rtphashtable.h
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/*
This file is a part of JRTPLIB
Copyright (c) 1999-2017 Jori Liesenborgs
Contact: jori.liesenborgs@gmail.com
This library was developed at the Expertise Centre for Digital Media
(http://www.edm.uhasselt.be), a research center of the Hasselt University
(http://www.uhasselt.be). The library is based upon work done for
my thesis at the School for Knowledge Technology (Belgium/The Netherlands).
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
IN THE SOFTWARE.
*/
#ifndef RTPHASHTABLE_H
#define RTPHASHTABLE_H
/**
* \file rtphashtable.h
*/
#include "rtperrors.h"
#include "rtpmemoryobject.h"
#ifdef RTPDEBUG
#include <iostream>
#endif // RTPDEBUG
namespace jrtplib
{
//template<class Element,int GetIndex(const Element &k),int hashsize>
template<class Element,class GetIndex,int hashsize>
class RTPHashTable : public RTPMemoryObject
{
JRTPLIB_NO_COPY(RTPHashTable)
public:
RTPHashTable(RTPMemoryManager *mgr = 0, int memtype = RTPMEM_TYPE_OTHER);
~RTPHashTable() { Clear(); }
void GotoFirstElement() { curhashelem = firsthashelem; }
void GotoLastElement() { curhashelem = lasthashelem; }
bool HasCurrentElement() { return (curhashelem == 0)?false:true; }
int DeleteCurrentElement();
Element &GetCurrentElement() { return curhashelem->GetElement(); }
int GotoElement(const Element &e);
bool HasElement(const Element &e);
void GotoNextElement();
void GotoPreviousElement();
void Clear();
int AddElement(const Element &elem);
int DeleteElement(const Element &elem);
#ifdef RTPDEBUG
void Dump();
#endif // RTPDEBUG
private:
class HashElement
{
public:
HashElement(const Element &e,int index):element(e) { hashprev = 0; hashnext = 0; listnext = 0; listprev = 0; hashindex = index; }
int GetHashIndex() { return hashindex; }
Element &GetElement() { return element; }
#ifdef RTPDEBUG
void Dump() { std::cout << "\tHash index " << hashindex << " | Element " << element << std::endl; }
#endif // RTPDEBUG
private:
int hashindex;
Element element;
public:
HashElement *hashprev,*hashnext;
HashElement *listprev,*listnext;
};
HashElement *table[hashsize];
HashElement *firsthashelem,*lasthashelem;
HashElement *curhashelem;
#ifdef RTP_SUPPORT_MEMORYMANAGEMENT
int memorytype;
#endif // RTP_SUPPORT_MEMORYMANAGEMENT
};
template<class Element,class GetIndex,int hashsize>
inline RTPHashTable<Element,GetIndex,hashsize>::RTPHashTable(RTPMemoryManager *mgr,int memtype) : RTPMemoryObject(mgr)
{
JRTPLIB_UNUSED(memtype); // possibly unused
for (int i = 0 ; i < hashsize ; i++)
table[i] = 0;
firsthashelem = 0;
lasthashelem = 0;
#ifdef RTP_SUPPORT_MEMORYMANAGEMENT
memorytype = memtype;
#endif // RTP_SUPPORT_MEMORYMANAGEMENT
}
template<class Element,class GetIndex,int hashsize>
inline int RTPHashTable<Element,GetIndex,hashsize>::DeleteCurrentElement()
{
if (curhashelem)
{
HashElement *tmp1,*tmp2;
int index;
// First, relink elements in current hash bucket
index = curhashelem->GetHashIndex();
tmp1 = curhashelem->hashprev;
tmp2 = curhashelem->hashnext;
if (tmp1 == 0) // no previous element in hash bucket
{
table[index] = tmp2;
if (tmp2 != 0)
tmp2->hashprev = 0;
}
else // there is a previous element in the hash bucket
{
tmp1->hashnext = tmp2;
if (tmp2 != 0)
tmp2->hashprev = tmp1;
}
// Relink elements in list
tmp1 = curhashelem->listprev;
tmp2 = curhashelem->listnext;
if (tmp1 == 0) // curhashelem is first in list
{
firsthashelem = tmp2;
if (tmp2 != 0)
tmp2->listprev = 0;
else // curhashelem is also last in list
lasthashelem = 0;
}
else
{
tmp1->listnext = tmp2;
if (tmp2 != 0)
tmp2->listprev = tmp1;
else // curhashelem is last in list
lasthashelem = tmp1;
}
