utils/trie/trie-with-policy.hpp - ndnSIM - Gitiles

 /* -*-  Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
 /*
  * Copyright (c) 2011 University of California, Los Angeles
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 as
  * published by the Free Software Foundation;
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  *
  * Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
  */

 #ifndef TRIE_WITH_POLICY_H_
 #define TRIE_WITH_POLICY_H_

 #include "trie.hpp"

 namespace ns3 {
 namespace ndn {
 namespace ndnSIM {

 template<typename FullKey,
          typename PayloadTraits,
          typename PolicyTraits
          >
 class trie_with_policy
 {
 public:
   typedef trie< FullKey,
                 PayloadTraits,
                 typename PolicyTraits::policy_hook_type > parent_trie;

   typedef typename parent_trie::iterator iterator;
   typedef typename parent_trie::const_iterator const_iterator;

   typedef typename PolicyTraits::template policy<
     trie_with_policy<FullKey, PayloadTraits, PolicyTraits>,
     parent_trie,
     typename PolicyTraits::template container_hook<parent_trie>::type >::type policy_container;

   inline
   trie_with_policy (size_t bucketSize = 1, size_t bucketIncrement = 1)
     : trie_ (name::Component (), bucketSize, bucketIncrement)
     , policy_ (*this)
   {
   }

   inline std::pair< iterator, bool >
   insert (const FullKey &key, typename PayloadTraits::insert_type payload)
   {
     std::pair<iterator, bool> item =
       trie_.insert (key, payload);

     if (item.second) // real insert
       {
         bool ok = policy_.insert (s_iterator_to (item.first));
         if (!ok)
           {
             item.first->erase (); // cannot insert
             return std::make_pair (end (), false);
           }
       }
     else
       {
         return std::make_pair (s_iterator_to (item.first), false);
       }

     return item;
   }

   inline void
   erase (const FullKey &key)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

     if (!reachLast || lastItem->payload () == PayloadTraits::empty_payload)
       return; // nothing to invalidate

     erase (lastItem);
   }

   inline void
   erase (iterator node)
   {
     if (node == end ()) return;

     policy_.erase (s_iterator_to (node));
     node->erase (); // will do cleanup here
   }

   inline void
   clear ()
   {
     policy_.clear ();
     trie_.clear ();
   }

   template<typename Modifier>
   bool
   modify (iterator position, Modifier mod)
   {
     if (position == end ()) return false;
     if (position->payload () == PayloadTraits::empty_payload) return false;

     mod (*position->payload ());
     policy_.update (position);
     return true;
   }

   /**
    * @brief Find a node that has the exact match with the key
    */
   inline iterator
   find_exact (const FullKey &key)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

     if (!reachLast || lastItem->payload () == PayloadTraits::empty_payload)
       return end ();

     return lastItem;
   }

   /**
    * @brief Find a node that has the longest common prefix with key (FIB/PIT lookup)
    */
   inline iterator
   longest_prefix_match (const FullKey &key)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);
     if (foundItem != trie_.end ())
       {
         policy_.lookup (s_iterator_to (foundItem));
       }
     return foundItem;
   }

   /**
    * @brief Find a node that has the longest common prefix with key (FIB/PIT lookup)
    */
   template<class Predicate>
   inline iterator
   longest_prefix_match_if (const FullKey &key, Predicate pred)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find_if (key, pred);
     if (foundItem != trie_.end ())
       {
         policy_.lookup (s_iterator_to (foundItem));
       }
     return foundItem;
   }

   // /**
   //  * @brief Const version of the longest common prefix match
   //  * (semi-const, because there could be update of the policy anyways)
   //  */
   // inline const_iterator
   // longest_prefix_match (const FullKey &key) const
   // {
   //   return static_cast<trie_with_policy*> (this)->longest_prefix_match (key);
   // }

   /**
    * @brief Find a node that has prefix at least as the key (cache lookup)
    */
   inline iterator
   deepest_prefix_match (const FullKey &key)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

     // guard in case we don't have anything in the trie
     if (lastItem == trie_.end ())
       return trie_.end ();

     if (reachLast)
       {
         if (foundItem == trie_.end ())
           {
             foundItem = lastItem->find (); // should be something
           }
         policy_.lookup (s_iterator_to (foundItem));
         return foundItem;
       }
     else
       { // couldn't find a node that has prefix at least as key
         return trie_.end ();
       }
   }

