/*
* This file is part of the AzerothCore Project. See AUTHORS file for Copyright information
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU Affero General Public License as published by the
* Free Software Foundation; either version 3 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 Affero General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see .
*/
#ifndef ACORE_SMARTSCRIPT_H
#define ACORE_SMARTSCRIPT_H
#include "Common.h"
#include "Creature.h"
#include "CreatureAI.h"
#include "GridNotifiers.h"
#include "SmartScriptMgr.h"
#include "Spell.h"
#include "Unit.h"
class SmartScript
{
public:
SmartScript();
~SmartScript();
void OnInitialize(WorldObject* obj, AreaTrigger const* at = nullptr);
void GetScript();
void FillScript(SmartAIEventList e, WorldObject* obj, AreaTrigger const* at);
void ProcessEventsFor(SMART_EVENT e, Unit* unit = nullptr, uint32 var0 = 0, uint32 var1 = 0, bool bvar = false, SpellInfo const* spell = nullptr, GameObject* gob = nullptr);
void ProcessEvent(SmartScriptHolder& e, Unit* unit = nullptr, uint32 var0 = 0, uint32 var1 = 0, bool bvar = false, SpellInfo const* spell = nullptr, GameObject* gob = nullptr);
bool CheckTimer(SmartScriptHolder const& e) const;
void RecalcTimer(SmartScriptHolder& e, uint32 min, uint32 max);
void UpdateTimer(SmartScriptHolder& e, uint32 const diff);
void InitTimer(SmartScriptHolder& e);
void ProcessAction(SmartScriptHolder& e, Unit* unit = nullptr, uint32 var0 = 0, uint32 var1 = 0, bool bvar = false, SpellInfo const* spell = nullptr, GameObject* gob = nullptr);
void ProcessTimedAction(SmartScriptHolder& e, uint32 const& min, uint32 const& max, Unit* unit = nullptr, uint32 var0 = 0, uint32 var1 = 0, bool bvar = false, SpellInfo const* spell = nullptr, GameObject* gob = nullptr);
ObjectList* GetTargets(SmartScriptHolder const& e, Unit* invoker = nullptr);
ObjectList* GetWorldObjectsInDist(float dist);
void InstallTemplate(SmartScriptHolder const& e);
SmartScriptHolder CreateSmartEvent(SMART_EVENT e, uint32 event_flags, uint32 event_param1, uint32 event_param2, uint32 event_param3, uint32 event_param4, uint32 event_param5, SMART_ACTION action, uint32 action_param1, uint32 action_param2, uint32 action_param3, uint32 action_param4, uint32 action_param5, uint32 action_param6, SMARTAI_TARGETS t, uint32 target_param1, uint32 target_param2, uint32 target_param3, uint32 target_param4, uint32 phaseMask);
void AddEvent(SMART_EVENT e, uint32 event_flags, uint32 event_param1, uint32 event_param2, uint32 event_param3, uint32 event_param4, uint32 event_param5, SMART_ACTION action, uint32 action_param1, uint32 action_param2, uint32 action_param3, uint32 action_param4, uint32 action_param5, uint32 action_param6, SMARTAI_TARGETS t, uint32 target_param1, uint32 target_param2, uint32 target_param3, uint32 target_param4, uint32 phaseMask);
void SetPathId(uint32 id) { mPathId = id; }
uint32 GetPathId() const { return mPathId; }
WorldObject* GetBaseObject()
{
WorldObject* obj = nullptr;
if (me)
obj = me;
else if (go)
obj = go;
return obj;
}
bool IsUnit(WorldObject* obj)
{
