/*
* Copyright (C) 2005-2009 MaNGOS
*
* Copyright (C) 2008-2010 Trinity
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* 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
*/
#ifndef TRINITY_GRIDNOTIFIERSIMPL_H
#define TRINITY_GRIDNOTIFIERSIMPL_H
#include "GridNotifiers.h"
#include "WorldPacket.h"
#include "Corpse.h"
#include "Player.h"
#include "UpdateData.h"
#include "CreatureAI.h"
#include "SpellAuras.h"
template
inline void
Trinity::VisibleNotifier::Visit(GridRefManager &m)
{
for(typename GridRefManager::iterator iter = m.begin(); iter != m.end(); ++iter)
{
vis_guids.erase(iter->getSource()->GetGUID());
if(force/* || iter->getSource()->isNeedNotify(NOTIFY_VISIBILITY_CHANGED)*/)
i_player.UpdateVisibilityOf(iter->getSource(),i_data,i_visibleNow);
}
}
inline void
Trinity::VisibleNotifier::Visit(CreatureMapType &m)
{
for(CreatureMapType::iterator iter = m.begin(); iter != m.end(); ++iter)
{
vis_guids.erase(iter->getSource()->GetGUID());
if(force || iter->getSource()->isNeedNotify(NOTIFY_VISIBILITY_CHANGED))
i_player.UpdateVisibilityOf(iter->getSource(),i_data,i_visibleNow);
}
}
inline void
Trinity::ObjectUpdater::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator iter=m.begin(); iter != m.end(); ++iter)
if(iter->getSource()->IsInWorld() && !iter->getSource()->isSpiritService())
iter->getSource()->Update(i_timeDiff);
}
inline void PlayerCreatureRelocationWorker(Player* pl, Creature* c)
{
if(!pl->isAlive() || !c->isAlive() || pl->isInFlight())
return;
// Creature AI reaction
if(c->HasReactState(REACT_AGGRESSIVE) && !c->hasUnitState(UNIT_STAT_SIGHTLESS))
if(c->_IsWithinDist(pl, c->m_SightDistance, true) && c->IsAIEnabled)
c->AI()->MoveInLineOfSight(pl);
}
inline void CreatureCreatureRelocationWorker(Creature* c1, Creature* c2)
{
if(c1->HasReactState(REACT_AGGRESSIVE) && !c1->hasUnitState(UNIT_STAT_SIGHTLESS))
if(c1->_IsWithinDist(c2, c1->m_SightDistance, true) && c1->IsAIEnabled)
c1->AI()->MoveInLineOfSight(c2);
if(c2->HasReactState(REACT_AGGRESSIVE) && !c2->hasUnitState(UNIT_STAT_SIGHTLESS))
if(c1->_IsWithinDist(c2, c2->m_SightDistance, true) && c2->IsAIEnabled)
c2->AI()->MoveInLineOfSight(c1);
}
template
inline void
Trinity::DelayedUnitRelocation::Notify(GridRefManager &m)
{
for(typename GridRefManager::iterator iter = m.begin(); iter != m.end(); ++iter)
{
T * unit = iter->getSource();
if(!unit->isAlive() || !unit->isNeedNotify(NOTIFY_AI_RELOCATION))
continue;
VISITOR relocate(*unit);
TypeContainerVisitor c2world_relocation(relocate);
TypeContainerVisitor c2grid_relocation(relocate);
i_cell.Visit(i_cellPair, c2world_relocation, i_map, *unit, i_radius);
i_cell.Visit(i_cellPair, c2grid_relocation, i_map, *unit, i_radius);
unit->SetNotified(NOTIFY_AI_RELOCATION);
}
}
template
inline void
Trinity::ResetNotifier::resetNotify(GridRefManager &m)
{
for(typename GridRefManager::iterator iter=m.begin(); iter != m.end(); ++iter)
iter->getSource()->ResetAllNotifiesbyMask(reset_mask);
}
template<>
inline void
Trinity::PlayerRelocationNotifier::Visit(CreatureMapType &m)
{
if(!i_player.isAlive() || i_player.isInFlight())
return;
for (CreatureMapType::iterator iter = m.begin(); iter != m.end(); ++iter)
{
Creature * c = iter->getSource();
if(c->isAlive() && !c->NotifyExecuted(NOTIFY_AI_RELOCATION))
PlayerCreatureRelocationWorker(&i_player, c);
}
}
template<>
inline void
Trinity::CreatureRelocationNotifier::Visit(PlayerMapType &m)
{
if(!i_creature.isAlive())
return;
for(PlayerMapType::iterator iter=m.begin(); iter != m.end(); ++iter)
{
Player * pl = iter->getSource();
if( pl->isAlive() && !pl->isInFlight() && !pl->NotifyExecuted(NOTIFY_AI_RELOCATION))
PlayerCreatureRelocationWorker(pl, &i_creature);
}
}
template<>
inline void
Trinity::CreatureRelocationNotifier::Visit(CreatureMapType &m)
{
if(!i_creature.isAlive())
return;
for (CreatureMapType::iterator iter = m.begin(); iter != m.end(); ++iter)
{
Creature* c = iter->getSource();
if( c != &i_creature && c->isAlive() && !c->NotifyExecuted(NOTIFY_AI_RELOCATION))
CreatureCreatureRelocationWorker(c, &i_creature);
}
}
// SEARCHERS & LIST SEARCHERS & WORKERS
// WorldObject searchers & workers
template
void Trinity::WorldObjectSearcher::Visit(GameObjectMapType &m)
{
// already found
if(i_object)
return;
for (GameObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if (i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::WorldObjectSearcher::Visit(PlayerMapType &m)
{
// already found
if(i_object)
return;
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::WorldObjectSearcher::Visit(CreatureMapType &m)
{
// already found
if(i_object)
return;
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::WorldObjectSearcher::Visit(CorpseMapType &m)
{
// already found
if(i_object)
return;