   /**
    * @brief Find a node that has prefix at least as the key
    */
   template<class Predicate>
   inline iterator
   deepest_prefix_match_if (const FullKey &key, Predicate pred)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

     // guard in case we don't have anything in the trie
     if (lastItem == trie_.end ())
       return trie_.end ();

     if (reachLast)
       {
         foundItem = lastItem->find_if (pred); // may or may not find something
         if (foundItem == trie_.end ())
           {
             return trie_.end ();
           }
         policy_.lookup (s_iterator_to (foundItem));
         return foundItem;
       }
     else
       { // couldn't find a node that has prefix at least as key
         return trie_.end ();
       }
   }

   /**
    * @brief Find a node that has prefix at least as the key
    *
    * This version of find checks predicate for the next level and if
    * predicate is True, returns first deepest match available
    */
   template<class Predicate>
   inline iterator
   deepest_prefix_match_if_next_level (const FullKey &key, Predicate pred)
   {
     iterator foundItem, lastItem;
     bool reachLast;
     boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

     // guard in case we don't have anything in the trie
     if (lastItem == trie_.end ())
       return trie_.end ();

     if (reachLast)
       {
         foundItem = lastItem->find_if_next_level (pred); // may or may not find something
         if (foundItem == trie_.end ())
           {
             return trie_.end ();
           }
         policy_.lookup (s_iterator_to (foundItem));
         return foundItem;
       }
     else
       { // couldn't find a node that has prefix at least as key
         return trie_.end ();
       }
   }

   iterator end () const
   {
     return 0;
   }

   const parent_trie &
   getTrie () const { return trie_; }

   parent_trie &
   getTrie () { return trie_; }

   const policy_container &
   getPolicy () const { return policy_; }

   policy_container &
   getPolicy () { return policy_; }

   static inline iterator
   s_iterator_to (typename parent_trie::iterator item)
   {
     if (item == 0)
       return 0;
     else
       return &(*item);
   }

 private:
   parent_trie      trie_;
   mutable policy_container policy_;
 };

 } // ndnSIM
 } // ndn
 } // ns3

 #endif // TRIE_WITH_POLICY_H_
	/* -- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -- */
	/*
	* Copyright (c) 2011 University of California, Los Angeles
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 as
	* published by the Free Software Foundation;
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*
	* Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
	*/

	#ifndef TRIE_WITH_POLICY_H_
	#define TRIE_WITH_POLICY_H_

	#include "trie.hpp"

	namespace ns3 {
	namespace ndn {
	namespace ndnSIM {

	template<typename FullKey,
	typename PayloadTraits,
	typename PolicyTraits
	>
	class trie_with_policy
	{
	public:
	typedef trie< FullKey,
	PayloadTraits,
	typename PolicyTraits::policy_hook_type > parent_trie;

	typedef typename parent_trie::iterator iterator;
	typedef typename parent_trie::const_iterator const_iterator;

	typedef typename PolicyTraits::template policy<
	trie_with_policy<FullKey, PayloadTraits, PolicyTraits>,
	parent_trie,
	typename PolicyTraits::template container_hook<parent_trie>::type >::type policy_container;

	inline
	trie_with_policy (size_t bucketSize = 1, size_t bucketIncrement = 1)
	: trie_ (name::Component (), bucketSize, bucketIncrement)
	, policy_ (*this)
	{
	}

	inline std::pair< iterator, bool >
	insert (const FullKey &key, typename PayloadTraits::insert_type payload)
	{
	std::pair<iterator, bool> item =
	trie_.insert (key, payload);

	if (item.second) // real insert
	{
	bool ok = policy_.insert (s_iterator_to (item.first));
	if (!ok)
	{
	item.first->erase (); // cannot insert
	return std::make_pair (end (), false);
	}
	}
	else
	{
	return std::make_pair (s_iterator_to (item.first), false);
	}

	return item;
	}

	inline void
	erase (const FullKey &key)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

	if (!reachLast \|\| lastItem->payload () == PayloadTraits::empty_payload)
	return; // nothing to invalidate

	erase (lastItem);
	}

	inline void
	erase (iterator node)
	{
	if (node == end ()) return;

	policy_.erase (s_iterator_to (node));
	node->erase (); // will do cleanup here
	}

