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I have a General question about memory management in my c++ code. The compiler complains that there is a potential memory leak when I replace a pointer to an object with an new pointer to an object that I have initialized dynamically on the stack. Example:

int* foo(int* h){
 int* b = new int(5);
 b = h;  //Memory leak here. How do I delete b without creating a dangling pointer?
 return b;
}

I then use this function to change the state of a pointer

int i = 1; int* c = &i; foo(c);

So my question is I have a class that has a function similar to the one above. when can I delete b from the foo function?

delete b;

would this go into the destructor (which would not help me, as I am using function foo loads of times. so the heap would get used up possibly....? )

If I have not provided enough info above. Please let me know.

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2  
Let's start with the basics: your function foo does not modify the value pointed to by its parameter at all. What is it supposed to do exactly? –  Jon Jun 20 '11 at 14:55
    
foo(c); does nothing with c –  rmflow Jun 20 '11 at 14:55
    
to be honest i didn't understand your question.. but there is a risk of memory leak, for example: foo(new int); here an int will be leaked when u call foo –  Hayri Uğur Koltuk Jun 20 '11 at 14:55
    
The compiler is correct that this could be a memory leak. Are you losing the address of an allocated object when you change the pointer? It seems convoluted and error prone to me. Is there a better way to accomplish it? –  Jay Jun 20 '11 at 14:57
1  
In your case (seeing code snippets like this), I would forget about new and delete –  BЈовић Jun 20 '11 at 15:35

3 Answers 3

up vote 2 down vote accepted

Since this is a general question, my preferred general approach would be to use a smart pointer handled using RAII within your class.

The smart pointer encapsulates the raw pointer, and handles required memory management for you - when your class is destructed, whatever pointer value is held therein at the time will get cleaned up without you having to manually delete it. When you assign a new value to the smart pointer, it auto-deletes the existing value for you, if any.

boost::scoped_ptr as a class member ought to work well for you here.

There also seems to be confusion here about what's on the stack and what's on the heap. You will not use up the stack simply because you are calling foo over and over (unless you recurse into foo unbounded, in which case you will eventually run out of stack space). Your local variable b is on the stack, but it points to memory that is allocated using new on the heap. When you exit foo, the stack is reset for the calling function - the stack memory used for b is now available for the next function it calls - but you still need to retain ownership (and eventually release) the heap memory to which b pointed.

EDIT: some sample code should clarify smart pointer approach

class MyClass {
public:
  MyClass() {}  // no explicit init for myPointer needed
  ~MyClass() {} // frees up any pointer held in myPointer, no explicit delete needed

  void Foo(int* c)
  {
     myPointer.reset(c);  // releases any existing value, takes ownership of c
  }

private:
  boost::scoped_ptr<int> myPointer;  // initially empty
};
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Hi Steve. The last paragraph is the question that I am asking. Just never formulated it well above. How would I go about releasing memory from the heap without c becoming a dangling pointer? Or would this not happen? Thanks again! –  MWright Jun 21 '11 at 7:29
    
I've added some code to clarify, hope this helps. Smart pointers and RAII are a key part of improving your C++ productivity and code quality. it's important to understand what's happening under the covers, of course, and how you would do it manually using new/delete as in your original question. –  Steve Townsend Jun 21 '11 at 12:49
    
Thanks steve this is great! Is boost part of the STL or do I need a library?? This is very C# ish –  MWright Jun 21 '11 at 16:44
    
Boost is a separate set of libraries but some of these smart pointers are in the newer compilers, eg. Visual C++ in VS2010. You could also use std::auto_ptr although it's not as elegant as the Boost ones. In VS2010 you would use std::unique_ptr (msdn.microsoft.com/en-us/library/ee410601.aspx) –  Steve Townsend Jun 21 '11 at 17:10

If you really want to replace the pointer's value with a new pointer allocated in the function, I would recommend using a reference:

void SomeClass::foo(int*& h)
{
  delete h;
  h = new int(5);
}

Of course, this will break if you call it with a pointer to an int which is not on the heap, since you can't delete it in that case. So don't do that.

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Hi unwind. I have changed my function above? where would the delete b go? After I set h in the function or would this cause h to be a dangling pointer? –  MWright Jun 20 '11 at 15:17
int* foo(int* h)
{ 
  int* b = new int(5); 
  b = h;  // HERE is the memory-leak
  return b;
}

I dont quite understand by the b=h statement. What's the intention?

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HI Ajay, I just want to know when I would delete the pointer b? I use the foo function a lot in my class and I was wondering how I manage the memory leak at b =h?? –  MWright Jun 21 '11 at 7:18
    
You need to use one of dynamic code analysis or memory leak detection tool. –  Ajay Jun 21 '11 at 9:19
    
Its just an example. I wanted to know how to deal with memory-leaks. –  MWright Jun 21 '11 at 16:42
1  

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