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I have a

map<char,my_class*> mymap;

the contents of which are as below.

mymap[0]=('a', 0x1);
mymap[1]=('b',0x2);
mymap[3]=('c',0x3);
mymap[4]=('d',0x1);

As you see we have same value for keys 'a' and 'd'. i have a for loop to delete the pointers in the map.

for ( it=mymap.begin() ; it != mymap.end(); it++ ){
  delete it->second;
}

It crashes because it is trying to delete 0x1 twice. I tried doing this

for ( it=mymap.begin() ; it != mymap.end(); it++ ){
  if(!it->second){
      delete it->second;
      it->second = NULL;
  }
}

Even this tries to set a pointer to NULL twice which result sin an exception. What is the best way to delete duplicate values as above in a map?

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Setting a pointer to NULL twice does not result in an exception. Deleting the same pointer twice might do. –  Jonathan Wakely Dec 18 '12 at 10:42

4 Answers 4

up vote 4 down vote accepted

NPE's answer involving shared_ptr is good. But if you're forced to use real pointers, I'd probably do it like this:

set<my_class*> values;
for (it=mymap.begin(); it != mymap.end(); it++)
{
  // insert.second will be false if the value is already in the set
  if (values.insert(it->second).second)
    delete it->second;
}

// Make sure you do something with mymap to ensure you don't double-delete later!
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To avoid double-delete later just do it->second = 0; –  Jonathan Wakely Dec 18 '12 at 10:41
    
Note that formally, this solution has undefined behavior, since once you've deleted an object, you're not allowed to access pointers to it. (In practice, I cannot imagine it causing any problems, at least on a modern general purpose machine.) –  James Kanze Dec 18 '12 at 11:11
    
@JonathanWakely And how does that help? Setting one pointer to null won't change the value of any other pointers in the container. –  James Kanze Dec 18 '12 at 11:12
    
@JamesKanze I wasn't saying it solves the OP's problem, I suggested it as a solution for the comment Make sure you do something with mymap to ensure you don't double-delete later! If you leave dangling pointers in the map and someone later does for(auto i : mymap) delete i.second; it will be safe if the pointers are null, not otherwise. Another option would be mymap.clear() but maybe the keys are still wanted. –  Jonathan Wakely Dec 18 '12 at 11:28
    
To solve the UB problem you could insert every it->second into the set then in a second loop got through the set and delete everything in it –  Jonathan Wakely Dec 18 '12 at 11:29

My advice would be to keep shared_ptr<my_class> in your map, and sidestep the problem altogether.

If you can't do that, you'll need to keep an auxiliary container (e.g. a set) of pointers that you've already deallocated. You'll then consult and update that container as you're iterating over the map.

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If you don't want duplicate second entries, then perhaps the best solution would be to not insert them to begin with. The cleanest solution I can think of to do this would be to use Boost bimap. I rather think this behavior would surprise the user who inserted the second entry, however.

Alternatively (supposing you can't use shared_ptr), the simplest solution when deconstructing the map would be to create a temporary std::set<MyClass*> with all of the elements, and then delete from that. (std::set ensures no duplicates).

And while I'm at it: the reason your second solution fails isn't because you are setting a pointer to null twice; there's nothing wrong with that. It is because you have two distinct pointers to the same object; setting the first to null doesn't modify the second, so you still end up trying to delete the same object twice.

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It would be simpler if you stored the instances or used a smartpointer. Std::Map has its own internal pointers to your object, and you can save headache by relying on someone elses handle to your object. The Boost library contains several smartpointers. If you use an intrusive reference counting smartpointer, then your object can be automatically destroyed when it is removed from the map.

You will then be able to use the erase function to remove the value from the map, which will then delete your object (if it is the last reference) after calling the destructor chain.

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