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I was playing with some code and I wrote this little class to pool std::wstring. As I profile it I'd like to know your oppinion about approaching a pool of strings this simple.

I have a std::vector of std::wstring and two maps, one for holding the indexes of the unused elements in the vector and another for the ones that are being used.

If a string is requested with new_string() and there isn't any free indexes left, I resize the vector and insert the newly added indexes to the free indexes map.

Here is the code:

typedef std::wstring string_t;

class string_pool
            grow_factor = 2;
            for (size_t i=0; i<10; i++)

        virtual ~string_pool()


        string_t* new_string()
            if (!free_indexes.size())
                size_t old_size = strings.size();
                size_t new_size = old_size+grow_factor;
                for (size_t i=old_size;i<new_size; i++)
            iter = free_indexes.begin();
            used_indexes.insert(*iter);     // Mark the index as used
            string_t* str = (*iter).first;    // Get a pointer to the string
            free_indexes.erase(iter);       // Erase the free index
            return str;

        void delete_string(string_t* str)
            iter = used_indexes.find(str);
            free_indexes.insert(*iter);     // Mark the index as free
            used_indexes.erase(iter);       // Erase the used index

        std::map<string_t*, size_t>             used_indexes;
        std::map<string_t*, size_t>             free_indexes;
        std::vector<string_t>                   strings;
        size_t                                  grow_factor;
        std::map<string_t*, size_t>::iterator   iter;
share|improve this question
You should turn this into a statefull allocator and do some real world benchmarking... –  K-ballo Jun 4 '12 at 3:26
Your maps are going to be filled with dangling pointers because they get invalidated when you resize the vector. –  Jesse Good Jun 4 '12 at 3:34
True. Maybe an std::deque and push_back would do the trick? I wonder if this'd be faster than newing/deleting the strings directly... –  damian Jun 4 '12 at 3:39
I think you're approaching the optimization from the wrong end. You should tell us more about the problem you're trying to solve so we can help you tackle it from a different angle. –  Mahmoud Al-Qudsi Jun 4 '12 at 5:12
I'm in the first stages of making a scripting language to interact with an application of mine if only for learning purposes. I am currently determining how am I going to instance variables when I push them onto the stack. I already implemented an object pool for non string types and for the case of string containers I pretend to use, for now, this pool I showed above. That's pretty much what I am doing. –  damian Jun 4 '12 at 5:27

1 Answer 1

up vote 4 down vote accepted

The new/delete you care about is not allocation of the string descriptors, but the string data. Pooling string objects doesn't help much, the content will still be dynamically allocated.

share|improve this answer
That's true. Sadly for std::wstring there seem to be no allocators for boost::pool, and still I've read that pooling chunks of variable size can be worst than actually allocating them with new. So for the sake of at least avoiding allocating the string container I came up with this. –  damian Jun 4 '12 at 4:12
@damian: std::wstring doesn't need special allocators; any STL-compatible allocator will do. –  MSalters Jun 4 '12 at 7:27

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