DarkflameServer/dGame/dComponents/PetComponent.h
jadebenn ef6f2f133e
chore: Eradicate C-style casts and further clean up some code (#1361)
* cast and code cleanup

* cast cleanup

* bug fixes and improvements

* no getBoolField method exists

* fixes

* unbroke sg cannon scoring

* removing comments

* Remove the c-style cast warning I added from CMakeLists now that they're gone (it triggers on 3rd party dependencies and slows down compilation)

* (Hopefully) fix MacOS compilation error

* partially-implemented feedback

* more updates to account for feedback

* change bool default

---------

Co-authored-by: jadebenn <jonahebenn@yahoo.com>
2023-12-27 22:18:20 -06:00

364 lines
9.3 KiB
C++

#pragma once
#include "Entity.h"
#include "MovementAIComponent.h"
#include "Component.h"
#include "Preconditions.h"
#include "eReplicaComponentType.h"
enum class PetAbilityType : uint32_t
{
Invalid,
GoToObject,
JumpOnObject,
DigAtPosition
};
/**
* Represents an entity that is a pet. This pet can be tamed and consequently follows the tamer around, allowing it
* to dig for treasure and activate pet bouncers.
*/
class PetComponent : public Component
{
public:
inline static const eReplicaComponentType ComponentType = eReplicaComponentType::PET;
explicit PetComponent(Entity* parentEntity, uint32_t componentId);
~PetComponent() override;
void Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate) override;
void Update(float deltaTime) override;
/**
* Handles an OnUse event from another entity, initializing the pet taming minigame if this pet is untamed.
* @param originator the entity that triggered the event
*/
void OnUse(Entity* originator) override;
/**
* Attempts to complete the pet minigame by passing a list of bricks to build the minigame model.
* @param bricks the bricks to try to complete the minigame with
* @param clientFailed unused
*/
void TryBuild(uint32_t numBricks, bool clientFailed);
/**
* Handles a notification from the client regarding the completion of the pet minigame, adding the pet to their
* inventory.
* @param position the position to spawn the completed model at
*/
void NotifyTamingBuildSuccess(NiPoint3 position);
/**
* Handles the notification of the client to set the name of the pet (indicating that minigame was completed
* successfully).
* @param name the name of the pet to set
*/
void RequestSetPetName(std::u16string name);
/**
* Handles a notification of the client that the taming entity is leaving the minigame, either voluntary or because
* time ran out.
* @param voluntaryExit whether the client voluntarily exited the minigame
*/
void ClientExitTamingMinigame(bool voluntaryExit);
/**
* Starts the internal timer for the build limit for building the minigame model
*/
void StartTimer();
/**
* Notifies the client that they failed the minigame because time ran out
*/
void ClientFailTamingMinigame();
/**
* Makes the pet wander around
*/
void Wander();
/**
* Spawns a pet from an item in the inventory of an owner
* @param item the item to create the pet from
* @param registerPet notifies the client that the pet was spawned, not necessary if this pet is being tamed
*/
void Activate(Item* item, bool registerPet = true, bool fromTaming = false);
/**
* Despawns the pet
*/
void Deactivate();
/**
* Removes the pet from the inventory
*/
void Release();
/**
* Commands the pet to do an action, actions are still a relative mystery, next to playing emotes
* @param position a position to execute the command at, currently unused
* @param source the source object that triggered the command
* @param commandType the type of the command (see function body for types)
* @param typeId extra information about the command, e.g. the emote to play
* @param overrideObey unused
*/
void Command(NiPoint3 position, LWOOBJID source, int32_t commandType, int32_t typeId, bool overrideObey);
/**
* Returns the ID of the owner of this pet (if any)
* @return the ID of the owner of this pet
*/
LWOOBJID GetOwnerId() const;
/**
* Returns the entity that owns this pet (if any)
* @return the entity that owns this pet
*/
Entity* GetOwner() const;
/**
* Returns the ID that is stored in the database with regards to this pet, only set for pets that are tamed
* @return the ID that is stored in the database with regards to this pet
*/
LWOOBJID GetDatabaseId() const;
/**
* Returns the ID of the object that the pet is currently interacting with, could be a treasure chest or a switch
* @return the ID of the object that the pet is currently interacting with
*/
LWOOBJID GetInteraction() const;
/**
* Sets the ID that the pet is interacting with
* @param value the ID that the pet is interacting with
*/
void SetInteraction(LWOOBJID value);
/**
* Returns the ID that this pet was spawned from, only set for tamed pets
* @return the ID that this pet was spawned from
*/
LWOOBJID GetItemId() const;
/**
