#pragma once
#include "../Entities/Pawn.h"
#include "../Defines.h"
#include "../BlockID.h"
#include "../Item.h"
#include "../Enchantments.h"
class cClientHandle;
class cWorld;
// tolua_begin
class cMonster :
public cPawn
{
typedef cPawn super;
public:
/// This identifies individual monster type, as well as their network type-ID
enum eType
{
mtInvalidType = -1,
mtBat = E_META_SPAWN_EGG_BAT,
mtBlaze = E_META_SPAWN_EGG_BLAZE,
mtCaveSpider = E_META_SPAWN_EGG_CAVE_SPIDER,
mtChicken = E_META_SPAWN_EGG_CHICKEN,
mtCow = E_META_SPAWN_EGG_COW,
mtCreeper = E_META_SPAWN_EGG_CREEPER,
mtEnderDragon = E_META_SPAWN_EGG_ENDER_DRAGON,
mtEnderman = E_META_SPAWN_EGG_ENDERMAN,
mtGhast = E_META_SPAWN_EGG_GHAST,
mtGiant = E_META_SPAWN_EGG_GIANT,
mtHorse = E_META_SPAWN_EGG_HORSE,
mtIronGolem = E_META_SPAWN_EGG_IRON_GOLEM,
mtMagmaCube = E_META_SPAWN_EGG_MAGMA_CUBE,
mtMooshroom = E_META_SPAWN_EGG_MOOSHROOM,
mtOcelot = E_META_SPAWN_EGG_OCELOT,
mtPig = E_META_SPAWN_EGG_PIG,
mtSheep = E_META_SPAWN_EGG_SHEEP,
mtSilverfish = E_META_SPAWN_EGG_SILVERFISH,
mtSkeleton = E_META_SPAWN_EGG_SKELETON,
mtSlime = E_META_SPAWN_EGG_SLIME,
mtSnowGolem = E_META_SPAWN_EGG_SNOW_GOLEM,
mtSpider = E_META_SPAWN_EGG_SPIDER,
mtSquid = E_META_SPAWN_EGG_SQUID,
mtVillager = E_META_SPAWN_EGG_VILLAGER,
mtWitch = E_META_SPAWN_EGG_WITCH,
mtWither = E_META_SPAWN_EGG_WITHER,
mtWolf = E_META_SPAWN_EGG_WOLF,
mtZombie = E_META_SPAWN_EGG_ZOMBIE,
mtZombiePigman = E_META_SPAWN_EGG_ZOMBIE_PIGMAN,
} ;
enum eFamily
{
mfHostile = 0, // Spider, Zombies ...
mfPassive = 1, // Cows, Pigs
mfAmbient = 2, // Bats
mfWater = 3, // Squid
mfMaxplusone, // Nothing. Be sure this is the last and the others are in order
} ;
// tolua_end
enum MState{ATTACKING, IDLE, CHASING, ESCAPING} m_EMState;
enum MPersonality{PASSIVE,AGGRESSIVE,COWARDLY} m_EMPersonality;
/** Creates the mob object.
* If a_ConfigName is not empty, the configuration is loaded using GetMonsterConfig()
* a_MobType is the type of the mob (also used in the protocol ( http://wiki.vg/Entities#Mobs , 2012_12_22))
* a_SoundHurt and a_SoundDeath are assigned into m_SoundHurt and m_SoundDeath, respectively
*/
cMonster(const AString & a_ConfigName, eType a_MobType, const AString & a_SoundHurt, const AString & a_SoundDeath, double a_Width, double a_Height);
CLASS_PROTODEF(cMonster);
virtual void SpawnOn(cClientHandle & a_ClientHandle) override;
virtual void Tick(float a_Dt, cChunk & a_Chunk) override;
virtual void DoTakeDamage(TakeDamageInfo & a_TDI) override;
virtual void KilledBy(cEntity * a_Killer) override;
virtual void MoveToPosition(const Vector3f & a_Position);
virtual void MoveToPosition(const Vector3d & a_Position); // tolua_export
virtual bool ReachedDestination(void);
// tolua_begin
eType GetMobType(void) const {return m_MobType; }
eFamily GetMobFamily(void) const;
// tolua_end
virtual void CheckEventSeePlayer(void);
virtual void EventSeePlayer(cEntity * a_Player);
/// Reads the monster configuration for the specified monster name and assigns it to this object.
