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In my C++ program, I create objects in one function using new. These objects are inserted into a set. When I want to remove objects from the set, I use an iterator in a for-loop. When I remove the object from the set, I still need to delete the object to free its memory, correct? I tried using delete, but then I get an error saying that the pointer being freed was not allocated. So how can this be done?

Here is the code where I create the object and then insert it into the set

set <myObject> myobjectlist;
myObject *myobject = new myObject;
myobjectlist.insert(*myobject);

In another function, I try to remove an object from the set, and free its memory:

    for (set<myObject>::iterator i = myobjectlist.begin(); i != myobjectlist.end(); i++)
if (i->myObjectID == myObjectID)
{
    myobjectlist.erase(*i);
    delete &i;
    break;
}

This works fine without the 'delete' part. I added it in because I thought that the memory from the object wasn't being freed.

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up vote 3 down vote accepted

Assuming you're calling the set's erase() method, note that this will call the destructor of the object for you. After you erase() your object, it has already been deleted, and thus your second attempt to manually call delete will fail as the pointer is no longer allocated.

For reference, see this

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1  
Based on his code snippet this statement is misleading. His set stores the object by value, so what erase is destructing is not what he allocated with new. – hifier Apr 30 '11 at 2:36
    
No, because he's deleting by reference this isn't the case. His set contains a copy of his original object's value, which is then found. The value is erased (and destructed) from the set, and then the iterator is attempted to be deleted -- which won't work, as it no longer points to a valid block. – Ben Stott Apr 30 '11 at 2:39
1  
His code does not attempt to delete the iterator, it attempts to delete the address of the iterator (which is still a valid address, just not one that holds a pointer to something that was allocated with new). But this isn't the point, the code will leak the original object. – hifier Apr 30 '11 at 2:48
    
It is the point though - you can't delete something if it wasn't allocated with new. The set deletes the copy, and by attempting to delete the iterator the error is being thrown – Ben Stott Apr 30 '11 at 3:35
    
@Ben, That's not the point of his question as I took it. Even if we corrected that, it would still leak memory. Is the goal to make it run, or make it correct? – hifier Apr 30 '11 at 3:39

Yes, you need to delete objects that you create. However, what is in your set isn't necessarily what you allocated. For example, maybe your set contains object values (rather than pointers) and your allocated object is being leaked after insert. Post code.

Edit: That was it. Your set does not store pointers, it stores copies of the objects you are allocating. Remove the delete from your erase loop and insert the object like this:

set <myObject> myobjectlist;
myobjectlist.insert(myObject());

Alternatively, just make your set be set<myObject*>.

Also, erase takes an iterator - no need to deref it.

share|improve this answer
    
Making those changes causes compile errors in the for-loop. How should it be changed? – node ninja Apr 30 '11 at 2:24
    
If it stores copies, then maybe it's ok not to use new when creating the object? – node ninja Apr 30 '11 at 2:25
    
Either way you can't then delete an element that you have erase()d. The erase member calls the destructor of the object, and delete will attempt to do the same thing! – Ben Stott Apr 30 '11 at 2:25
2  
Right - remove both the new and the delete. – sean e Apr 30 '11 at 2:27

Here is what you want, assuming that you need to use new to allocate these objects:

  set <myObject*> myobjectlist;     
  myObject *myobject = new myObject;
  myobjectlist.insert(myobject); //insert the pointer, not the object

  for (set<myObject*>::iterator i = myobjectlist.begin(); i != myobjectlist.end(); i++) {
    if ((*i)->myObjectID == myObjectID) {
      myobjectlist.erase(i);
      delete *i;
      break;
    }
  }
share|improve this answer
    
@sean, erase does not increment the iterator. In fact, erase takes this parameter by value, so it cannot have any effect on your iterator object at all. – hifier Apr 30 '11 at 3:35
    
For clarity, calling erase will change the set and therefore invalidate the iterator for further use within the set. However, the iterator itself remains unchanged and can still be used to retrieve the pointer to the object that was just erased. – hifier Apr 30 '11 at 3:49
    
my confusion was based on the vs2010 implementation of erase - set::erase returns void, but it is implemented via _Tree::erase which does return an incremented iterator – sean e Apr 30 '11 at 4:21

If you need a list of pointers, use a list of smart pointers. Use a std algoritm to find the correct item and erase it from the list.

#include <set>
#include <boost/shared_ptr.hpp>
#include <boost/bind.hpp>

using namespace boost;

typedef boost::shared_ptr<MyObject> t_object;
std::set<t_object> myObjectList;
myObjectList.insert(t_object(new MyObject));

std::set<t_object>::iterator item = std::find_if(
    myObjectList.begin(), 
    myObjectList.end(), 
    bind(&MyObject::myObjectID, _1)== myObjectID);
if(item!=myObjectList.end())
    myObjectList.erase(item);
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