* Returns the status of this pet, e.g. tamable or tamed. The values here are still a bit of mystery and likely a
* bit map
* @return the status of this pet
*/
uint32_t GetStatus() const;
/**
* Sets the current status of the pet
* @param value the current status of the pet to set
*/
void SetStatus(uint32_t value);
/**
* Returns an ability the pet may perform, currently unused
* @return an ability the pet may perform
*/
PetAbilityType GetAbility() const;
/**
* Sets the ability of the pet, currently unused
* @param value the ability to set
*/
void SetAbility(PetAbilityType value);
/**
* Sets preconditions for the pet that need to be met before it can be tamed
* @param conditions the preconditions to set
*/
void SetPreconditions(std::string& conditions);
/**
* Returns the entity that this component belongs to
* @return the entity that this component belongs to
*/
Entity* GetParentEntity() const;
/**
* Sets the name of the pet to be moderated
* @param petName the name of the pet to set
*/
void SetPetNameForModeration(const std::string& petName);
/**
* Loads the pet name up for moderation along with the moderation status from the database and sets them for this
* pet.
*/
void LoadPetNameFromModeration();
/**
* Returns the component of the pet some entity is currently taming (if any)
* @param tamer the entity that's currently taming
* @return the pet component of the entity that's being tamed
*/
static PetComponent* GetTamingPet(LWOOBJID tamer);
/**
* Returns the pet that's currently spawned for some entity (if any)
* @param owner the owner of the pet that's spawned
* @return the pet component of the entity that was spawned by the owner
*/
static PetComponent* GetActivePet(LWOOBJID owner);
/**
* Adds the timer to the owner of this pet to drain imagination at the rate
* specified by the parameter imaginationDrainRate
*
* @param item The item that represents this pet in the inventory.
*/
void AddDrainImaginationTimer(Item* item, bool fromTaming = false);
private:
/**
* Information for the minigame to be completed
*/
struct PetPuzzleData
{
/**
* The LOT of the object that is to be created
*/
LOT puzzleModelLot;
/**
* That file that contains the bricks required to build the model
*/
std::string buildFile;
/**
* The time limit to complete the build
*/
int32_t timeLimit;
/**
* The imagination cost for the tamer to start the minigame
*/
int32_t imaginationCost;
/**
* The number of pieces required to complete the minigame
*/
int32_t numValidPieces;
};
/**
* Cache of all the pets that are currently spawned, indexed by tamer
*/
static std::unordered_map<LWOOBJID, LWOOBJID> activePets;
/**
* Cache of all the pets that are currently being tamed, indexed by tamer
*/
static std::unordered_map<LWOOBJID, LWOOBJID> currentActivities;
/**
* Cache of all the minigames and their information from the database
*/
static std::unordered_map<LOT, PetComponent::PetPuzzleData> buildCache;
/**
* Flags that indicate that a player has tamed a pet, indexed by the LOT of the pet
*/
static std::map<LOT, int32_t> petFlags;
/**
* The ID of the component in the pet component table
*/
uint32_t m_ComponentId;
/**
* The ID of the model that was built to complete the taming minigame for this pet
*/
LWOOBJID m_ModelId;
/**
* The ID of the object that the pet is currently interacting with (e.g. a treasure chest or switch)
*/
LWOOBJID m_Interaction;
/**
* The ID of the entity that owns this pet
*/
LWOOBJID m_Owner;
/**
* The ID of the entity that is currently taming this pet
*/
LWOOBJID m_Tamer;
/**
* The ID under which this pet is stored in the database (if it's tamed)
*/
LWOOBJID m_DatabaseId;
/**
* The ID of the item from which this pet was created
*/
LWOOBJID m_ItemId;
/**
* The moderation status for the name of this pet
*/
uint32_t m_ModerationStatus;
/**
* The name of this pet
*/
std::string m_Name;
/**
* The name of the owner of this pet
*/
std::string m_OwnerName;
/**
* The current state of the pet (e.g. tamable, tamed, etc).
*/
uint32_t m_Status;
/**
* A currently active ability, mostly unused
*/
PetAbilityType m_Ability;
/**
* The time an entity has left to complete the minigame
*/
float m_Timer;
/**
* A timer that tracks how long a tamed pet has been to far away from its owner, triggering a teleport after timeout
*/
float m_TimerAway;
/**
* Timer that tracks how long a pet has been digging up some treasure, required to spawn the treasure contents
* on time
*/
float m_TresureTime;
/**
* The position that this pet was spawned at
*/
NiPoint3 m_StartPosition;
/**
* The movement AI component that is related to this pet, required to move it around
*/
MovementAIComponent* m_MovementAI;
/**
* Preconditions that need to be met before an entity can tame this pet
*/
PreconditionExpression* m_Preconditions;
/**
* The rate at which imagination is drained from the user for having the pet out.
*/
float imaginationDrainRate;
};