Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am unable to find out the bug in the below code which i had written[Not for any purpose though].

#include < iostream >
#include < cstdlib >

using namespace std;

class Base{
        Base(){cout << "Base class constructor" << endl;}
        void funv() {};
        ~Base(){cout << "Base class destructor" << endl;} ;

class Derived:public Base{
        char *ch;
        Derived():ch(new char[6]()){}
                cout << "before" << endl;
                delete [] ch;
                ch = NULL;
                cout << "after" << endl;

int main(){

        Derived * ptr = new Derived;

        //memcpy(ptr -> ch,"ar\0",4); // Works when class Derived is derved from base and also when not derived from base

        ptr -> ch = const_cast < char* >("ar0");  // Works only when class Derived is not derived from class Base

        cout << ptr -> ch[1] << endl;

        ptr -> funv();

        delete ptr;

        return 0;

I have commented on the suspected lines of the code.

I am using sun Studio 12.

share|improve this question
-1: No idea why you thought this would be safe. – Lightness Races in Orbit Jul 7 '14 at 17:21
@LightnessRacesinOrbit: Yes, after more than 3 years of asking this question, even I now dont know why I thought it would be safe :). Thanks for bringing it to notice – Arunmu Jul 7 '14 at 18:49
up vote 2 down vote accepted

This is an Undefined behavior. It will cause problem in any case, whether you derive it or not. When you assign a const char* to a char* like below:

ptr -> ch = const_cast < char* >("ar0");

That means, you are assigning a character string which is defined in non-heap segment (mostly in data segment). One should only delete memory which was allocated on heap segment.

Also, above assignment statement is executed, it will leak memory pointed by ch earlier. One way to avoid such problem is to declare the variable as,

private: char* const ch;

As soon as you try assigning something to ch, it will give compilation error. So that it will make you write wrapper to assign ch and there you can take care of deallocation.

share|improve this answer
Yes. you are right. But why I am not getting a seg fault when i am not deriving from base class? Or is it due to UB i am not getting any seg fault ? – Arunmu May 11 '11 at 5:55
yes it is due to Undefined Behavior. You might get segmentation fault in some other compiler. But it's a pure UB. – iammilind May 11 '11 at 5:57

I think you have a serious problem with understanding the meaning of Undefine Behavior.

Undefined Behavior doesn't necessarily mean a segfault

sorry for shouting but this is a very importan point.

Undefined behavior means, like the name suggest, "undefined". This means that you don't know what is going to happen. Actually a segfault is the best thing that you can hope for... but unfortunately 90% of UB in C++ is just silent.

The application will run normally and will even give you the results you expect. Everything will be fine... until of course the demo day when in front of an hundred people the application will crash badly just for the fun of getting your stunned face on youtube.

Undefined behavior is one of the reasons for which learning C or C++ by experimentation is a bad idea. When you make an error in C++ the language is not going to help you... the silent assumption is basically that you will not make any error... and if you are learning the language this is of course a very difficult requirement to match.

Undefined behavior is also the reason for which putting too much hope in the test suite when writing in C or C++ is also a bad idea. In these languages (and in other languages where UB is present) it is a very dumb approach to write code without too much thinking (therefore letting bugs in) and then hoping to remove them later. While this idea of saving thinking time first and trading it with debugging time later is IMO a bad approach in general (the cost/effort of bug removal will always be higher), in languages that allow UB this is a true suicide because bugs can hide also behind non-deterministic behavior.

Clearly I'm not saying that testing is a bad idea... it's of course a great one (basically a must-have if you want to keep a refactoring possibility) but only if it's not used as an excuse to lower the attention you put when writing the code.

You should basically avoid to confuse what is an error (i.e. UB) with what is a crash (i.e. the segfault). Crash are friends... and you want to have as many possible crashes as you can, because a crash is a signal that an error is present. To add more possible crash points for example you should use assertions... a segfault is just an assertion automatically placed by the environment but you need more. When you have a crash then you know there is an error and you can start looking for it. Unfortunately when you don't have a crash it doesn't mean that there are no errors... it simply means that no bug fell in the traps you've prepared for them.

