DarkflameServer/dGame/Entity.cpp

2161 lines
71 KiB
C++

#include "dCommonVars.h"
#include "Entity.h"
#include "CDClientManager.h"
#include "Game.h"
#include "Logger.h"
#include <functional>
#include "CDDestructibleComponentTable.h"
#include "CDClientDatabase.h"
#include <sstream>
#include "dServer.h"
#include "GameMessages.h"
#include "EntityManager.h"
#include "dZoneManager.h"
#include "Zone.h"
#include "Spawner.h"
#include "UserManager.h"
#include "dpWorld.h"
#include "LUTriggers.h"
#include "User.h"
#include "EntityTimer.h"
#include "EntityCallbackTimer.h"
#include "Loot.h"
#include "eMissionTaskType.h"
#include "eTriggerEventType.h"
#include "eObjectBits.h"
#include "PositionUpdate.h"
#include "MessageType/Chat.h"
#include "PlayerManager.h"
//Component includes:
#include "Component.h"
#include "ControllablePhysicsComponent.h"
#include "RenderComponent.h"
#include "MultiZoneEntranceComponent.h"
#include "CharacterComponent.h"
#include "DestroyableComponent.h"
#include "BuffComponent.h"
#include "BouncerComponent.h"
#include "InventoryComponent.h"
#include "LevelProgressionComponent.h"
#include "PlayerForcedMovementComponent.h"
#include "ScriptComponent.h"
#include "SkillComponent.h"
#include "SimplePhysicsComponent.h"
#include "SwitchComponent.h"
#include "PhantomPhysicsComponent.h"
#include "RigidbodyPhantomPhysicsComponent.h"
#include "MovingPlatformComponent.h"
#include "MissionComponent.h"
#include "MissionOfferComponent.h"
#include "QuickBuildComponent.h"
#include "BuildBorderComponent.h"
#include "MovementAIComponent.h"
#include "VendorComponent.h"
#include "DonationVendorComponent.h"
#include "RocketLaunchpadControlComponent.h"
#include "PropertyComponent.h"
#include "BaseCombatAIComponent.h"
#include "PropertyManagementComponent.h"
#include "PropertyVendorComponent.h"
#include "ProximityMonitorComponent.h"
#include "PropertyEntranceComponent.h"
#include "ModelComponent.h"
#include "ZCompression.h"
#include "PetComponent.h"
#include "HavokVehiclePhysicsComponent.h"
#include "PossessableComponent.h"
#include "PossessorComponent.h"
#include "ModuleAssemblyComponent.h"
#include "RacingControlComponent.h"
#include "SoundTriggerComponent.h"
#include "ShootingGalleryComponent.h"
#include "RailActivatorComponent.h"
#include "LUPExhibitComponent.h"
#include "RacingSoundTriggerComponent.h"
#include "TriggerComponent.h"
#include "eGameMasterLevel.h"
#include "eReplicaComponentType.h"
#include "eReplicaPacketType.h"
#include "MiniGameControlComponent.h"
#include "RacingStatsComponent.h"
#include "CollectibleComponent.h"
#include "ItemComponent.h"
#include "GhostComponent.h"
#include "AchievementVendorComponent.h"
// Table includes
#include "CDComponentsRegistryTable.h"
#include "CDCurrencyTableTable.h"
#include "CDMovementAIComponentTable.h"
#include "CDProximityMonitorComponentTable.h"
#include "CDRebuildComponentTable.h"
#include "CDObjectSkillsTable.h"
#include "CDObjectsTable.h"
#include "CDScriptComponentTable.h"
#include "CDSkillBehaviorTable.h"
#include "CDZoneTableTable.h"
Entity::Entity(const LWOOBJID& objectID, EntityInfo info, User* parentUser, Entity* parentEntity) {
m_ObjectID = objectID;
m_TemplateID = info.lot;
m_ParentEntity = parentEntity;
m_Character = nullptr;
m_GMLevel = eGameMasterLevel::CIVILIAN;
m_NetworkID = 0;
m_Groups = {};
m_OwnerOverride = LWOOBJID_EMPTY;
m_Timers = {};
m_ChildEntities = {};
m_ScheduleKiller = nullptr;
m_TargetsInPhantom = {};
m_Components = {};
m_DieCallbacks = {};
m_PhantomCollisionCallbacks = {};
m_IsParentChildDirty = true;
m_Settings = info.settings;
m_NetworkSettings = info.networkSettings;
m_DefaultPosition = info.pos;
m_DefaultRotation = info.rot;
m_Scale = info.scale;
m_Spawner = info.spawner;
m_SpawnerID = info.spawnerID;
m_HasSpawnerNodeID = info.hasSpawnerNodeID;
m_SpawnerNodeID = info.spawnerNodeID;
if (info.lot != 1) m_PlayerIsReadyForUpdates = true;
if (parentUser) {
m_Character = parentUser->GetLastUsedChar();
parentUser->SetLoggedInChar(objectID);
m_GMLevel = m_Character->GetGMLevel();
m_Character->SetEntity(this);
PlayerManager::AddPlayer(this);
}
}
Entity::~Entity() {
if (IsPlayer()) {
LOG("Deleted player");
// Make sure the player exists first. Remove afterwards to prevent the OnPlayerExist functions from not being able to find the player.
if (!PlayerManager::RemovePlayer(this)) {
LOG("Unable to find player to remove from manager.");
return;
}
auto* zoneControl = Game::entityManager->GetZoneControlEntity();
if (zoneControl) {
zoneControl->GetScript()->OnPlayerExit(zoneControl, this);
}
std::vector<Entity*> scriptedActs = Game::entityManager->GetEntitiesByComponent(eReplicaComponentType::SCRIPTED_ACTIVITY);
for (Entity* scriptEntity : scriptedActs) {
if (scriptEntity->GetObjectID() != zoneControl->GetObjectID()) { // Don't want to trigger twice on instance worlds
scriptEntity->GetScript()->OnPlayerExit(scriptEntity, this);
}
}
}
if (m_Character) {
m_Character->SaveXMLToDatabase();
}
CancelAllTimers();
CancelCallbackTimers();
const auto components = m_Components;
for (const auto& pair : components) {
delete pair.second;
m_Components.erase(pair.first);
}
for (auto child : m_ChildEntities) {
if (child) child->RemoveParent();
}
if (m_ParentEntity) {
m_ParentEntity->RemoveChild(this);
}
}
void Entity::Initialize() {
/**
* Setup trigger
*/
const auto triggerInfo = GetVarAsString(u"trigger_id");
if (!triggerInfo.empty()) AddComponent<TriggerComponent>(triggerInfo);
/**
* Setup groups
*/
const auto groupIDs = GetVarAsString(u"groupID");
if (!groupIDs.empty()) {
m_Groups = GeneralUtils::SplitString(groupIDs, ';');
if (!m_Groups.empty()) {
if (m_Groups.back().empty()) m_Groups.erase(m_Groups.end() - 1);
}
}
/**
* Set ourselves as a child of our parent
*/
if (m_ParentEntity != nullptr) {
m_ParentEntity->AddChild(this);
}
// Get the registry table
CDComponentsRegistryTable* compRegistryTable = CDClientManager::GetTable<CDComponentsRegistryTable>();
/**
* Special case for BBB models. They have components not corresponding to the registry.
*/
if (m_TemplateID == 14) {
const auto simplePhysicsComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SIMPLE_PHYSICS);
AddComponent<SimplePhysicsComponent>(simplePhysicsComponentID);
AddComponent<ModelComponent>()->LoadBehaviors();
AddComponent<RenderComponent>();
auto* destroyableComponent = AddComponent<DestroyableComponent>();
destroyableComponent->SetHealth(1);
destroyableComponent->SetMaxHealth(1.0f);
destroyableComponent->SetFaction(-1, true);
destroyableComponent->SetIsSmashable(true);
// We have all our components.
return;
}
/**
* Go through all the components and check if this entity has them.