for (CorpseMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::WorldObjectSearcher::Visit(DynamicObjectMapType &m)
{
// already found
if(i_object)
return;
for (DynamicObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::WorldObjectListSearcher::Visit(PlayerMapType &m)
{
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::WorldObjectListSearcher::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::WorldObjectListSearcher::Visit(CorpseMapType &m)
{
for (CorpseMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::WorldObjectListSearcher::Visit(GameObjectMapType &m)
{
for (GameObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::WorldObjectListSearcher::Visit(DynamicObjectMapType &m)
{
for (DynamicObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
// Gameobject searchers
template
void Trinity::GameObjectSearcher::Visit(GameObjectMapType &m)
{
// already found
if(i_object)
return;
for (GameObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::GameObjectLastSearcher::Visit(GameObjectMapType &m)
{
for (GameObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
i_object = itr->getSource();
}
}
template
void Trinity::GameObjectListSearcher::Visit(GameObjectMapType &m)
{
for (GameObjectMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
// Unit searchers
template
void Trinity::UnitSearcher::Visit(CreatureMapType &m)
{
// already found
if(i_object)
return;
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::UnitSearcher::Visit(PlayerMapType &m)
{
// already found
if(i_object)
return;
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::UnitLastSearcher::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
i_object = itr->getSource();
}
}
template
void Trinity::UnitLastSearcher::Visit(PlayerMapType &m)
{
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
i_object = itr->getSource();
}
}
template
void Trinity::UnitListSearcher::Visit(PlayerMapType &m)
{
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::UnitListSearcher::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if(i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
// Creature searchers
template
void Trinity::CreatureSearcher::Visit(CreatureMapType &m)
{
// already found
if(i_object)
return;
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::CreatureLastSearcher::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
i_object = itr->getSource();
}
}
template
void Trinity::CreatureListSearcher::Visit(CreatureMapType &m)
{
for (CreatureMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if( i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::PlayerListSearcher::Visit(PlayerMapType &m)
{
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
if(itr->getSource()->InSamePhase(i_phaseMask))
if( i_check(itr->getSource()))
i_objects.push_back(itr->getSource());
}
template
void Trinity::PlayerSearcher::Visit(PlayerMapType &m)
{
// already found
if(i_object)
return;
for (PlayerMapType::iterator itr=m.begin(); itr != m.end(); ++itr)
{
if(!itr->getSource()->InSamePhase(i_phaseMask))
continue;
if(i_check(itr->getSource()))
{
i_object = itr->getSource();
return;
}
}
}
template
void Trinity::LocalizedPacketDo::operator()( Player* p )
{
int32 loc_idx = p->GetSession()->GetSessionDbLocaleIndex();
uint32 cache_idx = loc_idx+1;
WorldPacket* data;
// create if not cached yet
if(i_data_cache.size() < cache_idx+1 || !i_data_cache[cache_idx])
{
if(i_data_cache.size() < cache_idx+1)
i_data_cache.resize(cache_idx+1);
data = new WorldPacket(SMSG_MESSAGECHAT, 200);
i_builder(*data,loc_idx);
i_data_cache[cache_idx] = data;
}
else
data = i_data_cache[cache_idx];
p->SendDirectMessage(data);
}
template
void Trinity::LocalizedPacketListDo::operator()( Player* p )
{
int32 loc_idx = p->GetSession()->GetSessionDbLocaleIndex();
uint32 cache_idx = loc_idx+1;
WorldPacketList* data_list;
// create if not cached yet
if(i_data_cache.size() < cache_idx+1 || i_data_cache[cache_idx].empty())
{
if(i_data_cache.size() < cache_idx+1)
i_data_cache.resize(cache_idx+1);
data_list = &i_data_cache[cache_idx];
i_builder(*data_list,loc_idx);
}
else
data_list = &i_data_cache[cache_idx];
for (size_t i = 0; i < data_list->size(); ++i)
p->SendDirectMessage((*data_list)[i]);
}
struct ObjectDistanceOrder : public std::binary_function
{
const Unit* m_pSource;
ObjectDistanceOrder(const Unit* pSource) : m_pSource(pSource) {};
bool operator()(const WorldObject* pLeft, const WorldObject* pRight) const
{
return m_pSource->GetDistanceOrder(pLeft, pRight);
}
};
struct ObjectDistanceOrderReversed : public std::binary_function
{
const Unit* m_pSource;
ObjectDistanceOrderReversed(const Unit* pSource) : m_pSource(pSource) {};
bool operator()(const WorldObject* pLeft, const WorldObject* pRight) const
{
return !m_pSource->GetDistanceOrder(pLeft, pRight);
}
};
#endif // MANGOS_GRIDNOTIFIERSIMPL_H