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/* $Id$ */
/*
* This file is part of OpenTTD.
* OpenTTD 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, version 2.
* OpenTTD 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 OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file nodelist.hpp List of nodes used for the A-star pathfinder. */
#ifndef NODELIST_HPP
#define NODELIST_HPP
#include "../../misc/array.hpp"
#include "../../misc/hashtable.hpp"
#include "../../misc/binaryheap.hpp"
/** Hash table based node list multi-container class.
* Implements open list, closed list and priority queue for A-star
* path finder. */
template <class Titem_, int Thash_bits_open_, int Thash_bits_closed_>
class CNodeList_HashTableT {
public:
/** make Titem_ visible from outside of class */
typedef Titem_ Titem;
/** make Titem_::Key a property of HashTable */
typedef typename Titem_::Key Key;
/** type that we will use as item container */
typedef SmallArray<Titem_, 65536, 256> CItemArray;
/** how pointers to open nodes will be stored */
typedef CHashTableT<Titem_, Thash_bits_open_ > COpenList;
/** how pointers to closed nodes will be stored */
typedef CHashTableT<Titem_, Thash_bits_closed_> CClosedList;
/** how the priority queue will be managed */
typedef CBinaryHeapT<Titem_> CPriorityQueue;
protected:
/** here we store full item data (Titem_) */
CItemArray m_arr;
/** hash table of pointers to open item data */
COpenList m_open;
/** hash table of pointers to closed item data */
CClosedList m_closed;
/** priority queue of pointers to open item data */
CPriorityQueue m_open_queue;
/** new open node under construction */
Titem *m_new_node;
public:
/** default constructor */
CNodeList_HashTableT()
: m_open_queue(2048)
{
m_new_node = NULL;
}
/** destructor */
~CNodeList_HashTableT()
{
}
/** return number of open nodes */
FORCEINLINE int OpenCount()
{
return m_open.Count();
}
/** return number of closed nodes */
FORCEINLINE int ClosedCount()
{
return m_closed.Count();
}
/** allocate new data item from m_arr */
FORCEINLINE Titem_ *CreateNewNode()
{
if (m_new_node == NULL) m_new_node = m_arr.AppendC();
return m_new_node;
}
/** notify the nodelist, that we don't want to discard the given node */
FORCEINLINE void FoundBestNode(Titem_& item)
{
/* for now it is enough to invalidate m_new_node if it is our given node */
if (&item == m_new_node) {
m_new_node = NULL;
}
/* TODO: do we need to store best nodes found in some extra list/array? Probably not now. */
}
/** insert given item as open node (into m_open and m_open_queue) */
FORCEINLINE void InsertOpenNode(Titem_& item)
{
assert(m_closed.Find(item.GetKey()) == NULL);
m_open.Push(item);
m_open_queue.Include(&item);
if (&item == m_new_node) {
m_new_node = NULL;
}
}
/** return the best open node */
FORCEINLINE Titem_ *GetBestOpenNode()
{
if (!m_open_queue.IsEmpty()) {
return m_open_queue.Begin();
}
return NULL;
}
/** remove and return the best open node */
FORCEINLINE Titem_ *PopBestOpenNode()
{
if (!m_open_queue.IsEmpty()) {
Titem_ *item = m_open_queue.Shift();
m_open.Pop(*item);
return item;
}
return NULL;
}
/** return the open node specified by a key or NULL if not found */
FORCEINLINE Titem_ *FindOpenNode(const Key& key)
{
Titem_ *item = m_open.Find(key);
return item;
}
/** remove and return the open node specified by a key */
FORCEINLINE Titem_& PopOpenNode(const Key& key)
{
Titem_& item = m_open.Pop(key);
uint idxPop = m_open_queue.FindIndex(item);
m_open_queue.Remove(idxPop);
return item;
}
/** close node */
FORCEINLINE void InsertClosedNode(Titem_& item)
{
assert(m_open.Find(item.GetKey()) == NULL);
m_closed.Push(item);
}
/** return the closed node specified by a key or NULL if not found */
FORCEINLINE Titem_ *FindClosedNode(const Key& key)
{
Titem_ *item = m_closed.Find(key);
return item;
}
FORCEINLINE int TotalCount() {return m_arr.Length();}
FORCEINLINE Titem_& ItemAt(int idx) {return m_arr[idx];}
template <class D> void Dump(D &dmp) const
{
dmp.WriteStructT("m_arr", &m_arr);
}
};
#endif /* NODELIST_HPP */
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