*
* Not all components are implemented. Some are represented by a nullptr, as they hold no data.
*/
if (m_Character && m_Character->GetParentUser()) {
AddComponent<MissionComponent>()->LoadFromXml(m_Character->GetXMLDoc());
}
uint32_t petComponentId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PET);
if (petComponentId > 0) {
AddComponent<PetComponent>(petComponentId);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MINI_GAME_CONTROL) > 0) {
AddComponent<MiniGameControlComponent>();
}
uint32_t possessableComponentId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::POSSESSABLE);
if (possessableComponentId > 0) {
AddComponent<PossessableComponent>(possessableComponentId);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MODULE_ASSEMBLY) > 0) {
AddComponent<ModuleAssemblyComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RACING_STATS) > 0) {
AddComponent<RacingStatsComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::LUP_EXHIBIT, -1) >= 0) {
AddComponent<LUPExhibitComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RACING_CONTROL) > 0) {
AddComponent<RacingControlComponent>();
}
const auto propertyEntranceComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PROPERTY_ENTRANCE);
if (propertyEntranceComponentID > 0) {
AddComponent<PropertyEntranceComponent>(propertyEntranceComponentID);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::CONTROLLABLE_PHYSICS) > 0) {
auto* controllablePhysics = AddComponent<ControllablePhysicsComponent>();
if (m_Character) {
controllablePhysics->LoadFromXml(m_Character->GetXMLDoc());
const auto mapID = Game::server->GetZoneID();
//If we came from another zone, put us in the starting loc
if (m_Character->GetZoneID() != Game::server->GetZoneID() || mapID == 1603) { // Exception for Moon Base as you tend to spawn on the roof.
NiPoint3 pos;
NiQuaternion rot;
const auto& targetSceneName = m_Character->GetTargetScene();
auto* targetScene = Game::entityManager->GetSpawnPointEntity(targetSceneName);
if (m_Character->HasBeenToWorld(mapID) && targetSceneName.empty()) {
pos = m_Character->GetRespawnPoint(mapID);
rot = Game::zoneManager->GetZone()->GetSpawnRot();
} else if (targetScene != nullptr) {
pos = targetScene->GetPosition();
rot = targetScene->GetRotation();
} else {
pos = Game::zoneManager->GetZone()->GetSpawnPos();
rot = Game::zoneManager->GetZone()->GetSpawnRot();
}
controllablePhysics->SetPosition(pos);
controllablePhysics->SetRotation(rot);
}
} else {
controllablePhysics->SetPosition(m_DefaultPosition);
controllablePhysics->SetRotation(m_DefaultRotation);
}
}
// If an entity is marked a phantom, simple physics is made into phantom phyics.
bool markedAsPhantom = GetVar<bool>(u"markedAsPhantom");
const auto simplePhysicsComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SIMPLE_PHYSICS);
if (!markedAsPhantom && simplePhysicsComponentID > 0) {
AddComponent<SimplePhysicsComponent>(simplePhysicsComponentID);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RIGID_BODY_PHANTOM_PHYSICS) > 0) {
AddComponent<RigidbodyPhantomPhysicsComponent>();
}
if (markedAsPhantom || compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PHANTOM_PHYSICS) > 0) {
AddComponent<PhantomPhysicsComponent>()->SetPhysicsEffectActive(false);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::HAVOK_VEHICLE_PHYSICS) > 0) {
auto* havokVehiclePhysicsComponent = AddComponent<HavokVehiclePhysicsComponent>();
havokVehiclePhysicsComponent->SetPosition(m_DefaultPosition);
havokVehiclePhysicsComponent->SetRotation(m_DefaultRotation);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SOUND_TRIGGER, -1) != -1) {
AddComponent<SoundTriggerComponent>();
} else if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RACING_SOUND_TRIGGER, -1) != -1) {
AddComponent<RacingSoundTriggerComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::BUFF) > 0) {
AddComponent<BuffComponent>();
}
int collectibleComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::COLLECTIBLE);
if (collectibleComponentID > 0) {
AddComponent<CollectibleComponent>(GetVarAs<int32_t>(u"collectible_id"));
}
/**
* Multiple components require the destructible component.
*/
int buffComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::BUFF);
int quickBuildComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::QUICK_BUILD);
int componentID = -1;
if (collectibleComponentID > 0) componentID = collectibleComponentID;
if (quickBuildComponentID > 0) componentID = quickBuildComponentID;
if (buffComponentID > 0) componentID = buffComponentID;
CDDestructibleComponentTable* destCompTable = CDClientManager::GetTable<CDDestructibleComponentTable>();
std::vector<CDDestructibleComponent> destCompData = destCompTable->Query([=](CDDestructibleComponent entry) { return (entry.id == componentID); });
bool isSmashable = GetVarAs<int32_t>(u"is_smashable") != 0;
if (buffComponentID > 0 || collectibleComponentID > 0 || isSmashable) {
DestroyableComponent* comp = AddComponent<DestroyableComponent>();
if (m_Character) {
comp->LoadFromXml(m_Character->GetXMLDoc());
} else {
if (componentID > 0) {
std::vector<CDDestructibleComponent> destCompData = destCompTable->Query([=](CDDestructibleComponent entry) { return (entry.id == componentID); });
if (destCompData.size() > 0) {
if (HasComponent(eReplicaComponentType::RACING_STATS)) {
destCompData[0].imagination = 60;
}
comp->SetHealth(destCompData[0].life);
comp->SetImagination(destCompData[0].imagination);
comp->SetArmor(destCompData[0].armor);
comp->SetMaxHealth(destCompData[0].life);
comp->SetMaxImagination(destCompData[0].imagination);
comp->SetMaxArmor(destCompData[0].armor);
comp->SetDeathBehavior(destCompData[0].death_behavior);
comp->SetIsSmashable(destCompData[0].isSmashable);
comp->SetLootMatrixID(destCompData[0].LootMatrixIndex);
Loot::CacheMatrix(destCompData[0].LootMatrixIndex);
// Now get currency information
uint32_t npcMinLevel = destCompData[0].level;
uint32_t currencyIndex = destCompData[0].CurrencyIndex;
CDCurrencyTableTable* currencyTable = CDClientManager::GetTable<CDCurrencyTableTable>();
std::vector<CDCurrencyTable> currencyValues = currencyTable->Query([=](CDCurrencyTable entry) { return (entry.currencyIndex == currencyIndex && entry.npcminlevel == npcMinLevel); });
if (currencyValues.size() > 0) {
// Set the coins
comp->SetMinCoins(currencyValues[0].minvalue);
comp->SetMaxCoins(currencyValues[0].maxvalue);
}
// extraInfo overrides. Client ORs the database smashable and the luz smashable.
comp->SetIsSmashable(comp->GetIsSmashable() | isSmashable);
}
} else {
comp->SetHealth(1);
comp->SetArmor(0);
comp->SetMaxHealth(1);
comp->SetMaxArmor(0);
comp->SetIsSmashable(true);
comp->AddFaction(-1);
comp->AddFaction(6); //Smashables
// A race car has 60 imagination, other entities defaults to 0.
comp->SetImagination(HasComponent(eReplicaComponentType::RACING_STATS) ? 60 : 0);
comp->SetMaxImagination(HasComponent(eReplicaComponentType::RACING_STATS) ? 60 : 0);
}
}
if (destCompData.size() > 0) {
comp->AddFaction(destCompData[0].faction);
std::stringstream ss(destCompData[0].factionList);
std::string token;
while (std::getline(ss, token, ',')) {
if (std::stoi(token) == destCompData[0].faction) continue;
if (token != "") {
comp->AddFaction(std::stoi(token));
}
}
}
// override the factions if needed.