// finally, with everything being relinked, we can delete curhashelem
RTPDelete(curhashelem,GetMemoryManager());
curhashelem = tmp2; // Set to next element in the list
}
else
return ERR_RTP_HASHTABLE_NOCURRENTELEMENT;
return 0;
}
template<class Element,class GetIndex,int hashsize>
inline int RTPHashTable<Element,GetIndex,hashsize>::GotoElement(const Element &e)
{
int index;
bool found;
index = GetIndex::GetIndex(e);
if (index >= hashsize)
return ERR_RTP_HASHTABLE_FUNCTIONRETURNEDINVALIDHASHINDEX;
curhashelem = table[index];
found = false;
while(!found && curhashelem != 0)
{
if (curhashelem->GetElement() == e)
found = true;
else
curhashelem = curhashelem->hashnext;
}
if (!found)
return ERR_RTP_HASHTABLE_ELEMENTNOTFOUND;
return 0;
}
template<class Element,class GetIndex,int hashsize>
inline bool RTPHashTable<Element,GetIndex,hashsize>::HasElement(const Element &e)
{
int index;
bool found;
HashElement *tmp;
index = GetIndex::GetIndex(e);
if (index >= hashsize)
return false;
tmp = table[index];
found = false;
while(!found && tmp != 0)
{
if (tmp->GetElement() == e)
found = true;
else
tmp = tmp->hashnext;
}
return found;
}
template<class Element,class GetIndex,int hashsize>
inline void RTPHashTable<Element,GetIndex,hashsize>::GotoNextElement()
{
if (curhashelem)
curhashelem = curhashelem->listnext;
}
template<class Element,class GetIndex,int hashsize>
inline void RTPHashTable<Element,GetIndex,hashsize>::GotoPreviousElement()
{
if (curhashelem)
curhashelem = curhashelem->listprev;
}
template<class Element,class GetIndex,int hashsize>
inline void RTPHashTable<Element,GetIndex,hashsize>::Clear()
{
HashElement *tmp1,*tmp2;
for (int i = 0 ; i < hashsize ; i++)
table[i] = 0;
tmp1 = firsthashelem;
while (tmp1 != 0)
{
tmp2 = tmp1->listnext;
RTPDelete(tmp1,GetMemoryManager());
tmp1 = tmp2;
}
firsthashelem = 0;
lasthashelem = 0;
}
template<class Element,class GetIndex,int hashsize>
inline int RTPHashTable<Element,GetIndex,hashsize>::AddElement(const Element &elem)
{
int index;
bool found;
HashElement *e,*newelem;
index = GetIndex::GetIndex(elem);
if (index >= hashsize)
return ERR_RTP_HASHTABLE_FUNCTIONRETURNEDINVALIDHASHINDEX;
e = table[index];
found = false;
while(!found && e != 0)
{
if (e->GetElement() == elem)
found = true;
else
e = e->hashnext;
}
if (found)
return ERR_RTP_HASHTABLE_ELEMENTALREADYEXISTS;
// Okay, the key doesn't exist, so we can add the new element in the hash table
newelem = RTPNew(GetMemoryManager(),memorytype) HashElement(elem,index);
if (newelem == 0)
return ERR_RTP_OUTOFMEM;
e = table[index];
table[index] = newelem;
newelem->hashnext = e;
if (e != 0)
e->hashprev = newelem;
// Now, we still got to add it to the linked list
if (firsthashelem == 0)
{
firsthashelem = newelem;
lasthashelem = newelem;
}
else // there already are some elements in the list
{
lasthashelem->listnext = newelem;
newelem->listprev = lasthashelem;
lasthashelem = newelem;
}
return 0;
}
template<class Element,class GetIndex,int hashsize>
inline int RTPHashTable<Element,GetIndex,hashsize>::DeleteElement(const Element &elem)
{
int status;
status = GotoElement(elem);
if (status < 0)
return status;
return DeleteCurrentElement();
}
#ifdef RTPDEBUG
template<class Element,class GetIndex,int hashsize>
inline void RTPHashTable<Element,GetIndex,hashsize>::Dump()
{
HashElement *e;
std::cout << "DUMPING TABLE CONTENTS:" << std::endl;
for (int i = 0 ; i < hashsize ; i++)
{
e = table[i];
while (e != 0)
{
e->Dump();
e = e->hashnext;
}
}
std::cout << "DUMPING LIST CONTENTS:" << std::endl;
e = firsthashelem;
while (e != 0)
{
e->Dump();
e = e->listnext;
}
}
#endif // RTPDEBUG
} // end namespace
#endif // RTPHASHTABLE_H