A piece of code can compile fine (zero errors and zero warnings), it can pass the whole test suite... but can still be at the same time incorrect. This is true of course even in higher level languages where it has been decided that the performance price to pay to avoid UB was worth runtime checks (e.g. Java) but an higher logical level. UB in C and C++ makes things a little harder because of non-determinism.

In your code UB is triggered because you are calling delete[] on a pointer that wasn't obtained with a call to new ... [] (a string literal). This may or may not of course generate a segfault.

Your code also has some other legal but very questionable parts:

  1. The base class destructor is not virtual. You are not destroying a derived object using a pointer to base, so this is legal, but none the less it's a bad idea. If a class is meant to be derived then the destructor should be virtual.

  2. The derived class defines a destructor, but no copy constructor and no assignment operator. These three methods should always go together: either you define none of them or you define (or at least declare) all three of them. The reason is that these three methods are automatically created by the compiler if they are not present and it's quite unlikely that the automatically generated code is correct in one case but not in the others. In your code for example if someone makes a copy of the derived object using Derived *der2 = new Derived(*der1); the pointer to the dynamically allocated memory will be just copied and possibly deallocated twice (once for each of the two objects destroyed); in case of an assignment with *der2 = *der1; instead you will have a potential double-deallocation in addition to a memory leak. It may make sense to forbid copy constructor and assigment for a class, but in this case the common idiom is to declare those methods private and leaving them not implemented (this will give a compile error if someone else tries to use them, and a link error if a method uses them by mistake).

share|improve this answer
well written but from the answers which I have got it is the 10% that have come into picture i.e "Seg Fault due to UB". Any other possible flaw you see other than assigning string literal to a char pointer to which memory has been allocated? (I think the flaw is big enaough...but still :) ) – Arunmu May 11 '11 at 6:45
If you think that the absence of a virtual destructor is an error here you are wrong. Virtual destructors are of course always a good idea for classes meant to be derived... but if you never destroy a derived object using a pointer to base this is not a language requirement. – 6502 May 11 '11 at 6:51
I've edited by adding another couple of comments about your C++ code. – 6502 May 11 '11 at 7:28
"Derived *der2 = new Derived(*der1);" :: My constructor doesnt take any parameter and from what i know on doing "Derived der2 = der1;" there will be shallow copying due to copy constructor. or Doing this "Derived der2 = *der1;" – Arunmu May 11 '11 at 8:23
This is exactly the problem. After copy construction or assignment the two objects will have the same value in the char * member ch so both of the objects will call delete[] on the same pointer (and this is also UB). The general rule says that if you have for example a destructor then probably shallow copy or shallow assignment is not correct (but it's what C++ will create automaticall if you don't write your own version). – 6502 May 11 '11 at 8:45
memcpy(ptr -> ch,"ar\0",4);

memcpy copys the contents from source buffer to the destination buffer your pointer ptr->ch points to.

ptr -> ch = const_cast < char* >("ar0");

You're reassigning the value to the pointer itself. This is dangerous because you have no way to get the original buffer on heap anymore. That's a memory leak. Also, in your destructor you delete this pointer which now doesn't points to a buffer on heap. It's undefined.

share|improve this answer
Vote down without leaving a comment is so not professional. No reasons? – Eric Z May 11 '11 at 6:00
I am performing only one action at a time . Not doing both at same time. For test puposes i leave one of the two statements commented. – Arunmu May 11 '11 at 6:03
@Eric, I think someone might have voted down because of your reference to memcpy; that line is commented in the code; so it doesn't have any relevance. I suggest, you should remove that line from your answer. – iammilind May 11 '11 at 6:05
@ArunMu, I don't think you understand the two lines of your code correctly. Though you comment out "memcpy" line, you are asking us why the second one doesn't work in both case while the first one does. That shows to me that you don't have a clear distinction of them. So here is my answer, to clarify them for you. – Eric Z May 11 '11 at 6:10
@iammilind, No. If OP had known the difference between "memcpy(ptr->ch..)" and "ptr->ch=..", he wouldn't have used the pointer that way, which caused the memory leak and undefined behavior eventually. – Eric Z May 11 '11 at 6:13

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.