auto setFaction = GetVarAsString(u"set_faction");
if (!setFaction.empty()) {
// TODO also split on space here however we do not have a general util for splitting on multiple characters yet.
std::vector<std::string> factionsToAdd = GeneralUtils::SplitString(setFaction, ';');
for (const auto faction : factionsToAdd) {
const auto factionToAdd = GeneralUtils::TryParse<int32_t>(faction);
if (factionToAdd) {
comp->AddFaction(factionToAdd.value(), true);
}
}
}
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::CHARACTER) > 0 || m_Character) {
// Character Component always has a possessor, level, and forced movement components
AddComponent<PossessorComponent>();
// load in the xml for the level
AddComponent<LevelProgressionComponent>()->LoadFromXml(m_Character->GetXMLDoc());
AddComponent<PlayerForcedMovementComponent>();
auto& systemAddress = m_Character->GetParentUser() ? m_Character->GetParentUser()->GetSystemAddress() : UNASSIGNED_SYSTEM_ADDRESS;
AddComponent<CharacterComponent>(m_Character, systemAddress)->LoadFromXml(m_Character->GetXMLDoc());
AddComponent<GhostComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::INVENTORY) > 0 || m_Character) {
AddComponent<InventoryComponent>();
}
// if this component exists, then we initialize it. it's value is always 0
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MULTI_ZONE_ENTRANCE, -1) != -1) {
AddComponent<MultiZoneEntranceComponent>();
}
/**
* This is a bit of a mess
*/
CDScriptComponentTable* scriptCompTable = CDClientManager::GetTable<CDScriptComponentTable>();
int32_t scriptComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SCRIPT, -1);
std::string scriptName = "";
bool client = false;
if (scriptComponentID > 0 || m_Character) {
std::string clientScriptName;
if (!m_Character) {
CDScriptComponent scriptCompData = scriptCompTable->GetByID(scriptComponentID);
scriptName = scriptCompData.script_name;
clientScriptName = scriptCompData.client_script_name;
} else {
scriptName = "";
}
if (scriptName != "" || (scriptName == "" && m_Character)) {
} else if (clientScriptName != "") {
client = true;
} else if (!m_Character) {
client = true;
}
}
std::string customScriptServer;
bool hasCustomServerScript = false;
const auto customScriptServerName = GetVarAsString(u"custom_script_server");
const auto customScriptClientName = GetVarAsString(u"custom_script_client");
if (!customScriptServerName.empty()) {
customScriptServer = customScriptServerName;
hasCustomServerScript = true;
}
if (!customScriptClientName.empty()) {
client = true;
}
if (hasCustomServerScript && scriptName.empty()) {
scriptName = customScriptServer;
}
if (!scriptName.empty() || client || m_Character || scriptComponentID >= 0) {
AddComponent<ScriptComponent>(scriptName, true, client && scriptName.empty());
}
// ZoneControl script
if (m_TemplateID == 2365) {
CDZoneTableTable* zoneTable = CDClientManager::GetTable<CDZoneTableTable>();
const auto zoneID = Game::zoneManager->GetZoneID();
const CDZoneTable* zoneData = zoneTable->Query(zoneID.GetMapID());
if (zoneData != nullptr) {
int zoneScriptID = zoneData->scriptID;
CDScriptComponent zoneScriptData = scriptCompTable->GetByID(zoneScriptID);
AddComponent<ScriptComponent>(zoneScriptData.script_name, true);
}
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SKILL, -1) != -1 || m_Character) {
AddComponent<SkillComponent>();
}
const auto combatAiId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::BASE_COMBAT_AI);
if (combatAiId > 0) {
AddComponent<BaseCombatAIComponent>(combatAiId);
}
if (int componentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::QUICK_BUILD) > 0) {
auto* quickBuildComponent = AddComponent<QuickBuildComponent>();
CDRebuildComponentTable* rebCompTable = CDClientManager::GetTable<CDRebuildComponentTable>();
std::vector<CDRebuildComponent> rebCompData = rebCompTable->Query([=](CDRebuildComponent entry) { return (entry.id == quickBuildComponentID); });
if (rebCompData.size() > 0) {
quickBuildComponent->SetResetTime(rebCompData[0].reset_time);
quickBuildComponent->SetCompleteTime(rebCompData[0].complete_time);
quickBuildComponent->SetTakeImagination(rebCompData[0].take_imagination);
quickBuildComponent->SetInterruptible(rebCompData[0].interruptible);
quickBuildComponent->SetSelfActivator(rebCompData[0].self_activator);
quickBuildComponent->SetActivityId(rebCompData[0].activityID);
quickBuildComponent->SetPostImaginationCost(rebCompData[0].post_imagination_cost);
quickBuildComponent->SetTimeBeforeSmash(rebCompData[0].time_before_smash);
const auto rebuildResetTime = GetVar<float>(u"rebuild_reset_time");
if (rebuildResetTime != 0.0f) {
quickBuildComponent->SetResetTime(rebuildResetTime);
// Known bug with moving platform in FV that casues it to build at the end instead of the start.
// This extends the smash time so players can ride up the lift.
if (m_TemplateID == 9483) {
quickBuildComponent->SetResetTime(quickBuildComponent->GetResetTime() + 25);
}
}
const auto activityID = GetVar<int32_t>(u"activityID");
if (activityID > 0) {
quickBuildComponent->SetActivityId(activityID);
Loot::CacheMatrix(activityID);
}
const auto timeBeforeSmash = GetVar<float>(u"tmeSmsh");
if (timeBeforeSmash > 0) {
quickBuildComponent->SetTimeBeforeSmash(timeBeforeSmash);
}
const auto compTime = GetVar<float>(u"compTime");
if (compTime > 0) {
quickBuildComponent->SetCompleteTime(compTime);
}
}
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SWITCH, -1) != -1) {
AddComponent<SwitchComponent>();
}
if ((compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::VENDOR) > 0)) {
AddComponent<VendorComponent>();
} else if ((compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::DONATION_VENDOR, -1) != -1)) {
AddComponent<DonationVendorComponent>();
} else if ((compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::ACHIEVEMENT_VENDOR, -1) != -1)) {
AddComponent<AchievementVendorComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PROPERTY_VENDOR, -1) != -1) {
AddComponent<PropertyVendorComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PROPERTY_MANAGEMENT, -1) != -1) {
AddComponent<PropertyManagementComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::BOUNCER, -1) != -1) { // you have to determine it like this because all bouncers have a componentID of 0
AddComponent<BouncerComponent>();
}
int32_t renderComponentId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RENDER);
if ((renderComponentId > 0 && m_TemplateID != 2365) || m_Character) {
AddComponent<RenderComponent>(renderComponentId);
}
if ((compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MISSION_OFFER) > 0) || m_Character) {
AddComponent<MissionOfferComponent>(m_TemplateID);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::BUILD_BORDER, -1) != -1) {
