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I have following code snippet:

class ABC{
        int a;
        void print(){cout<<"hello"<<endl;}

int main(){
        ABC *ptr = NULL:
        return 0;

It runs successfully. Can someone explain it?

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Can anyone gives more details about runtime of this code? It runs because the class pointer is not using any member variable in print function but it means at runtime it is able to execute the member function (by executing code section?). Sorry i am not a experienced C++ programmer. –  Adil Mar 24 '10 at 6:36
Duplicate : stackoverflow.com/questions/1524312/… –  Satbir Mar 24 '10 at 6:47
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9 Answers

up vote 7 down vote accepted

(I can't recall where I've got this knowledge, so I could be completely wrong)

Under the hood most compilers will transform your class to somthing like this:

struct _ABC_data{  
    int a ;  
// table of member functions 
void _abc_print( _ABC_data* this );  

where _ABC_data is a C-style struct

and your call ptr->print(); will transform to:

_abc_print( NULL)

which is alright while execution since you do not use this arg.

UPDATE: (Thanks to Windows programmer for right comment)
Such code is alright only for CPU which executes it.
There is absolutely positively no sane reason to exploit this implementation feature. And here is why:

  1. Because standard states it yields undefined behavior (could anyone give a link or at least reference(chapter N, par M...)?)
  2. If you actually need ability to call member function without instance, using static keyword gives you that with all the portability and compile-time checks
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The problem with relying on this behaviour is that it is compiler specific. A different compiler might well store a vtable with each instance (though that would perform pretty badly) or a pointer to a common vtable (slighty better) and call all functions like this by actually dereferencing the pointer. AFAIK that would be a legal compiler implementation, causing this code to crash. –  wds Mar 25 '10 at 10:02
@wds: why call non-virtual function via vtable ? –  Alexander Malakhov May 19 '10 at 3:53
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Calling member functions using a pointer that does not point to a valid object results in undefined behavior. Anything could happen. It could run; it could crash.

In this case, it appears to work because the this pointer, which does not point to a valid object, is not used in print.

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its "undefined behavior" but how it is working? I mean to say as it is running then what's happening at run-time which makes it working. –  Adil Mar 24 '10 at 6:21
@Adil - the function does not use any data from the object nor call any virtual member functions, so the compiler did not generate any references to the bad pointer. You got lucky, and another compiler (or the next version of your current one) could crash on the very same code. –  Mark Ransom May 11 '10 at 17:23
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Most answers said that undefined behaviour can include "appearing" to work, and they are right.

Alexander Malakhov's answer gave implementation details which are kind of common and explain why your situation appeared to work, but he made a slight misstatement. He wrote "which is alright while execution since you do not use this arg" but meant "which appeared to be alright while execution since you do not use this arg".

But be warned, your code still is undefined behaviour. It printed what you wanted AND it transfered the balance of your bank account to mine. I thank you.

(SO style says this should be a comment but it's too long. I made it CW though.)

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Why should this be a comment? I think it's a good answer. –  jalf Mar 24 '10 at 15:30
Because it was primarily a joke. Jokes belong in comments not in answers. If other answerers hadn't already given the real answer then I'd have explained the real answer followed by a joke. –  Windows programmer Mar 25 '10 at 0:09
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Though I am not sure if this is the exact answer, this is my understanding. (Also, my terminology for CPP is bad - ignore that if possible)

For C++, when any class is declared (i.e. no instant created yet), the functions are placed in the .text section of the binary being created. When an instant is created, Functions or Methods are not duplicated. That is, when the compiler is parsing the CPP file, it would replace the function calls for ptr->print() with appropriate address defined in the .text section.

Thus, all the compiler would have done is replace appropriate address based on the type of ptr for function print. (Which also means some checking related public/private/inheritance etc)

I did the following for your code (named test12.cpp):

*EDIT: Adding some comments to ASM below ( I really am not good at ASM, I can barely read it - just enough to understand some basic stuff) - best would be to read this Wikibook link, which I too have done :D In case someone finds errors in the ASW, please do leave a comment - I would glad to fix them and learn more too.*

$ g++ test.cpp -S
$ cat test.s
         // Following snippet is part of main function call
         movl    $0, -8(%ebp)   //this is for creating the NULL pointer ABC* ptr=NULL
                                //It sets first 8 bytes on stack to '0'
         movl    -8(%ebp), %eax //Load the ptr pointer into eax register
         movl    %eax, (%esp)   //Push the ptr on stack for using in function being called below
                                //This is being done assuming that these elements would be used
                                //in the print() function being called
         call    _ZN3ABC5printE //Call to print function after pushing arguments (which are none) and 
                                //accesss pointer (ptr) on stack.

vWhere ZN3ABC5printEv represents the global definition of the function defined in class ABC:

