/*
 * Copyright (C) 2005-2009 MaNGOS <http://getmangos.com/>
 *
 * Copyright (C) 2008-2010 Trinity <http://www.trinitycore.org/>
 *
 * 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 TRINITYCORE_PET_H
#define TRINITYCORE_PET_H

#include "ObjectDefines.h"
#include "Unit.h"
#include "TemporarySummon.h"

enum PetType
{
    SUMMON_PET              = 0,
    HUNTER_PET              = 1,
    MAX_PET_TYPE            = 4,
};

extern char const* petTypeSuffix[MAX_PET_TYPE];

#define MAX_PET_STABLES         4

// stored in character_pet.slot
enum PetSaveMode
{
    PET_SAVE_AS_DELETED        = -1,                        // not saved in fact
    PET_SAVE_AS_CURRENT        =  0,                        // in current slot (with player)
    PET_SAVE_FIRST_STABLE_SLOT =  1,
    PET_SAVE_LAST_STABLE_SLOT  =  MAX_PET_STABLES,          // last in DB stable slot index (including), all higher have same meaning as PET_SAVE_NOT_IN_SLOT
    PET_SAVE_NOT_IN_SLOT       =  100                       // for avoid conflict with stable size grow will use 100
};

enum HappinessState
{
    UNHAPPY = 1,
    CONTENT = 2,
    HAPPY   = 3
};

enum PetSpellState
{
    PETSPELL_UNCHANGED = 0,
    PETSPELL_CHANGED   = 1,
    PETSPELL_NEW       = 2,
    PETSPELL_REMOVED   = 3
};

enum PetSpellType
{
    PETSPELL_NORMAL = 0,
    PETSPELL_FAMILY = 1,
    PETSPELL_TALENT = 2,
};

struct PetSpell
{
    ActiveStates active;
    PetSpellState state;
    PetSpellType type;
};

enum ActionFeedback
{
    FEEDBACK_NONE            = 0,
    FEEDBACK_PET_DEAD        = 1,
    FEEDBACK_NOTHING_TO_ATT  = 2,
    FEEDBACK_CANT_ATT_TARGET = 3
};

enum PetTalk
{
    PET_TALK_SPECIAL_SPELL  = 0,
    PET_TALK_ATTACK         = 1
};

enum PetNameInvalidReason
{
    // custom, not send
    PET_NAME_SUCCESS                                        = 0,

    PET_NAME_INVALID                                        = 1,
    PET_NAME_NO_NAME                                        = 2,
    PET_NAME_TOO_SHORT                                      = 3,
    PET_NAME_TOO_LONG                                       = 4,
    PET_NAME_MIXED_LANGUAGES                                = 6,
    PET_NAME_PROFANE                                        = 7,
    PET_NAME_RESERVED                                       = 8,
    PET_NAME_THREE_CONSECUTIVE                              = 11,
    PET_NAME_INVALID_SPACE                                  = 12,
    PET_NAME_CONSECUTIVE_SPACES                             = 13,
    PET_NAME_RUSSIAN_CONSECUTIVE_SILENT_CHARACTERS          = 14,
    PET_NAME_RUSSIAN_SILENT_CHARACTER_AT_BEGINNING_OR_END   = 15,
    PET_NAME_DECLENSION_DOESNT_MATCH_BASE_NAME              = 16
};

typedef UNORDERED_MAP<uint32, PetSpell> PetSpellMap;
typedef std::vector<uint32> AutoSpellList;

#define HAPPINESS_LEVEL_SIZE        333000

#define ACTIVE_SPELLS_MAX           4

#define PET_FOLLOW_DIST  1
#define PET_FOLLOW_ANGLE (M_PI/2)
#define PET_FOCUS_REGEN_INTERVAL 4 * IN_MILISECONDS

class Player;

class Pet : public Guardian
{
    public:
        explicit Pet(Player *owner, PetType type = MAX_PET_TYPE);
        virtual ~Pet();

        void AddToWorld();
        void RemoveFromWorld();