AddComponent<BuildBorderComponent>();
}
// Scripted activity component
int scriptedActivityID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SCRIPTED_ACTIVITY, -1);
if ((scriptedActivityID != -1)) {
AddComponent<ScriptedActivityComponent>(scriptedActivityID);
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MODEL, -1) != -1 && !GetComponent<PetComponent>()) {
AddComponent<ModelComponent>()->LoadBehaviors();
if (!HasComponent(eReplicaComponentType::DESTROYABLE)) {
auto* destroyableComponent = AddComponent<DestroyableComponent>();
destroyableComponent->SetHealth(1);
destroyableComponent->SetMaxHealth(1.0f);
destroyableComponent->SetFaction(-1, true);
destroyableComponent->SetIsSmashable(true);
}
}
PetComponent* petComponent;
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::ITEM) > 0 && !TryGetComponent(eReplicaComponentType::PET, petComponent) && !HasComponent(eReplicaComponentType::MODEL)) {
AddComponent<ItemComponent>();
}
// Shooting gallery component
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::SHOOTING_GALLERY) > 0) {
AddComponent<ShootingGalleryComponent>();
}
if (compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PROPERTY, -1) != -1) {
AddComponent<PropertyComponent>();
}
const int rocketId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::ROCKET_LAUNCH);
if ((rocketId > 0)) {
AddComponent<RocketLaunchpadControlComponent>(rocketId);
}
const int32_t railComponentID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::RAIL_ACTIVATOR);
if (railComponentID > 0) {
AddComponent<RailActivatorComponent>(railComponentID);
}
int movementAIID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MOVEMENT_AI);
if (movementAIID > 0) {
CDMovementAIComponentTable* moveAITable = CDClientManager::GetTable<CDMovementAIComponentTable>();
std::vector<CDMovementAIComponent> moveAIComp = moveAITable->Query([=](CDMovementAIComponent entry) {return (entry.id == movementAIID); });
if (moveAIComp.size() > 0) {
MovementAIInfo moveInfo = MovementAIInfo();
moveInfo.movementType = moveAIComp[0].MovementType;
moveInfo.wanderChance = moveAIComp[0].WanderChance;
moveInfo.wanderRadius = moveAIComp[0].WanderRadius;
moveInfo.wanderSpeed = moveAIComp[0].WanderSpeed;
moveInfo.wanderDelayMax = moveAIComp[0].WanderDelayMax;
moveInfo.wanderDelayMin = moveAIComp[0].WanderDelayMin;
bool useWanderDB = GetVar<bool>(u"usewanderdb");
if (!useWanderDB) {
const auto wanderOverride = GetVarAs<float>(u"wanderRadius");
if (wanderOverride != 0.0f) {
moveInfo.wanderRadius = wanderOverride;
}
}
AddComponent<MovementAIComponent>(moveInfo);
}
} else if (petComponentId > 0 || combatAiId > 0 && GetComponent<BaseCombatAIComponent>()->GetTetherSpeed() > 0) {
MovementAIInfo moveInfo = MovementAIInfo();
moveInfo.movementType = "";
moveInfo.wanderChance = 0;
moveInfo.wanderRadius = 16;
moveInfo.wanderSpeed = 2.5f;
moveInfo.wanderDelayMax = 5;
moveInfo.wanderDelayMin = 2;
AddComponent<MovementAIComponent>(moveInfo);
}
std::string pathName = GetVarAsString(u"attached_path");
const Path* path = Game::zoneManager->GetZone()->GetPath(pathName);
//Check to see if we have an attached path and add the appropiate component to handle it:
if (path) {
// if we have a moving platform path, then we need a moving platform component
if (path->pathType == PathType::MovingPlatform) {
AddComponent<MovingPlatformComponent>(pathName);
} else if (path->pathType == PathType::Movement) {
auto movementAIcomponent = GetComponent<MovementAIComponent>();
if (movementAIcomponent && combatAiId == 0) {
movementAIcomponent->SetPath(pathName);
} else {
MovementAIInfo moveInfo = MovementAIInfo();
moveInfo.movementType = "";
moveInfo.wanderChance = 0;
moveInfo.wanderRadius = 16;
moveInfo.wanderSpeed = 2.5f;
moveInfo.wanderDelayMax = 5;
moveInfo.wanderDelayMin = 2;
AddComponent<MovementAIComponent>(moveInfo);
}
}
} else {
// else we still need to setup moving platform if it has a moving platform comp but no path
int32_t movingPlatformComponentId = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::MOVING_PLATFORM, -1);
if (movingPlatformComponentId >= 0) {
AddComponent<MovingPlatformComponent>(pathName);
}
}
int proximityMonitorID = compRegistryTable->GetByIDAndType(m_TemplateID, eReplicaComponentType::PROXIMITY_MONITOR);
if (proximityMonitorID > 0) {
CDProximityMonitorComponentTable* proxCompTable = CDClientManager::GetTable<CDProximityMonitorComponentTable>();
std::vector<CDProximityMonitorComponent> proxCompData = proxCompTable->Query([=](CDProximityMonitorComponent entry) { return (entry.id == proximityMonitorID); });
if (proxCompData.size() > 0) {
std::vector<std::string> proximityStr = GeneralUtils::SplitString(proxCompData[0].Proximities, ',');
AddComponent<ProximityMonitorComponent>(std::stoi(proximityStr[0]), std::stoi(proximityStr[1]));
}
}
// Hacky way to trigger these when the object has had a chance to get constructed
AddCallbackTimer(0, [this]() {
this->GetScript()->OnStartup(this);
});
if (!m_Character && Game::entityManager->GetGhostingEnabled()) {
// Don't ghost what is likely large scene elements
if (HasComponent(eReplicaComponentType::SIMPLE_PHYSICS) && HasComponent(eReplicaComponentType::RENDER) && (m_Components.size() == 2 || (HasComponent(eReplicaComponentType::TRIGGER) && m_Components.size() == 3))) {
goto no_ghosting;
}
/* Filter for ghosting candidates.
*
* Don't ghost moving platforms, until we've got proper syncing for those.
* Don't ghost big phantom physics triggers, as putting those to sleep might prevent interactions.
* Don't ghost property related objects, as the client expects those to always be loaded.
*/
if (
!EntityManager::IsExcludedFromGhosting(GetLOT()) &&
!HasComponent(eReplicaComponentType::SCRIPTED_ACTIVITY) &&
!HasComponent(eReplicaComponentType::MOVING_PLATFORM) &&
!HasComponent(eReplicaComponentType::PHANTOM_PHYSICS) &&
!HasComponent(eReplicaComponentType::PROPERTY) &&
!HasComponent(eReplicaComponentType::RACING_CONTROL) &&
!HasComponent(eReplicaComponentType::HAVOK_VEHICLE_PHYSICS)
)
//if (HasComponent(eReplicaComponentType::BASE_COMBAT_AI))
{
m_IsGhostingCandidate = true;
}
if (GetLOT() == 6368) {
m_IsGhostingCandidate = true;
}
// Special case for collectibles in Ninjago
if (HasComponent(eReplicaComponentType::COLLECTIBLE) && Game::server->GetZoneID() == 2000) {
m_IsGhostingCandidate = true;
}
}
no_ghosting:
TriggerEvent(eTriggerEventType::CREATE, this);
if (m_Character) {
auto* controllablePhysicsComponent = GetComponent<ControllablePhysicsComponent>();
auto* levelComponent = GetComponent<LevelProgressionComponent>();
if (controllablePhysicsComponent && levelComponent) {
controllablePhysicsComponent->SetSpeedMultiplier(levelComponent->GetSpeedBase() / 500.0f);
}
}
}
bool Entity::operator==(const Entity& other) const {
