( )
        std::cout << "Method" << std::endl;

test<derived> t;

Now, if we call t.f(), the first line of test::f will invoke the free function func, while the second line will call derived::func.

  • 2
    I agree with you. But in my case, there are no free functions ;) – gtatr Aug 4 '16 at 10:18
  • 40
    @g.tataranni And, how should we know that, if there's no context in your question? Please provide us with minimal reproducible example, so that there's no guessing involved. – Algirdas Preidžius Aug 4 '16 at 10:22
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    I believe this was a joke about functions being free – slawekwin Aug 4 '16 at 10:47
  • 25
    This reminds me: know why the leaking program gets a rather large phone bill? No free calls. – Tobia Tesan Aug 4 '16 at 13:29
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    So, this doesn't even answer the question, but gave me a silver C++ badge. Weird. – lisyarus Aug 10 '16 at 7:35

It is impossible to tell from the snippet but possibly there are two callable objects called func(). The (*this).func(); makes sure the member function is called.

A callable object could be (for example) a functor or a lambda expression:


struct func_type
    void operator()() const { /* do stuff */ }

func_type func; // called using func();


auto func = [](){ /* do stuff */ }; // called using func();

For example:

#include <iostream>

class A

    // member 
    void func() { std::cout << "member function" << '\n'; }

    void other()
        // lambda
        auto func = [](){ std::cout << "lambda function" << '\n'; };

        func(); // calls lambda

        (*this).func(); // calls member

int main()
    A a;


lambda function
member function
  • FTR, I had to overcome some inner resistance to upvote this answer and not downvote or edit away its misuse of the word functor. Since function object is a conventional standard meaning of the word functor in the context of C++, what right have I to do that... still, just saying. I always cringe a bit when I see the word used this way. – leftaroundabout Aug 4 '16 at 19:34
  • @leftaroundabout I think many C++ programmers familiar with category theory (including me) feel the same internal rant. But that's the accepted and widespread terminology, we have to accept it. – lisyarus Aug 9 '16 at 19:54

Another case when those two lines will call different functions:

#include <iostream>

namespace B
{ void foo() { std::cout << "namespace\n"; } }

struct A { 
  void foo() { std::cout << "member\n"; }

  void bar()
      using B::foo;

int main () 
    A a;
  • There is no real difference to the other examples with one member and one non-member function, is there? – exilit Aug 4 '16 at 18:25
  • 1
    @exilit different paragraphs in lookup rules. All answers shows how different rules interact with each other. – Revolver_Ocelot Aug 4 '16 at 18:32

With type dependent name, it may be different:

void func() { std::cout << "::func()\n"; }

struct S {
    void func() const { std::cout << "S::func()\n"; }

template <typename T>
struct C : T
    void foo() const {
        func();         // Call ::func
        (*this).func(); // Call S::func


  • I've suddenly forgotten all my past CRTPs... Does this just do the same thing as static_cast<Derived>(this)->func()? I just assumed the latter was strictly needed, as it's used in examples so often, but now I'm wondering why if this->func() works just as well. I suspect there's another reason I'm not seeing. – underscore_d Aug 5 '16 at 11:00
  • @underscore_d: The important part is dependent name. func() doesn't depend of T whereas (*this).func(), this->func() or T::func() does depend of T. – Jarod42 Aug 5 '16 at 11:07

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