void GetMonsterConfig(const AString & a_Name);
virtual void EventLosePlayer(void);
virtual void CheckEventLostPlayer(void);
virtual void InStateIdle (float a_Dt);
virtual void InStateChasing (float a_Dt);
virtual void InStateEscaping(float a_Dt);
int GetAttackRate() { return (int)m_AttackRate; }
void SetAttackRate(float a_AttackRate) { m_AttackRate = a_AttackRate; }
void SetAttackRange(int a_AttackRange) { m_AttackRange = a_AttackRange; }
void SetAttackDamage(int a_AttackDamage) { m_AttackDamage = a_AttackDamage; }
void SetSightDistance(int a_SightDistance) { m_SightDistance = a_SightDistance; }
float GetDropChanceWeapon() { return m_DropChanceWeapon; };
float GetDropChanceHelmet() { return m_DropChanceHelmet; };
float GetDropChanceChestplate() { return m_DropChanceChestplate; };
float GetDropChanceLeggings() { return m_DropChanceLeggings; };
float GetDropChanceBoots() { return m_DropChanceBoots; };
void SetDropChanceWeapon(float a_DropChanceWeapon) { m_DropChanceWeapon = a_DropChanceWeapon; };
void SetDropChanceHelmet(float a_DropChanceHelmet) { m_DropChanceHelmet = a_DropChanceHelmet; };
void SetDropChanceChestplate(float a_DropChanceChestplate) { m_DropChanceChestplate = a_DropChanceChestplate; };
void SetDropChanceLeggings(float a_DropChanceLeggings) { m_DropChanceLeggings = a_DropChanceLeggings; };
void SetDropChanceBoots(float a_DropChanceBoots) { m_DropChanceBoots = a_DropChanceBoots; };
/// Sets whether the mob burns in daylight. Only evaluated at next burn-decision tick
void SetBurnsInDaylight(bool a_BurnsInDaylight) { m_BurnsInDaylight = a_BurnsInDaylight; }
// Overridables to handle ageable mobs
virtual bool IsBaby (void) const { return false; }
virtual bool IsTame (void) const { return false; }
virtual bool IsSitting (void) const { return false; }
// tolua_begin
/// Translates MobType enum to a string, empty string if unknown
static AString MobTypeToString(eType a_MobType);
/// Translates MobType string to the enum, mtInvalidType if not recognized
static eType StringToMobType(const AString & a_MobTypeName);
/// Returns the mob family based on the type
static eFamily FamilyFromType(eType a_MobType);
/// Returns the spawn delay (number of game ticks between spawn attempts) for the given mob family
static int GetSpawnDelay(cMonster::eFamily a_MobFamily);
// tolua_end
/** Creates a new object of the specified mob.
a_MobType is the type of the mob to be created
Asserts and returns null if mob type is not specified
*/
static cMonster * NewMonsterFromType(eType a_MobType);
protected:
/* ======= PATHFINDING ======= */
/** A pointer to the entity this mobile is aiming to reach */
cEntity * m_Target;
/** Coordinates of the next position that should be reached */
Vector3d m_Destination;
/** Coordinates for the ultimate, final destination. */
Vector3d m_FinalDestination;
/** Returns if the ultimate, final destination has been reached */
bool ReachedFinalDestination(void);
/** Stores if mobile is currently moving towards the ultimate, final destination */
bool m_bMovingToDestination;
/** Finds the first non-air block position (not the highest, as cWorld::GetHeight does)
If current Y is nonsolid, goes down to try to find a solid block, then returns that + 1
If current Y is solid, goes up to find first nonsolid block, and returns that */
int FindFirstNonAirBlockPosition(double a_PosX, double a_PosZ);
/** Returns if a monster can actually reach a given height by jumping or walking */
inline bool IsNextYPosReachable(int a_PosY)
{
return (
(a_PosY <= (int)floor(GetPosY())) ||
DoesPosYRequireJump(a_PosY)
);
}
/** Returns if a monster can reach a given height by jumping */
inline bool DoesPosYRequireJump(int a_PosY)
{
return ((a_PosY > (int)floor(GetPosY())) && (a_PosY == (int)floor(GetPosY()) + 1));
}
/** A semi-temporary list to store the traversed coordinates during active pathfinding so we don't visit them again */
std::vector<Vector3i> m_TraversedCoordinates;
/** Returns if coordinate is in the traversed list */
bool IsCoordinateInTraversedList(Vector3i a_Coords);
/** Finds the next place to go
This is based on the ultimate, final destination and the current position, as well as the traversed coordinates, and any environmental hazards */
void TickPathFinding(void);
/** Finishes a pathfinding task, be it due to failure or something else */
inline void FinishPathFinding(void)
{
m_TraversedCoordinates.clear();
m_bMovingToDestination = false;
}
/** Sets the body yaw and head yaw/pitch based on next/ultimate destinations */
void SetPitchAndYawFromDestination(void);
/* =========================== */
/* ========= FALLING ========= */
virtual void HandleFalling(void);
int m_LastGroundHeight;
/* =========================== */
float m_IdleInterval;
float m_DestroyTimer;
eType m_MobType;
AString m_SoundHurt;
AString m_SoundDeath;
float m_AttackRate;
int m_AttackDamage;
int m_AttackRange;
float m_AttackInterval;
int m_SightDistance;
float m_DropChanceWeapon;
float m_DropChanceHelmet;
float m_DropChanceChestplate;
float m_DropChanceLeggings;
float m_DropChanceBoots;
void HandleDaylightBurning(cChunk & a_Chunk);
bool m_BurnsInDaylight;
/** Adds a random number of a_Item between a_Min and a_Max to itemdrops a_Drops*/
void AddRandomDropItem(cItems & a_Drops, unsigned int a_Min, unsigned int a_Max, short a_Item, short a_ItemHealth = 0);
/** Adds a item a_Item with the chance of a_Chance (in percent) to itemdrops a_Drops*/
void AddRandomUncommonDropItem(cItems & a_Drops, float a_Chance, short a_Item, short a_ItemHealth = 0);
/** Adds one rare item out of the list of rare items a_Items modified by the looting level a_LootingLevel(I-III or custom) to the itemdrop a_Drops*/
void AddRandomRareDropItem(cItems & a_Drops, cItems & a_Items, short a_LootingLevel);
/** Adds armor that is equipped with the chance of 8,5% (Looting 3: 11,5%) to the drop*/
void AddRandomArmorDropItem(cItems & a_Drops, short a_LootingLevel);
/** Adds weapon that is equipped with the chance of 8,5% (Looting 3: 11,5%) to the drop*/
void AddRandomWeaponDropItem(cItems & a_Drops, short a_LootingLevel);
} ; // tolua_export