return other.m_ObjectID == m_ObjectID;
}
bool Entity::operator!=(const Entity& other) const {
return other.m_ObjectID != m_ObjectID;
}
Component* Entity::GetComponent(eReplicaComponentType componentID) const {
const auto& index = m_Components.find(componentID);
if (index == m_Components.end()) {
return nullptr;
}
return index->second;
}
bool Entity::HasComponent(const eReplicaComponentType componentId) const {
return m_Components.find(componentId) != m_Components.end();
}
void Entity::Subscribe(LWOOBJID scriptObjId, CppScripts::Script* scriptToAdd, const std::string& notificationName) {
if (notificationName == "HitOrHealResult" || notificationName == "Hit") {
auto* destroyableComponent = GetComponent<DestroyableComponent>();
if (!destroyableComponent) return;
destroyableComponent->Subscribe(scriptObjId, scriptToAdd);
}
}
void Entity::Unsubscribe(LWOOBJID scriptObjId, const std::string& notificationName) {
if (notificationName == "HitOrHealResult" || notificationName == "Hit") {
auto* destroyableComponent = GetComponent<DestroyableComponent>();
if (!destroyableComponent) return;
destroyableComponent->Unsubscribe(scriptObjId);
}
}
void Entity::SetProximityRadius(float proxRadius, std::string name) {
auto* proxMon = GetComponent<ProximityMonitorComponent>();
if (!proxMon) proxMon = AddComponent<ProximityMonitorComponent>();
proxMon->SetProximityRadius(proxRadius, name);
}
void Entity::SetProximityRadius(dpEntity* entity, std::string name) {
ProximityMonitorComponent* proxMon = AddComponent<ProximityMonitorComponent>();
proxMon->SetProximityRadius(entity, name);
}
void Entity::SetGMLevel(eGameMasterLevel value) {
m_GMLevel = value;
if (m_Character) m_Character->SetGMLevel(value);
auto* characterComponent = GetComponent<CharacterComponent>();
if (!characterComponent) return;
characterComponent->SetGMLevel(value);
GameMessages::SendGMLevelBroadcast(m_ObjectID, value);
// Update the chat server of our GM Level
{
CBITSTREAM;
BitStreamUtils::WriteHeader(bitStream, eConnectionType::CHAT, MessageType::Chat::GMLEVEL_UPDATE);
bitStream.Write(m_ObjectID);
bitStream.Write(m_GMLevel);
Game::chatServer->Send(&bitStream, SYSTEM_PRIORITY, RELIABLE, 0, Game::chatSysAddr, false);
}
}
void Entity::WriteBaseReplicaData(RakNet::BitStream& outBitStream, eReplicaPacketType packetType) {
if (packetType == eReplicaPacketType::CONSTRUCTION) {
outBitStream.Write(m_ObjectID);
outBitStream.Write(m_TemplateID);
if (IsPlayer()) {
std::string name = m_Character != nullptr ? m_Character->GetName() : "Invalid";
outBitStream.Write<uint8_t>(uint8_t(name.size()));
for (size_t i = 0; i < name.size(); ++i) {
outBitStream.Write<uint16_t>(name[i]);
}
} else {
const auto& name = GetVar<std::string>(u"npcName");
outBitStream.Write<uint8_t>(uint8_t(name.size()));
for (size_t i = 0; i < name.size(); ++i) {
outBitStream.Write<uint16_t>(name[i]);
}
}
outBitStream.Write<uint32_t>(0); //Time since created on server
const auto& syncLDF = GetVar<std::vector<std::u16string>>(u"syncLDF");
// Only sync for models.
if (m_Settings.size() > 0 && (GetComponent<ModelComponent>() && !GetComponent<PetComponent>())) {
outBitStream.Write1(); //ldf data
RakNet::BitStream settingStream;
int32_t numberOfValidKeys = m_Settings.size();
// Writing keys value pairs the client does not expect to receive or interpret will result in undefined behavior,
// so we need to filter out any keys that are not valid and fix the number of valid keys to be correct.
// TODO should make this more efficient so that we dont waste loops evaluating the same condition twice
for (LDFBaseData* data : m_Settings) {
if (!data || data->GetValueType() == eLDFType::LDF_TYPE_UNKNOWN) {
numberOfValidKeys--;
}
}
settingStream.Write<uint32_t>(numberOfValidKeys);
for (LDFBaseData* data : m_Settings) {
if (data && data->GetValueType() != eLDFType::LDF_TYPE_UNKNOWN) {
data->WriteToPacket(settingStream);
}
}
outBitStream.Write(settingStream.GetNumberOfBytesUsed() + 1);
outBitStream.Write<uint8_t>(0); //no compression used
outBitStream.Write(settingStream);
} else if (!syncLDF.empty()) {
std::vector<LDFBaseData*> ldfData;
for (const auto& data : syncLDF) {
ldfData.push_back(GetVarData(data));
}
outBitStream.Write1(); //ldf data
RakNet::BitStream settingStream;
settingStream.Write<uint32_t>(ldfData.size());
for (LDFBaseData* data : ldfData) {
if (data) {
data->WriteToPacket(settingStream);
}
}
outBitStream.Write(settingStream.GetNumberOfBytesUsed() + 1);
outBitStream.Write<uint8_t>(0); //no compression used
outBitStream.Write(settingStream);
} else {
outBitStream.Write0(); //No ldf data
}
TriggerComponent* triggerComponent;
if (TryGetComponent(eReplicaComponentType::TRIGGER, triggerComponent)) {
// has trigger component, check to see if we have events to handle
auto* trigger = triggerComponent->GetTrigger();
outBitStream.Write<bool>(trigger && trigger->events.size() > 0);
} else { // no trigger componenet, so definitely no triggers
outBitStream.Write0();
}
if (m_ParentEntity != nullptr || m_SpawnerID != 0) {
outBitStream.Write1();
if (m_ParentEntity != nullptr) outBitStream.Write(GeneralUtils::SetBit(m_ParentEntity->GetObjectID(), static_cast<uint32_t>(eObjectBits::CLIENT)));
else if (m_Spawner != nullptr && m_Spawner->m_Info.isNetwork) outBitStream.Write(m_SpawnerID);
else outBitStream.Write(GeneralUtils::SetBit(m_SpawnerID, static_cast<uint32_t>(eObjectBits::CLIENT)));
} else outBitStream.Write0();
outBitStream.Write(m_HasSpawnerNodeID);
if (m_HasSpawnerNodeID) outBitStream.Write(m_SpawnerNodeID);
//outBitStream.Write0(); //Spawner node id
if (m_Scale == 1.0f || m_Scale == 0.0f) outBitStream.Write0();
else {
outBitStream.Write1();
outBitStream.Write(m_Scale);
}
outBitStream.Write0(); //ObjectWorldState
if (m_GMLevel != eGameMasterLevel::CIVILIAN) {
outBitStream.Write1();
outBitStream.Write(m_GMLevel);
} else outBitStream.Write0(); //No GM Level
}
// Only serialize parent / child info should the info be dirty (changed) or if this is the construction of the entity.
outBitStream.Write(m_IsParentChildDirty || packetType == eReplicaPacketType::CONSTRUCTION);
if (m_IsParentChildDirty || packetType == eReplicaPacketType::CONSTRUCTION) {
m_IsParentChildDirty = false;
outBitStream.Write(m_ParentEntity != nullptr);
if (m_ParentEntity) {
outBitStream.Write(m_ParentEntity->GetObjectID());
outBitStream.Write0();
}
outBitStream.Write(m_ChildEntities.size() > 0);
if (m_ChildEntities.size() > 0) {
outBitStream.Write<uint16_t>(m_ChildEntities.size());
for (Entity* child : m_ChildEntities) {
outBitStream.Write<uint64_t>(child->GetObjectID());
}
}
}
}
void Entity::WriteComponents(RakNet::BitStream& outBitStream, eReplicaPacketType packetType) {
/**
* This has to be done in a specific order.
