I was given the following as an interview question:

class A
    void fun()
        std::cout << "fun" << std::endl;

A* a = NULL;

What will happen when this code is executed, and why?

See also:

  • 24
    Undefined behaviour. Or if the code is to be taken literally as a complete unit, a compilation error.
    – anon
    Mar 28 '10 at 15:48
  • 7
    Tricky question, or trick question? It won't compile because Class (capital C) isn't a C++ keyword.
    – Ken
    Mar 28 '10 at 15:49
  • 2
    @ duffymo, I have checked it and it prints "fun" and I couldn't figure out why, so I asked here. Mar 28 '10 at 16:00
  • 16
    @Rajendra It doesn'nt matter what it does when you compile it with your specific compiler, the C++ Standard says that dereferencing a null pointer is undefined. So the next iteration of your compiler, or another compiler might do something different, but equally undefined.
    – anon
    Mar 28 '10 at 16:03
  • 7
    How is this "tricky"? It's basic and, if you ask me, rather pointless. Creating a pointer, initializing it to NULL and using it in the very next line - how "typical"! Mar 28 '10 at 16:08

It's undefined behavior, so anything might happen.

A possible result would be that it just prints "fun" since the method doesn't access any member variables of the object it is called on (the memory where the object supposedly lives doesn't need to be accessed, so access violations don't necessarily occur).

  • 10
    @Kamal If the function is not virtual, then it gets statically linked. No need for a table. No need for the object pointer. Mar 28 '10 at 16:13
  • 4
    @Kamal The compiler could use static information (it knows the pointer is of type A) to find the function. The fact that the compiler can do this does mean that it must, and does not prevent this from being undefined behaviour.
    – anon
    Mar 28 '10 at 16:13
  • 1
    @Kamal: Who said it must be stored? The compiler can transform the function call into A::fun(a).
    – kennytm
    Mar 28 '10 at 16:14
  • 2
    @Kamal: The compiler knows the type of the object and the address of the method that should be called at compile time and can insert that address "hard coded". There is no need to look anything up at runtime. (This doesn't mean the compiler has to do it that way, but it could.)
    – sth
    Mar 28 '10 at 16:14
  • 1
    The object qualifies as POD, so I don't believe the compiler is allowed to have any hidden fields in the object to be used for finding member functions. That being the case, it would be very surprising if the compiler couldn't find the correct member function. It's not even allowed to have a lookup table mapping object pointers to member functions, due to the lifetime rules for POD types. There's very little flexibility in member function resolution here. Really, the fact that this is undefined behavior allows the compiler to inject an explicit null check to aid in debugging.
    – Ben Voigt
    Jul 2 '13 at 5:11

By the standard, this is undefined behavior and therefore a very bad thing. In reality of most programming platforms (across both X86 and several other architectures) this will run fine.

Why? Consider how class functions are implemented in C++. This isn't a virtual function, therefor this can be a static call to a known address. In x86 assembly, we can see this as

mov A, 0
mov ecx, A
call a__fun

since a__fun requires no instance data, even though it receives a null this pointer, nothing will happen.

Still shitty code and any compiler will scream, but it can run.

  • 3
    Yes, this is undefined behavior. Yes, this may run as expected on a given architecture. However it is wise to always keep the following wisdom in mind: "The worst possible outcome of undefined behavior is for it to do what you were expecting."
    – dgnuff
    Jun 26 '18 at 20:18
  • This answer ignores all "optimisations". If the compiler can see that the pointer is null it can just elide the call entirely. You're focused too much on the low level details of what happens to the call if it happens. But there's a reason we call it undefined. That's not the same as "basically works". Apr 23 '20 at 13:59

The most likely behavior, on most modern computers, is that it will run, and print "fun", because:

  • C++ doesn't check whether the pointer is NULL before calling the function
  • fun() is not virtual, so there's no need to refer to a vtable to call fun()
  • fun() never access any member variables in A so it doesn't need to dereference the null this pointer.
  • 3
    3. A* a = NULL; a->fun(); is illegal outside of a function body.
    – sepp2k
    Mar 28 '10 at 15:51
  • 2
    But I think we still can bend our minds and sort of understand what he meant
    – henle
    Mar 28 '10 at 15:54

We can't know what will. Everything can happen, because the program exposes undefined behavior. See Does invoking a member function on a null instance cause undefined behavior?.


I have tried multiple times,all the time output is coming "fun" this is because function fun is independent of instance a. while calling a->fun(); a points to 0 so this is undefined behavior but in most of the compilers there should be no crash.

  • 1
    A* a = NULL; emphatically does not result in a constructor call Oct 29 '11 at 21:04

Three points might help:

1) All Functions are stored in code or text section.

2) Non Virtual functions are resolved at complie time.

3) While calling to member functions of class, we pass current object as this pointer to that function.

Coming to your question , here fun() function is already in memory(code section / text section). As function fun() is non virtual , it will be resolved at complie time (i.e, for this line it will jump to instruction X at code section with this pointer as NULL). As no member variable and no virtual function are used/called in fun() function, it is working fine.

  • Can't anyone compile this and see what it really does?
    – kismert
    May 17 '18 at 15:00

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