#ifndef RADIX_TREE_NODE_HPP
#define RADIX_TREE_NODE_HPP

#include <map>

template <typename K, typename T>
class radix_tree_node {
    friend class radix_tree<K, T>;
    friend class radix_tree_it<K, T>;

    typedef std::pair<const K, T> value_type;
    typedef typename std::map<K, radix_tree_node<K, T>* >::iterator it_child;

private:
    radix_tree_node() : m_children(), m_parent(NULL), m_value(NULL), m_depth(0), m_is_leaf(false), m_key() { }
    radix_tree_node(const value_type &val);
    radix_tree_node(const radix_tree_node&); // delete
    radix_tree_node& operator=(const radix_tree_node&); // delete

    ~radix_tree_node();

    std::map<K, radix_tree_node<K, T>*> m_children;
    radix_tree_node<K, T> *m_parent;
    value_type *m_value;
    int m_depth;
    bool m_is_leaf;
    K m_key;
};

template <typename K, typename T>
radix_tree_node<K, T>::radix_tree_node(const value_type &val) :
    m_children(),
    m_parent(NULL),
    m_value(NULL),
    m_depth(0),
    m_is_leaf(false),
    m_key()
{
    m_value = new value_type(val);
}

template <typename K, typename T>
radix_tree_node<K, T>::~radix_tree_node()
{
    it_child it;
    for (it = m_children.begin(); it != m_children.end(); ++it) {
        delete it->second;
    }
    delete m_value;
}


#endif // RADIX_TREE_NODE_HPP