*/
bool destroyableSerialized = false;
bool bIsInitialUpdate = packetType == eReplicaPacketType::CONSTRUCTION;
PossessableComponent* possessableComponent;
if (TryGetComponent(eReplicaComponentType::POSSESSABLE, possessableComponent)) {
possessableComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ModuleAssemblyComponent* moduleAssemblyComponent;
if (TryGetComponent(eReplicaComponentType::MODULE_ASSEMBLY, moduleAssemblyComponent)) {
moduleAssemblyComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ControllablePhysicsComponent* controllablePhysicsComponent;
if (TryGetComponent(eReplicaComponentType::CONTROLLABLE_PHYSICS, controllablePhysicsComponent)) {
controllablePhysicsComponent->Serialize(outBitStream, bIsInitialUpdate);
}
SimplePhysicsComponent* simplePhysicsComponent;
if (TryGetComponent(eReplicaComponentType::SIMPLE_PHYSICS, simplePhysicsComponent)) {
simplePhysicsComponent->Serialize(outBitStream, bIsInitialUpdate);
}
RigidbodyPhantomPhysicsComponent* rigidbodyPhantomPhysics;
if (TryGetComponent(eReplicaComponentType::RIGID_BODY_PHANTOM_PHYSICS, rigidbodyPhantomPhysics)) {
rigidbodyPhantomPhysics->Serialize(outBitStream, bIsInitialUpdate);
}
HavokVehiclePhysicsComponent* havokVehiclePhysicsComponent;
if (TryGetComponent(eReplicaComponentType::HAVOK_VEHICLE_PHYSICS, havokVehiclePhysicsComponent)) {
havokVehiclePhysicsComponent->Serialize(outBitStream, bIsInitialUpdate);
}
PhantomPhysicsComponent* phantomPhysicsComponent;
if (TryGetComponent(eReplicaComponentType::PHANTOM_PHYSICS, phantomPhysicsComponent)) {
phantomPhysicsComponent->Serialize(outBitStream, bIsInitialUpdate);
}
SoundTriggerComponent* soundTriggerComponent;
if (TryGetComponent(eReplicaComponentType::SOUND_TRIGGER, soundTriggerComponent)) {
soundTriggerComponent->Serialize(outBitStream, bIsInitialUpdate);
}
RacingSoundTriggerComponent* racingSoundTriggerComponent;
if (TryGetComponent(eReplicaComponentType::RACING_SOUND_TRIGGER, racingSoundTriggerComponent)) {
racingSoundTriggerComponent->Serialize(outBitStream, bIsInitialUpdate);
}
BuffComponent* buffComponent;
if (TryGetComponent(eReplicaComponentType::BUFF, buffComponent)) {
buffComponent->Serialize(outBitStream, bIsInitialUpdate);
DestroyableComponent* destroyableComponent;
if (TryGetComponent(eReplicaComponentType::DESTROYABLE, destroyableComponent)) {
destroyableComponent->Serialize(outBitStream, bIsInitialUpdate);
}
destroyableSerialized = true;
}
CollectibleComponent* collectibleComponent;
if (TryGetComponent(eReplicaComponentType::COLLECTIBLE, collectibleComponent)) {
DestroyableComponent* destroyableComponent;
if (TryGetComponent(eReplicaComponentType::DESTROYABLE, destroyableComponent) && !destroyableSerialized) {
destroyableComponent->Serialize(outBitStream, bIsInitialUpdate);
}
destroyableSerialized = true;
collectibleComponent->Serialize(outBitStream, bIsInitialUpdate);
}
PetComponent* petComponent;
if (TryGetComponent(eReplicaComponentType::PET, petComponent)) {
petComponent->Serialize(outBitStream, bIsInitialUpdate);
}
CharacterComponent* characterComponent;
if (TryGetComponent(eReplicaComponentType::CHARACTER, characterComponent)) {
PossessorComponent* possessorComponent;
if (TryGetComponent(eReplicaComponentType::POSSESSOR, possessorComponent)) {
possessorComponent->Serialize(outBitStream, bIsInitialUpdate);
} else {
// Should never happen, but just to be safe
outBitStream.Write0();
}
LevelProgressionComponent* levelProgressionComponent;
if (TryGetComponent(eReplicaComponentType::LEVEL_PROGRESSION, levelProgressionComponent)) {
levelProgressionComponent->Serialize(outBitStream, bIsInitialUpdate);
} else {
// Should never happen, but just to be safe
outBitStream.Write0();
}
PlayerForcedMovementComponent* playerForcedMovementComponent;
if (TryGetComponent(eReplicaComponentType::PLAYER_FORCED_MOVEMENT, playerForcedMovementComponent)) {
playerForcedMovementComponent->Serialize(outBitStream, bIsInitialUpdate);
} else {
// Should never happen, but just to be safe
outBitStream.Write0();
}
characterComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ItemComponent* itemComponent;
if (TryGetComponent(eReplicaComponentType::ITEM, itemComponent)) {
itemComponent->Serialize(outBitStream, bIsInitialUpdate);
}
InventoryComponent* inventoryComponent;
if (TryGetComponent(eReplicaComponentType::INVENTORY, inventoryComponent)) {
inventoryComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ScriptComponent* scriptComponent;
if (TryGetComponent(eReplicaComponentType::SCRIPT, scriptComponent)) {
scriptComponent->Serialize(outBitStream, bIsInitialUpdate);
}
SkillComponent* skillComponent;
if (TryGetComponent(eReplicaComponentType::SKILL, skillComponent)) {
skillComponent->Serialize(outBitStream, bIsInitialUpdate);
}
BaseCombatAIComponent* baseCombatAiComponent;
if (TryGetComponent(eReplicaComponentType::BASE_COMBAT_AI, baseCombatAiComponent)) {
baseCombatAiComponent->Serialize(outBitStream, bIsInitialUpdate);
}
QuickBuildComponent* quickBuildComponent;
if (TryGetComponent(eReplicaComponentType::QUICK_BUILD, quickBuildComponent)) {
DestroyableComponent* destroyableComponent;
if (TryGetComponent(eReplicaComponentType::DESTROYABLE, destroyableComponent) && !destroyableSerialized) {
destroyableComponent->Serialize(outBitStream, bIsInitialUpdate);
}
destroyableSerialized = true;
quickBuildComponent->Serialize(outBitStream, bIsInitialUpdate);
}
MovingPlatformComponent* movingPlatformComponent;
if (TryGetComponent(eReplicaComponentType::MOVING_PLATFORM, movingPlatformComponent)) {
movingPlatformComponent->Serialize(outBitStream, bIsInitialUpdate);
}
SwitchComponent* switchComponent;
if (TryGetComponent(eReplicaComponentType::SWITCH, switchComponent)) {
switchComponent->Serialize(outBitStream, bIsInitialUpdate);
}
VendorComponent* vendorComponent;
if (TryGetComponent(eReplicaComponentType::VENDOR, vendorComponent)) {
vendorComponent->Serialize(outBitStream, bIsInitialUpdate);
}
DonationVendorComponent* donationVendorComponent;
if (TryGetComponent(eReplicaComponentType::DONATION_VENDOR, donationVendorComponent)) {
donationVendorComponent->Serialize(outBitStream, bIsInitialUpdate);
}
AchievementVendorComponent* achievementVendorComponent;
if (TryGetComponent(eReplicaComponentType::ACHIEVEMENT_VENDOR, achievementVendorComponent)) {
achievementVendorComponent->Serialize(outBitStream, bIsInitialUpdate);
}
BouncerComponent* bouncerComponent;
if (TryGetComponent(eReplicaComponentType::BOUNCER, bouncerComponent)) {
bouncerComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ScriptedActivityComponent* scriptedActivityComponent;
if (TryGetComponent(eReplicaComponentType::SCRIPTED_ACTIVITY, scriptedActivityComponent)) {
scriptedActivityComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ShootingGalleryComponent* shootingGalleryComponent;
if (TryGetComponent(eReplicaComponentType::SHOOTING_GALLERY, shootingGalleryComponent)) {
shootingGalleryComponent->Serialize(outBitStream, bIsInitialUpdate);
}
RacingControlComponent* racingControlComponent;
if (TryGetComponent(eReplicaComponentType::RACING_CONTROL, racingControlComponent)) {
racingControlComponent->Serialize(outBitStream, bIsInitialUpdate);
}
LUPExhibitComponent* lupExhibitComponent;
if (TryGetComponent(eReplicaComponentType::LUP_EXHIBIT, lupExhibitComponent)) {
lupExhibitComponent->Serialize(outBitStream, bIsInitialUpdate);
}
ModelComponent* modelComponent;
if (TryGetComponent(eReplicaComponentType::MODEL, modelComponent)) {
modelComponent->Serialize(outBitStream, bIsInitialUpdate);
}
RenderComponent* renderComponent;
if (TryGetComponent(eReplicaComponentType::RENDER, renderComponent)) {
renderComponent->Serialize(outBitStream, bIsInitialUpdate);
}
if (modelComponent || !destroyableSerialized) {
DestroyableComponent* destroyableComponent;
if (TryGetComponent(eReplicaComponentType::DESTROYABLE, destroyableComponent) && !destroyableSerialized) {
destroyableComponent->Serialize(outBitStream, bIsInitialUpdate);
destroyableSerialized = true;
}
}
MiniGameControlComponent* miniGameControlComponent;
if (TryGetComponent(eReplicaComponentType::MINI_GAME_CONTROL, miniGameControlComponent)) {
miniGameControlComponent->Serialize(outBitStream, bIsInitialUpdate);
}
// BBB Component, unused currently
// Need to to write0 so that is serialized correctly
// TODO: Implement BBB Component
outBitStream.Write0();
}
void Entity::UpdateXMLDoc(tinyxml2::XMLDocument& doc) {
//This function should only ever be called from within Character, meaning doc should always exist when this is called.