	inline void
	clear ()
	{
	policy_.clear ();
	trie_.clear ();
	}

	template<typename Modifier>
	bool
	modify (iterator position, Modifier mod)
	{
	if (position == end ()) return false;
	if (position->payload () == PayloadTraits::empty_payload) return false;

	mod (*position->payload ());
	policy_.update (position);
	return true;
	}

	/**
	* @brief Find a node that has the exact match with the key
	*/
	inline iterator
	find_exact (const FullKey &key)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

	if (!reachLast \|\| lastItem->payload () == PayloadTraits::empty_payload)
	return end ();

	return lastItem;
	}

	/**
	* @brief Find a node that has the longest common prefix with key (FIB/PIT lookup)
	*/
	inline iterator
	longest_prefix_match (const FullKey &key)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);
	if (foundItem != trie_.end ())
	{
	policy_.lookup (s_iterator_to (foundItem));
	}
	return foundItem;
	}

	/**
	* @brief Find a node that has the longest common prefix with key (FIB/PIT lookup)
	*/
	template<class Predicate>
	inline iterator
	longest_prefix_match_if (const FullKey &key, Predicate pred)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find_if (key, pred);
	if (foundItem != trie_.end ())
	{
	policy_.lookup (s_iterator_to (foundItem));
	}
	return foundItem;
	}

	// /**
	// * @brief Const version of the longest common prefix match
	// * (semi-const, because there could be update of the policy anyways)
	// */
	// inline const_iterator
	// longest_prefix_match (const FullKey &key) const
	// {
	// return static_cast<trie_with_policy*> (this)->longest_prefix_match (key);
	// }

	/**
	* @brief Find a node that has prefix at least as the key (cache lookup)
	*/
	inline iterator
	deepest_prefix_match (const FullKey &key)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

	// guard in case we don't have anything in the trie
	if (lastItem == trie_.end ())
	return trie_.end ();

	if (reachLast)
	{
	if (foundItem == trie_.end ())
	{
	foundItem = lastItem->find (); // should be something
	}
	policy_.lookup (s_iterator_to (foundItem));
	return foundItem;
	}
	else
	{ // couldn't find a node that has prefix at least as key
	return trie_.end ();
	}
	}

	/**
	* @brief Find a node that has prefix at least as the key
	*/
	template<class Predicate>
	inline iterator
	deepest_prefix_match_if (const FullKey &key, Predicate pred)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

	// guard in case we don't have anything in the trie
	if (lastItem == trie_.end ())
	return trie_.end ();

	if (reachLast)
	{
	foundItem = lastItem->find_if (pred); // may or may not find something
	if (foundItem == trie_.end ())
	{
	return trie_.end ();
	}
	policy_.lookup (s_iterator_to (foundItem));
	return foundItem;
	}
	else
	{ // couldn't find a node that has prefix at least as key
	return trie_.end ();
	}
	}

	/**
	* @brief Find a node that has prefix at least as the key
	*
	* This version of find checks predicate for the next level and if
	* predicate is True, returns first deepest match available
	*/
	template<class Predicate>
	inline iterator
	deepest_prefix_match_if_next_level (const FullKey &key, Predicate pred)
	{
	iterator foundItem, lastItem;
	bool reachLast;
	boost::tie (foundItem, reachLast, lastItem) = trie_.find (key);

	// guard in case we don't have anything in the trie
	if (lastItem == trie_.end ())
	return trie_.end ();

	if (reachLast)
	{
	foundItem = lastItem->find_if_next_level (pred); // may or may not find something
	if (foundItem == trie_.end ())
	{
	return trie_.end ();
	}
	policy_.lookup (s_iterator_to (foundItem));
	return foundItem;
	}
	else
	{ // couldn't find a node that has prefix at least as key
	return trie_.end ();
	}
	}

	iterator end () const
	{
	return 0;
	}

	const parent_trie &
	getTrie () const { return trie_; }

	parent_trie &
	getTrie () { return trie_; }

	const policy_container &
	getPolicy () const { return policy_; }

	policy_container &
	getPolicy () { return policy_; }

	static inline iterator
	s_iterator_to (typename parent_trie::iterator item)
	{
	if (item == 0)
	return 0;
	else
	return &(*item);
	}

	private:
	parent_trie trie_;
	mutable policy_container policy_;
	};

	} // ndnSIM
	} // ndn
	} // ns3

	#endif // TRIE_WITH_POLICY_H_