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I've written a program that allocates a new object of the class T like this:

T* obj = new T(tid);  

where tid is an int

Somewhere else in my code, I'm trying to release the object I've allocated, which is inside a vector, using:


and then:

myVec[i] = NULL;

Sometimes it passes without any errors, and in some cases it causes a crash—a segmentation fault.

I've checked before calling delete, and that object is there—I haven't deleted it elsewhere before.

What can cause this crash?
This is my code for inserting objects of the type T to the vector:

_myVec is global

int add() {     

int tid =  _myVec.size();  
T* newT = new T (tid);  
    if (newT == NULL){  
        return ERR_CODE;  
//  _myVec.push_back(new T (tid));  

    return tid;  

as it is - the program sometimes crash.
When i replace the push_back line with the commented line, and leave the rest as it is-it works.

but when i replace this cose with:

int add() { 

int tid =  _myVec.size();  
    if (newT == NULL){  
        return ERR_CODE;  
    _myVec.push_back(new T (tid));  

    return tid;  

it crashes in a different stage...

the newT in the second option is unused, and still - changes the whole process... what is going on here?

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Are you sure that the index point at valid array item? –  Kevin Mar 22 '11 at 16:19
To answer this question we need to see the definition of myVec and how you are inserting elements into it. –  Asha Mar 22 '11 at 16:21
This could be caused by pretty much any kind of pointer error or buffer overflow, so just the information you gave won't help to find the problem. Do you have access to a tool such as Valgrind? –  Jeremiah Willcock Mar 22 '11 at 16:26
If that's a STL vector use erase or std::remove instead ... would need more relevant code and or callstack to know what is wrong though. –  AJG85 Mar 22 '11 at 16:29
you might also want to check if the fault is occurring in the destructor. –  Agnel Kurian Mar 22 '11 at 16:32

5 Answers 5

Segfaulting mean trying to manipulate a memory location that shouldn't be accessible to the application.

That means that your problem can come from three cases :

  1. Trying to do something with a pointer that points to NULL;
  2. Trying to do something with an uninitialized pointer;
  3. Trying to do something with a pointer that pointed to a now deleted object;

1) is easy to check so I assume you already do it as you nullify the pointers in the vector. If you don't do checks, then do it before the delete call. That will point the case where you are trying to delete an object twice. 3) can't happen if you set NULL to the pointer in the vector.

2) might happen too. In you case, you're using a std::vector, right? Make sure that implicit manipulations of the vector (like reallocation of the internal buffer when not big enough anymore) doesn't corrupt your list.

So, first check that you delete NULL pointers (note that delete(NULL) will not throw! it's the standard and valid behaviour! ) - in your case you shouldn't get to the point to try to delete(NULL). Then if it never happen, check that you're not having your vector fill with pointers pointing to trash. For example, you should make sure you're familiar with the [Remove-Erase idiom][1].

Now that you added some code I think I can see the problem :

int tid =  _myVec.size(); 

You're using indice as ids.

Now, all depends on the way you delete your objects. (please show it for a more complete answer)

  1. You just set the pointer to NULL.
  2. You remove the pointer from the vector.

If you only do 1), then it should be safe (if you don't bother having a vector that grows and never get released and ids aren't re-used).
If you do 2. then this is all wrong : each time you remove an object from a vector, all the object still contains after the removed object position will be lowered by one. Making any stored id/index invalid.

Make sure you're coherent on this point, it is certainly a source of errors.

share|improve this answer
delete (T*)0; is perfectly safe (or so the standard requires), so there is no need to check before calling delete. –  Matthieu M. Mar 22 '11 at 16:52
What I mean is that he shouldn't get to this point, in his specific case (and I indeed said that it's valid, maybe not clearly, I'll fix this). If he get to the point he delete NULL, then it means the algorithm that got the process to get there tries destroy an object that it thinks should be alive, while it's dead. The object managing the vector should make sure that never happens, and by doing this, make the use of thos object more safe. –  Klaim Mar 22 '11 at 16:52
I don't understand, regardless of the seg. fault - what is the difference between the three options of using push_back that i've mentioned above, and why does each of them cause a different behavior of the program? –  Zach Mar 22 '11 at 17:01
I'm adding some modifications because I think I spoted your problem... –  Klaim Mar 22 '11 at 17:13

that segmentation fault is most probably and memory access violation. Some reasons

1) object already deallocated. be sure you set that array position on NULL after delete 2) you are out of array bounds 3) if you access that array from multiple threads make sure you are synchronizing correctly

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If you're completely certain that pointer points to a valid object, and that the act of deleting it causes the crash, then you have heap corruption.

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You should try using a ptr_vector, unlike your code, it's guaranteed to be exception-safe.

Hint: if you write delete, you're doing it wrong

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You can't be sure that the object is still valid: the memory that was occupied by the object is not necessarily cleaned, and therefore, you can be seeing something that appears to be your object but it is not anymore.

You can use a mark in order to be sure that the object is still alive, and delete that mark in the destructor.

class A {
    static const unsigned int Inactive;
    static const unsigned int Active;


    /* more things ...*/
    unsigned int mark;

const unsigned int A::Inactive = 0xDEADBEEF;
const unsigned int A::Active = 0x11BEBEEF;

A::A() : mark( Active )

    mark = Inactive;

This way, checking the first 4 bytes in your object you can easily verify whether your object has finished its live or not.

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