return obj && obj->IsInWorld() && (obj->GetTypeId() == TYPEID_UNIT || obj->GetTypeId() == TYPEID_PLAYER);
}
bool IsPlayer(WorldObject* obj)
{
return obj && obj->IsInWorld() && obj->GetTypeId() == TYPEID_PLAYER;
}
bool IsCreature(WorldObject* obj)
{
return obj && obj->IsInWorld() && obj->GetTypeId() == TYPEID_UNIT;
}
bool IsGameObject(WorldObject* obj)
{
return obj && obj->IsInWorld() && obj->GetTypeId() == TYPEID_GAMEOBJECT;
}
void OnUpdate(const uint32 diff);
void OnMoveInLineOfSight(Unit* who);
Unit* DoSelectLowestHpFriendly(float range, uint32 MinHPDiff);
Unit* DoSelectLowestHpPercentFriendly(float range, uint32 minHpPct, uint32 maxHpPct) const;
void DoFindFriendlyCC(std::list& _list, float range);
void DoFindFriendlyMissingBuff(std::list& list, float range, uint32 spellid);
Unit* DoFindClosestFriendlyInRange(float range, bool playerOnly);
void StoreTargetList(ObjectList* targets, uint32 id)
{
if (!targets)
return;
if (mTargetStorage->find(id) != mTargetStorage->end())
{
// check if already stored
if ((*mTargetStorage)[id]->Equals(targets))
return;
delete (*mTargetStorage)[id];
}
(*mTargetStorage)[id] = new ObjectGuidList(targets, GetBaseObject());
}
bool IsSmart(Creature* c = nullptr)
{
bool smart = true;
if (c && c->GetAIName() != "SmartAI")
smart = false;
if (!me || me->GetAIName() != "SmartAI")
smart = false;
if (!smart)
LOG_ERROR("sql.sql", "SmartScript: Action target Creature(entry: {}) is not using SmartAI, action skipped to prevent crash.", c ? c->GetEntry() : (me ? me->GetEntry() : 0));
return smart;
}
bool IsSmartGO(GameObject* g = nullptr)
{
bool smart = true;
if (g && g->GetAIName() != "SmartGameObjectAI")
smart = false;
if (!go || go->GetAIName() != "SmartGameObjectAI")
smart = false;
if (!smart)
LOG_ERROR("sql.sql", "SmartScript: Action target GameObject(entry: {}) is not using SmartGameObjectAI, action skipped to prevent crash.", g ? g->GetEntry() : (go ? go->GetEntry() : 0));
return smart;
}
ObjectList* GetTargetList(uint32 id)
{
ObjectListMap::iterator itr = mTargetStorage->find(id);
if (itr != mTargetStorage->end())
return (*itr).second->GetObjectList();
return nullptr;
}
void StoreCounter(uint32 id, uint32 value, uint32 reset, uint32 subtract)
{
CounterMap::iterator itr = mCounterList.find(id);
if (itr != mCounterList.end())
{
if (!reset && !subtract)
{
itr->second += value;
}
else if (subtract)
{
itr->second -= value;
}
else
{
itr->second = value;
}
}
else
{
mCounterList.insert(std::make_pair(id, value));
}
ProcessEventsFor(SMART_EVENT_COUNTER_SET, nullptr, id);
}
uint32 GetCounterValue(uint32 id)
{
CounterMap::iterator itr = mCounterList.find(id);
if (itr != mCounterList.end())
return itr->second;
return 0;
}
GameObject* FindGameObjectNear(WorldObject* searchObject, ObjectGuid::LowType guid) const
{
auto bounds = searchObject->GetMap()->GetGameObjectBySpawnIdStore().equal_range(guid);
if (bounds.first == bounds.second)
return nullptr;
return bounds.first->second;
}
Creature* FindCreatureNear(WorldObject* searchObject, ObjectGuid::LowType guid) const
{
auto bounds = searchObject->GetMap()->GetCreatureBySpawnIdStore().equal_range(guid);
