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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2011-2015 Regents of the University of California.
*
* This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
* contributors.
*
* ndnSIM is free software: you can redistribute it and/or modify it under the terms
* of the GNU General Public License as published by the Free Software Foundation,
* either version 3 of the License, or (at your option) any later version.
*
* ndnSIM 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
* ndnSIM, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
**/
#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;
std::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;
std::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;
std::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;
std::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;
std::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;
std::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;
std::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_