//Naturally, we don't include any non-player components in this update function.
for (const auto& pair : m_Components) {
if (pair.second == nullptr) continue;
pair.second->UpdateXml(doc);
}
}
void Entity::Update(const float deltaTime) {
uint32_t timerPosition;
for (timerPosition = 0; timerPosition < m_Timers.size();) {
auto& timer = m_Timers[timerPosition];
timer.Update(deltaTime);
// If the timer is expired, erase it and dont increment the position because the next timer will be at the same position.
// Before: [0, 1, 2, 3, ..., n]
// timerPosition ^
// After: [0, 1, 3, ..., n]
// timerPosition ^
if (timer.GetTime() <= 0) {
// Remove the timer from the list of timers first so that scripts and events can remove timers without causing iterator invalidation
auto timerName = timer.GetName();
m_Timers.erase(m_Timers.begin() + timerPosition);
GetScript()->OnTimerDone(this, timerName);
TriggerEvent(eTriggerEventType::TIMER_DONE, this);
} else {
// If the timer isnt expired, go to the next timer.
timerPosition++;
}
}
for (timerPosition = 0; timerPosition < m_CallbackTimers.size(); ) {
// If the timer is expired, erase it and dont increment the position because the next timer will be at the same position.
// Before: [0, 1, 2, 3, ..., n]
// timerPosition ^
// After: [0, 1, 3, ..., n]
// timerPosition ^
auto& callbackTimer = m_CallbackTimers[timerPosition];
callbackTimer.Update(deltaTime);
if (callbackTimer.GetTime() <= 0) {
// Remove the timer from the list of timers first so that callbacks can remove timers without causing iterator invalidation
auto callback = callbackTimer.GetCallback();
m_CallbackTimers.erase(m_CallbackTimers.begin() + timerPosition);
callback();
} else {
timerPosition++;
}
}
// Add pending timers to the list of timers so they start next tick.
if (!m_PendingTimers.empty()) {
m_Timers.insert(m_Timers.end(), m_PendingTimers.begin(), m_PendingTimers.end());
m_PendingTimers.clear();
}
if (!m_PendingCallbackTimers.empty()) {
m_CallbackTimers.insert(m_CallbackTimers.end(), m_PendingCallbackTimers.begin(), m_PendingCallbackTimers.end());
m_PendingCallbackTimers.clear();
}
if (IsSleeping()) {
Sleep();
return;
} else {
Wake();
}
GetScript()->OnUpdate(this);
for (const auto& pair : m_Components) {
if (pair.second == nullptr) continue;
pair.second->Update(deltaTime);
}
if (m_ShouldDestroyAfterUpdate) {
Game::entityManager->DestroyEntity(this->GetObjectID());
}
}
void Entity::OnCollisionProximity(LWOOBJID otherEntity, const std::string& proxName, const std::string& status) {
Entity* other = Game::entityManager->GetEntity(otherEntity);
if (!other) return;
GetScript()->OnProximityUpdate(this, other, proxName, status);
RocketLaunchpadControlComponent* rocketComp = GetComponent<RocketLaunchpadControlComponent>();
if (!rocketComp) return;
rocketComp->OnProximityUpdate(other, proxName, status);
}
void Entity::OnCollisionPhantom(const LWOOBJID otherEntity) {
auto* other = Game::entityManager->GetEntity(otherEntity);
if (!other) return;
GetScript()->OnCollisionPhantom(this, other);
for (const auto& callback : m_PhantomCollisionCallbacks) {
callback(other);
}
SwitchComponent* switchComp = GetComponent<SwitchComponent>();
if (switchComp) {
switchComp->EntityEnter(other);
}
TriggerEvent(eTriggerEventType::ENTER, other);
// POI system
const auto& poi = GetVar<std::u16string>(u"POI");
if (!poi.empty()) {
auto* missionComponent = other->GetComponent<MissionComponent>();
if (missionComponent != nullptr) {
missionComponent->Progress(eMissionTaskType::EXPLORE, 0, 0, GeneralUtils::UTF16ToWTF8(poi));
}
}
if (!other->GetIsDead()) {
if (GetComponent<BaseCombatAIComponent>() != nullptr) {
const auto index = std::find(m_TargetsInPhantom.begin(), m_TargetsInPhantom.end(), otherEntity);
if (index != m_TargetsInPhantom.end()) return;
m_TargetsInPhantom.push_back(otherEntity);
}
}
}
void Entity::OnCollisionLeavePhantom(const LWOOBJID otherEntity) {
auto* other = Game::entityManager->GetEntity(otherEntity);
if (!other) return;
GetScript()->OnOffCollisionPhantom(this, other);
TriggerEvent(eTriggerEventType::EXIT, other);
SwitchComponent* switchComp = GetComponent<SwitchComponent>();
if (switchComp) {
switchComp->EntityLeave(other);
}
const auto index = std::find(m_TargetsInPhantom.begin(), m_TargetsInPhantom.end(), otherEntity);
if (index == m_TargetsInPhantom.end()) return;
m_TargetsInPhantom.erase(index);
}
void Entity::OnFireEventServerSide(Entity* sender, std::string args, int32_t param1, int32_t param2, int32_t param3) {
GetScript()->OnFireEventServerSide(this, sender, args, param1, param2, param3);
}
void Entity::OnActivityStateChangeRequest(LWOOBJID senderID, int32_t value1, int32_t value2, const std::u16string& stringValue) {
GetScript()->OnActivityStateChangeRequest(this, senderID, value1, value2, stringValue);
}
void Entity::OnCinematicUpdate(Entity* self, Entity* sender, eCinematicEvent event, const std::u16string& pathName,
float_t pathTime, float_t totalTime, int32_t waypoint) {
GetScript()->OnCinematicUpdate(self, sender, event, pathName, pathTime, totalTime, waypoint);
}
void Entity::NotifyObject(Entity* sender, const std::string& name, int32_t param1, int32_t param2) {
GameMessages::SendNotifyObject(GetObjectID(), sender->GetObjectID(), GeneralUtils::ASCIIToUTF16(name), UNASSIGNED_SYSTEM_ADDRESS);
GetScript()->OnNotifyObject(this, sender, name, param1, param2);
}
void Entity::OnEmoteReceived(const int32_t emote, Entity* target) {
GetScript()->OnEmoteReceived(this, emote, target);
}
void Entity::OnUse(Entity* originator) {
TriggerEvent(eTriggerEventType::INTERACT, originator);
GetScript()->OnUse(this, originator);
for (const auto& pair : m_Components) {
if (pair.second == nullptr) continue;
pair.second->OnUse(originator);
}
}
void Entity::OnHitOrHealResult(Entity* attacker, int32_t damage) {
GetScript()->OnHitOrHealResult(this, attacker, damage);
}
void Entity::OnHit(Entity* attacker) {
TriggerEvent(eTriggerEventType::HIT, attacker);
GetScript()->OnHit(this, attacker);
}
void Entity::OnZonePropertyEditBegin() {
GetScript()->OnZonePropertyEditBegin(this);
}
void Entity::OnZonePropertyEditEnd() {
GetScript()->OnZonePropertyEditEnd(this);
}
void Entity::OnZonePropertyModelEquipped() {
GetScript()->OnZonePropertyModelEquipped(this);
}
void Entity::OnZonePropertyModelPlaced(Entity* player) {