if (bounds.first == bounds.second)
return nullptr;
auto creatureItr = std::find_if(bounds.first, bounds.second, [](Map::CreatureBySpawnIdContainer::value_type const& pair)
{
return pair.second->IsAlive();
});
return creatureItr != bounds.second ? creatureItr->second : bounds.first->second;
}
ObjectListMap* mTargetStorage;
void OnReset();
void ResetBaseObject()
{
WorldObject* lookupRoot = me;
if (!lookupRoot)
lookupRoot = go;
if (lookupRoot)
{
if (meOrigGUID)
{
if (Creature* m = ObjectAccessor::GetCreature(*lookupRoot, meOrigGUID))
{
me = m;
go = nullptr;
}
}
if (goOrigGUID)
{
if (GameObject* o = ObjectAccessor::GetGameObject(*lookupRoot, goOrigGUID))
{
me = nullptr;
go = o;
}
}
}
goOrigGUID.Clear();
meOrigGUID.Clear();
}
//TIMED_ACTIONLIST (script type 9 aka script9)
void SetScript9(SmartScriptHolder& e, uint32 entry);
Unit* GetLastInvoker(Unit* invoker = nullptr);
ObjectGuid mLastInvoker;
typedef std::unordered_map CounterMap;
CounterMap mCounterList;
// Xinef: Fix Combat Movement
void SetActualCombatDist(uint32 dist) { mActualCombatDist = dist; }
void RestoreMaxCombatDist() { mActualCombatDist = mMaxCombatDist; }
uint32 GetActualCombatDist() const { return mActualCombatDist; }
uint32 GetMaxCombatDist() const { return mMaxCombatDist; }
// Xinef: SmartCasterAI, replace above
void SetCasterActualDist(float dist) { smartCasterActualDist = dist; }
void RestoreCasterMaxDist() { smartCasterActualDist = smartCasterMaxDist; }
Powers GetCasterPowerType() const { return smartCasterPowerType; }
float GetCasterActualDist() const { return smartCasterActualDist; }
float GetCasterMaxDist() const { return smartCasterMaxDist; }
bool AllowPhaseReset() const { return _allowPhaseReset; }
void SetPhaseReset(bool allow) { _allowPhaseReset = allow; }
private:
void IncPhase(uint32 p);
void DecPhase(uint32 p);
void SetPhase(uint32 p);
bool IsInPhase(uint32 p) const;
SmartAIEventList mEvents;
SmartAIEventList mInstallEvents;
SmartAIEventList mTimedActionList;
bool isProcessingTimedActionList;
Creature* me;
ObjectGuid meOrigGUID;
GameObject* go;
ObjectGuid goOrigGUID;
AreaTrigger const* trigger;
SmartScriptType mScriptType;
uint32 mEventPhase;
std::unordered_map mStoredDecimals;
uint32 mPathId;
SmartAIEventStoredList mStoredEvents;
std::list mRemIDs;
uint32 mTextTimer;
uint32 mLastTextID;
uint32 mTalkerEntry;
bool mUseTextTimer;
// Xinef: Fix Combat Movement
uint32 mActualCombatDist;
uint32 mMaxCombatDist;
// Xinef: SmartCasterAI, replace above in future
uint32 smartCasterActualDist;
uint32 smartCasterMaxDist;
Powers smartCasterPowerType;
// Xinef: misc
bool _allowPhaseReset;
SMARTAI_TEMPLATE mTemplate;
void InstallEvents();
void RemoveStoredEvent (uint32 id)
{
if (!mStoredEvents.empty())
{
for (SmartAIEventStoredList::iterator i = mStoredEvents.begin(); i != mStoredEvents.end(); ++i)
{
if (i->event_id == id)
{
mStoredEvents.erase(i);
return;
}
}
}
}
SmartScriptHolder FindLinkedEvent (uint32 link)
{
if (!mEvents.empty())
{
for (SmartAIEventList::iterator i = mEvents.begin(); i != mEvents.end(); ++i)
{
if (i->event_id == link)
{
return (*i);
}
}
}
SmartScriptHolder s;
return s;
}
};
#endif