        PetType getPetType() const { return m_petType; }
        void setPetType(PetType type) { m_petType = type; }
        bool isControlled() const { return getPetType() == SUMMON_PET || getPetType() == HUNTER_PET; }
        bool isTemporarySummoned() const { return m_duration > 0; }

        bool IsPermanentPetFor(Player* owner);              // pet have tab in character windows and set UNIT_FIELD_PETNUMBER

        bool Create (uint32 guidlow, Map *map, uint32 phaseMask, uint32 Entry, uint32 pet_number);
        bool CreateBaseAtCreature(Creature* creature);
        bool LoadPetFromDB(Player* owner,uint32 petentry = 0,uint32 petnumber = 0, bool current = false);
        bool isBeingLoaded() const { return m_loading;}
        void SavePetToDB(PetSaveMode mode);
        void Remove(PetSaveMode mode, bool returnreagent = false);
        static void DeleteFromDB(uint32 guidlow);

        void setDeathState(DeathState s);                   // overwrite virtual Creature::setDeathState and Unit::setDeathState
        void Update(uint32 diff);                           // overwrite virtual Creature::Update and Unit::Update

        uint8 GetPetAutoSpellSize() const { return m_autospells.size(); }
        uint32 GetPetAutoSpellOnPos(uint8 pos) const
        {
            if (pos >= m_autospells.size())
                return 0;
            else
                return m_autospells[pos];
        }

        void LooseHappiness();
        HappinessState GetHappinessState();
        void GivePetXP(uint32 xp);
        void GivePetLevel(uint8 level);
        void SynchronizeLevelWithOwner();
        bool HaveInDiet(ItemPrototype const* item) const;
        uint32 GetCurrentFoodBenefitLevel(uint32 itemlevel);
        void SetDuration(int32 dur) { m_duration = dur; }

        /*
        bool UpdateStats(Stats stat);
        bool UpdateAllStats();
        void UpdateResistances(uint32 school);
        void UpdateArmor();
        void UpdateMaxHealth();
        void UpdateMaxPower(Powers power);
        void UpdateAttackPowerAndDamage(bool ranged = false);
        void UpdateDamagePhysical(WeaponAttackType attType);
        */

        bool CanTakeMoreActiveSpells(uint32 SpellIconID);
        void ToggleAutocast(uint32 spellid, bool apply);

        bool HasSpell(uint32 spell) const;

        void LearnPetPassives();
        void CastPetAuras(bool current);
        void CastPetAura(PetAura const* aura);
        bool IsPetAura(Aura const* aura);

        void _LoadSpellCooldowns();
        void _SaveSpellCooldowns();
        void _LoadAuras(uint32 timediff);
        void _SaveAuras();
        void _LoadSpells();
        void _SaveSpells();

        bool addSpell(uint32 spell_id,ActiveStates active = ACT_DECIDE, PetSpellState state = PETSPELL_NEW, PetSpellType type = PETSPELL_NORMAL);
        bool learnSpell(uint32 spell_id);
        void learnSpellHighRank(uint32 spellid);
        void InitLevelupSpellsForLevel();
        bool unlearnSpell(uint32 spell_id, bool learn_prev, bool clear_ab = true);
        bool removeSpell(uint32 spell_id, bool learn_prev, bool clear_ab = true);
        void CleanupActionBar();

        PetSpellMap     m_spells;
        AutoSpellList   m_autospells;

        void InitPetCreateSpells();

        bool resetTalents(bool no_cost = false);
        static void resetTalentsForAllPetsOf(Player* owner, Pet* online_pet = NULL);
        uint32 resetTalentsCost() const;
        void InitTalentForLevel();

        uint8 GetMaxTalentPointsForLevel(uint8 level);
        uint8 GetFreeTalentPoints() { return GetByteValue(UNIT_FIELD_BYTES_1, 1); }
        void SetFreeTalentPoints(uint8 points) { SetByteValue(UNIT_FIELD_BYTES_1, 1, points); }

        uint32  m_resetTalentsCost;
        time_t  m_resetTalentsTime;
        uint32  m_usedTalentCount;

        const uint64& GetAuraUpdateMaskForRaid() const { return m_auraRaidUpdateMask; }
        void SetAuraUpdateMaskForRaid(uint8 slot) { m_auraRaidUpdateMask |= (uint64(1) << slot); }
        void ResetAuraUpdateMaskForRaid() { m_auraRaidUpdateMask = 0; }

        DeclinedName const* GetDeclinedNames() const { return m_declinedname; }

        bool    m_removed;                                  // prevent overwrite pet state in DB at next Pet::Update if pet already removed(saved)

        Player *GetOwner() { return m_owner; }
    protected:
        Player *m_owner;
        uint32  m_happinessTimer;
        PetType m_petType;
        int32   m_duration;                                 // time until unsummon (used mostly for summoned guardians and not used for controlled pets)
        uint64  m_auraRaidUpdateMask;
        bool    m_loading;
        uint32  m_regenTimer;

        DeclinedName *m_declinedname;

    private:
        void SaveToDB(uint32, uint8)                        // overwrited of Creature::SaveToDB     - don't must be called
        {
            assert(false);
        }
        void DeleteFromDB()                                 // overwrited of Creature::DeleteFromDB - don't must be called
        {
            assert(false);
        }
};
#endif