Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Suppose, I have the following code:

class Data
    int *m_arr;
    int m_size;
    bool m_deAlloc;
    Data(int *arr, int size): m_arr(arr), m_size(size), m_deAlloc(false) {}
    ~Data(){ if(m_deAlloc) delete[] m_arr; }

void foo(Data &d)
   // uses d ...

void foo_wrapper(int *arr, int size)
   Data d(arr, size); // should I create it as new Data(arr, size)?

   foo(d); // asynchronous call...

} // ~Data() will be called but m_arr array will not be erased...

int main()
  int *arr = new int[...];
  foo_wrapper(arr,...); // internally calls foo asynchronously...
  // wait for foo execution completion....
  delete[] arr;

I tried it with gcc and it works apparently but I think it's not a valid program as "Data" reference passed to "foo" from "foo_wrapper" can be invalid as destructor of the object passed might get called before foo has finished executing (asynchronous execution). Although I don't delete data (m_arr) but still what happens with the object reference when destructor gets called?

Does the C++ (gcc) compiler just calls the destructor. For example when a destrutor for object "d" is called, does it relocate memory allocation for object "d" and set "d" to some invalid reference?

share|improve this question
how do you allocate arr pointer? –  billz Nov 6 '12 at 11:26
Show real main, it depends how array initialized before passing to foo_wrapper –  Denis Ermolin Nov 6 '12 at 11:27
delete m_arr[]; is wrong, it shall be delete [] m_arr; –  billz Nov 6 '12 at 11:28
@billz I have edited the question. –  user600029 Nov 6 '12 at 11:48

2 Answers 2

up vote 1 down vote accepted

In this case, the Data instance (d) you pass to foo() will just be placed on the main thread's stack -- it can certainly be destructed and out of scope (e.g. potentially reused as the main thread continues execution) before foo() returns. It is undefined behavior. Even if the allocation were not overwritten, you should not play with a destructed object.

One way or another, you need to ensure the parameter d is valid and not destructed until after foo() has returned.

share|improve this answer
Thanks! Does instance d will be placed on foo_wrapper function stack? If its main thread stack then when main thread stack gets destroyed? With end of main() func? –  user600029 Nov 6 '12 at 11:58
@user600029 you're welcome. yes, it will be allocated on foo_wrapper's stack (main thread) and passed to foo (secondary thread) by reference. the storage for the object will not be yours to read or write to at the end of the scope (by the point foo_wrapper has returned). –  justin Nov 6 '12 at 12:04
Great, That clarifies my confusion. I got confused because it was working with gcc 4.7.1 even when the foo was a heavy call (finishing much later than foo_wrapper). I think its just a compiler+system internal thing when it "actually" de-allocates stack memory. –  user600029 Nov 6 '12 at 12:15
@user600029 would the behavior you saw maybe be explained by the fact that the compiler is free to overwrite that region of memory while or before foo executes? –  justin Nov 6 '12 at 12:31

Depends how array was initialized. If you initialize it on stack then this is undefined behavior because if foo() is asynchronous then it's true that array can be destroyed before foo() finish. But if it allocated on the heap then it's safe if you delete array inside foo, or after foo call.

But it's safer to use std::shared_ptr. It's perfect to manage pointers between asynchronous calls.

share|improve this answer
I have edited the question now. I am using dynamic allocation for array But I dont get your point with how array on stack can get destroyed before foo finish execution? –  user600029 Nov 6 '12 at 11:53
You passing address of memory that allocated on the stack of another thread. So child thread doesnt own parent's stack and cant guarantee that memory will valid during execution –  Denis Ermolin Nov 6 '12 at 11:57

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.