  .LC0:                    //This declares a label named .LC0
          .string "hello"  // String "hello" which was passed in print()
          .section        .text._ZN3ABC5printEv,"axG",@progbits,_ZN3ABC5printEv,comdat
          .align 2
          .weak   _ZN3ABC5printEv             //Not sure, but something to do with name mangling
          .type   _ZN3ABC5printEv, @function
  _ZN3ABC5printEv:                   //Label for function print() with mangled name
  //following is the function definition for print() function
  .LFB1401:                          //One more lavbel
          pushl   %ebp               //Save the 'last' known working frame pointer
          movl    %esp, %ebp         //Set frame (base pointer ebp) to current stack top (esp)
          subl    $8, %esp           //Allocating 8 bytes space on stack
          movl    $.LC0, 4(%esp)     //Pushing the string represented by label .LC0 in 
                                     //in first 4 bytes of stack
          movl    $_ZSt4cout, (%esp) //Something to do with "cout<<" statement
          call    _ZStlsISt11char_traitsIcEERSt13basic_ostreamIcT_ES5_PKc
          movl    $_ZSt4endlIcSt11char_traitsIcEERSt13basic_ostreamIT_T0_ES6_, 4(%esp)
          movl    %eax, (%esp)
          call    _ZNSolsEPFRSoS_E   //Probably call to some run time library for 'cout'
          leave                      //end of print() function
          ret                        //returning control back to main() 

Thus, even ((ABC *)0)->print(); works perfectly well.

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For people like me it's pretty hard to figure out what this code does at a glance. Could you make it a little more comprehensible. Say, add comments like .LCFI11: // moving args for operator << to register ESP, movl $.LC0, 4(%esp) // put "hello" on ESP. And replace generated names with more readable ones, like $_ZSt4endlIcSt11char_traitsIcEERSt13basic_ostreamIT_T0_ES6_ ==> $_endl. Those are pure technical details and really do not help to understand what is going on –  Alexander Malakhov Mar 25 '10 at 1:51
@Alexander, thanks for suggestion and you are right - Sorry being a little ignorant. I have added comments about whatever I know, which certainly is not much. –  Shrey Mar 25 '10 at 5:15
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It leads to undefined behavior. I put a bit of work into explaining why. :) But that's a more technical answer.

Basically, undefined behavior means you are no longer guaranteed anything about the execution of the program; C++ simply has nothing to say. It could work exactly how you want, or it could crash miserably, or it could do both randomly.

So appearing to work is a perfectly fine result of undefined behavior, which is what you're seeing. The practical reason why is, on your implementation (and in honestly, every implementation), the this pointer (the address of the instance being invoked) isn't being used at all in your function. That said, if you tried to use the this pointer (for example by accessing a member variable), you'd likely crash.

Remember, the above paragraph is something specific to your implementation and it's current behavior. It's just a guess and something you can't rely on.

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its "undefined behavior" but how it is working? I mean to say as it is running then what's happening at run-time which makes it working. –  Adil Mar 24 '10 at 6:33
@Adil: It's undefined. Alexander explains it well, but that's not guaranteed to work. It's simply something you can't count on. –  GManNickG Mar 24 '10 at 18:57
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probably it runs because your class pointer is not using any member variable in print function...If in print function you try to access a it will not run... as uninitialized class pointer can't have initialized member variable...

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As others said, it is undefined behavior. Regarding the reason why it appears to work is that you are not trying to access the member variable a inside the print(). All the instances of the class share same memory for the code of print() hence this pointer is not required to access the method. However, if you try to access a inside the method you are most likely to get an access violation exception.

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Can you please give a link or draft where it is mentioned that it is undefined behavior. –  Gaurav Aug 23 '13 at 5:39
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Expression ptr->print(); will be implicitly converted to (*ptr).print(); according to C++ Standard (5.2.5/3). And dereferencing the null pointer leads to undefined behaviour. It is fortuitous that the code in question works without errors in your case. You should not rely on it.


If E1 has the type “pointer to class X,” then the expression E1->E2 is converted to the equivalent form (*(E1)).E2; the remainder of 5.2.5 will address only the first option (dot)59). Abbreviating objectexpression. id-expression as E1.E2, then the type and lvalue properties of this expression are determined as follows. In the remainder of 5.2.5, cq represents either const or the absence of const; vq represents either volatile or the absence of volatile. cv represents an arbitrary set of cv-qualifiers, as defined in 3.9.3.

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Is (5.2.5/3) about implicit convertion to (*ptr) or undefined behavior ? –  Alexander Malakhov Mar 25 '10 at 10:04
The implicit conversion isn't a problem. Also if the programmer had written (*ptr).print() then there still wouldn't be a syntactic problem. The problem is that ptr doesn't point to an actual object and ptr is being dereferenced. –  Windows programmer Mar 25 '10 at 23:29
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This works on every compiler I have ever tried it on (And I've tried it on many). Yes it is "undefined" but you are not dereferencing the pointer when you call a non-virtual member. You can even write code using this "feature" although purists will yell at you and call you nasty names and such.

Edit: There seems to be some confusion here about calling member functions. You are NOT dereferencing the 'this' pointer when you call a non-virtual member. You are simply using fancy syntax to pass it in as a parameter. This is with all implementations I have seen, but it's not guaranteed. If it wasn't implemented this way, your code would run slower. A member function is simply a function with and extra semi-hidden parameter. That's it! end of story. That being said there may be some compiler written by Cletus' slack jaw software Co. that has a problem with this, but I haven't run into it yet.

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