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I've defined a C++ class with the following header file:

class EarleyParser
{

    public:

        EarleyParser();
        virtual ~EarleyParser();

        void initialize( string filePath, bool probabilityParse );

    private:

        bool probabilityParser;

        typedef unordered_map< string, list<Production>* > productionHashTable;
        productionHashTable earlyHashTable;

};

As you can see a member element of the class is an unordered_map whose key element is a string and content element is a pointer to a list of objects of another class named Production (don't mind it, it could be anything).

My question is if I should leave it to the default destructor to free memory allocated, or if I should manually inspect the hash table and delete all of its elements.

In the second case what would be the procedure? Calling this for each element will be ok?

EarleyParser::productionHashTable::const_iterator got = this->earlyHashTable.find( "key" );
delete[] got->second;
share|improve this question
    
If this object is owning this list, than you should delete it there. Use shared pointer instead of a raw pointer to a list - then it will delete itself. –  Wojciech Oct 2 '12 at 8:05
    
if I should leave it to the default constructor to free memory allocated - surely you mean destructor? –  Component 10 Oct 2 '12 at 8:05
    
@Component10 - of course...thks for pointing out... –  Matteo Oct 2 '12 at 8:06
    
@Wojciech - can you be a little more specific plz?thks... –  Matteo Oct 2 '12 at 8:06
1  
Have you considered using an unordered_multimap<string, Production>? –  Luc Touraille Oct 2 '12 at 9:45

6 Answers 6

up vote 2 down vote accepted

You need to clarify who owns the list<Production> objects owned by EarlyParser. If EarlyParser owns them, then you need to free the resources. You can do it by iterating over the list and calling delete on each dereferenced iterator (not delete[]). Or you can store unique_ptr<list<Production>> instead. On the other hand, the simplest solution is to store list<Production> unless you really have very strong reasons for storing pointers.

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From a container point of view what will be the difference between storing the entire list as second element or a pointer to the list?Is there at all?thks... –  Matteo Oct 2 '12 at 8:23
    
@Matteo the first difference is that you don't have to worry about memory management. The second is that if you do stuff like copying the container, all the lists will be copied, which is more than just copying pointers. Also, container ops that require copying the elements could be more expensive. In C++11 this is done with move semantics, which is quite cheap. –  juanchopanza Oct 2 '12 at 8:32
    
Ok, I understand. So, since I do not expect to copy the container I should probably simply store the list as second element. This way I also avoid the memory leak problem, since destroying the EarleyParser class with standard destuctor will call the standard destructor of map (which will destory the list). Have I got it right?thks a lot... –  Matteo Oct 2 '12 at 8:36
    
@Matteo yes, you got that right. –  juanchopanza Oct 2 '12 at 8:59

If you're going to store pointers to anything in your map, you'll have to manually go through the map and delete each one. Normally in a class you'd stick to RAII (Resource Acquisition is Initialization) and construct things in the constructor and destroy in the destructor

 for (;;)
     delete map->second; //it's not an array of lists 

However a pointer to a container is NOT a good idea. Why do you do need a pointer? What problem are you trying to solve using a pointer to a list?

Using a smart pointer like std::unique_ptr is a much better idea than raw pointers. Raw pointers should be a last resort, not the first thing you grab when you can't think of anything better.

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I'll have collisions in my unordered_map, so I wanted a way to access all elements that collided. I thought it was better to store a pointer as second element rather than putting an entire list. Is there a better way of doing it? –  Matteo Oct 2 '12 at 8:08
    
If you want to use a pointer, use std::unique_ptr or std::shared_ptr but don't use raw pointers. –  Tony The Lion Oct 2 '12 at 8:09
    
In some answers below they suggested to store the entire list as content of the unordered_map. Do you think it would be a better approach? –  Matteo Oct 2 '12 at 8:21
    
@Matteo: When you say there will be collisions, are you talking about multiple values having the same key, or multiple keys having the same hash? The latter is the usual meaning of the term "collision", and is handled internally by unordered_map. If you mean that multiple values can be associated with the same key, than perhaps you could use an unordered_multimap. –  Luc Touraille Oct 2 '12 at 9:47

Use a:

typedef unordered_map< string, std::unique_ptr<list<Production> > > productionHashTable;

instead. Then you don't need to worry about managing memory.

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In your opinion what would be the better solution between using the unique_ptr, or storing the full list as second element of the map?thks for help.. –  Matteo Oct 2 '12 at 8:26
    
@Matteo hmmm... now that I think about it, I'd go with the list. A unique_ptr prevents copying anyway. If you need to copy a lot, I'd go with a shared_ptr instead of the list itself. –  Luchian Grigore Oct 2 '12 at 8:28
    
Thks a lot for the help! –  Matteo Oct 2 '12 at 8:37

The compiler synthesized destructor is not going to delete dynamically allocated lists you put in your map, so you have to do it yourself. In this case you can just iterate through your map and delete the second member of each element:

EarleyParser::~EarleyParser() {
  for ( productionHashTable::iterator i = earlyHashTable.begin(); i != earlyHashTable.end(); ++i )
    delete i->second;
}

A better approach would be to put lists in your map rather than pointers to lists. In that case the compiler would automatically take care of destruction, as in:

typedef unordered_map< string, list<Production> > productionHashTable;
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Unordered_map's destructor actually calls the destructors of the object it has, which means that the destructor's of the lists will be called. The destructor of std::list has this note:

Note, that if the elements are pointers, the pointed-to objects are not destroyed.

So this means, you will have to clear that memory yourself. Yes, going through the container and deleting elements 1by1 is fine. As other answerers mentioned, holding pointers like this is not a good idea though.

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Since you're using a raw pointer to the std::list you'll have to delete it yourself either during the lifecycle of the map or when you clean up the EarleyParser object in its destructor.

You could use something like this in your destructor:

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

Note that the last line isn't strictly necessary as it will be cleared anyway as the EarleyParser object is destructed but clearly you mustn't use the values in the map after you've deleted them!

share|improve this answer
    
The loop body is wrong: the it iterator should be used; whichever iterator is used should be dereferenced; second is a data member and not a member function. –  Nicola Musatti Oct 3 '12 at 7:14
    
@NicolaMusatti: Thanks, I wrote it originally as a while ( ! productionHashTable.empty() ) loop - and then realised I wasn't erasing anything! –  Component 10 Oct 3 '12 at 20:30

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