GetScript()->OnZonePropertyModelPlaced(this, player);
}
void Entity::OnZonePropertyModelPickedUp(Entity* player) {
GetScript()->OnZonePropertyModelPickedUp(this, player);
}
void Entity::OnZonePropertyModelRemoved(Entity* player) {
GetScript()->OnZonePropertyModelRemoved(this, player);
}
void Entity::OnZonePropertyModelRemovedWhileEquipped(Entity* player) {
GetScript()->OnZonePropertyModelRemovedWhileEquipped(this, player);
}
void Entity::OnZonePropertyModelRotated(Entity* player) {
GetScript()->OnZonePropertyModelRotated(this, player);
}
void Entity::OnMessageBoxResponse(Entity* sender, int32_t button, const std::u16string& identifier, const std::u16string& userData) {
GetScript()->OnMessageBoxResponse(this, sender, button, identifier, userData);
}
void Entity::OnChoiceBoxResponse(Entity* sender, int32_t button, const std::u16string& buttonIdentifier, const std::u16string& identifier) {
GetScript()->OnChoiceBoxResponse(this, sender, button, buttonIdentifier, identifier);
}
void Entity::RequestActivityExit(Entity* sender, LWOOBJID player, bool canceled) {
GetScript()->OnRequestActivityExit(sender, player, canceled);
}
CppScripts::Script* const Entity::GetScript() {
auto* scriptComponent = GetComponent<ScriptComponent>();
auto* script = scriptComponent ? scriptComponent->GetScript() : CppScripts::GetInvalidScript();
DluAssert(script != nullptr);
return script;
}
void Entity::Smash(const LWOOBJID source, const eKillType killType, const std::u16string& deathType) {
if (!m_PlayerIsReadyForUpdates) return;
auto* destroyableComponent = GetComponent<DestroyableComponent>();
if (destroyableComponent == nullptr) {
Kill(Game::entityManager->GetEntity(source));
return;
}
auto* possessorComponent = GetComponent<PossessorComponent>();
if (possessorComponent) {
if (possessorComponent->GetPossessable() != LWOOBJID_EMPTY) {
auto* mount = Game::entityManager->GetEntity(possessorComponent->GetPossessable());
if (mount) possessorComponent->Dismount(mount, true);
}
}
destroyableComponent->Smash(source, killType, deathType);
}
void Entity::Kill(Entity* murderer, const eKillType killType) {
if (!m_PlayerIsReadyForUpdates) return;
for (const auto& cb : m_DieCallbacks) {
cb();
}
m_DieCallbacks.clear();
//OMAI WA MOU, SHINDERIU
GetScript()->OnDie(this, murderer);
if (m_Spawner != nullptr) {
m_Spawner->NotifyOfEntityDeath(m_ObjectID);
}
if (!IsPlayer()) {
auto* destroyableComponent = GetComponent<DestroyableComponent>();
bool waitForDeathAnimation = false;
if (destroyableComponent) {
waitForDeathAnimation = !destroyableComponent->GetIsSmashable() && destroyableComponent->GetDeathBehavior() == 0 && killType != eKillType::SILENT;
}
// Live waited a hard coded 12 seconds for death animations of type 0 before networking destruction!
constexpr float DelayDeathTime = 12.0f;
if (waitForDeathAnimation) AddCallbackTimer(DelayDeathTime, [this]() { Game::entityManager->DestroyEntity(this); });
else Game::entityManager->DestroyEntity(this);
}
const auto& grpNameQBShowBricks = GetVar<std::string>(u"grpNameQBShowBricks");
if (!grpNameQBShowBricks.empty()) {
auto spawners = Game::zoneManager->GetSpawnersByName(grpNameQBShowBricks);
Spawner* spawner = nullptr;
if (!spawners.empty()) {
spawner = spawners[0];
} else {
spawners = Game::zoneManager->GetSpawnersInGroup(grpNameQBShowBricks);
if (!spawners.empty()) {
spawner = spawners[0];
}
}
if (spawner != nullptr) {
spawner->Spawn();
}
}
// Track a player being smashed
auto* characterComponent = GetComponent<CharacterComponent>();
if (characterComponent != nullptr) {
characterComponent->UpdatePlayerStatistic(TimesSmashed);
}
// Track a player smashing something else
if (murderer != nullptr) {
auto* murdererCharacterComponent = murderer->GetComponent<CharacterComponent>();
if (murdererCharacterComponent != nullptr) {
murdererCharacterComponent->UpdatePlayerStatistic(SmashablesSmashed);
}
}
}
void Entity::AddDieCallback(const std::function<void()>& callback) {
m_DieCallbacks.push_back(callback);
}
void Entity::AddCollisionPhantomCallback(const std::function<void(Entity* target)>& callback) {
m_PhantomCollisionCallbacks.push_back(callback);
}
void Entity::AddQuickBuildCompleteCallback(const std::function<void(Entity* user)>& callback) const {
auto* quickBuildComponent = GetComponent<QuickBuildComponent>();
if (quickBuildComponent != nullptr) {
quickBuildComponent->AddQuickBuildCompleteCallback(callback);
}
}
bool Entity::GetIsDead() const {
DestroyableComponent* dest = GetComponent<DestroyableComponent>();
if (dest && dest->GetArmor() == 0 && dest->GetHealth() == 0) return true;
return false;
}
void Entity::AddLootItem(const Loot::Info& info) {
if (!IsPlayer()) return;
auto* characterComponent = GetComponent<CharacterComponent>();
if (!characterComponent) return;
auto& droppedLoot = characterComponent->GetDroppedLoot();
droppedLoot.insert(std::make_pair(info.id, info));
}
void Entity::PickupItem(const LWOOBJID& objectID) {
if (!IsPlayer()) return;
InventoryComponent* inv = GetComponent<InventoryComponent>();
auto* characterComponent = GetComponent<CharacterComponent>();
if (!inv || !characterComponent) return;
CDObjectsTable* objectsTable = CDClientManager::GetTable<CDObjectsTable>();
auto& droppedLoot = characterComponent->GetDroppedLoot();
for (const auto& p : droppedLoot) {
if (p.first == objectID) {
auto* characterComponent = GetComponent<CharacterComponent>();
if (characterComponent != nullptr) {
characterComponent->TrackLOTCollection(p.second.lot);
}
const CDObjects& object = objectsTable->GetByID(p.second.lot);
if (object.id != 0 && object.type == "Powerup") {
CDObjectSkillsTable* skillsTable = CDClientManager::GetTable<CDObjectSkillsTable>();
std::vector<CDObjectSkills> skills = skillsTable->Query([=](CDObjectSkills entry) {return (entry.objectTemplate == p.second.lot); });
for (CDObjectSkills skill : skills) {
auto* skillComponent = GetComponent<SkillComponent>();
if (skillComponent) skillComponent->CastSkill(skill.skillID, GetObjectID(), GetObjectID(), skill.castOnType, NiQuaternion(0, 0, 0, 0));
auto* missionComponent = GetComponent<MissionComponent>();
if (missionComponent != nullptr) {
missionComponent->Progress(eMissionTaskType::POWERUP, skill.skillID);
}
}
} else {
inv->AddItem(p.second.lot, p.second.count, eLootSourceType::PICKUP, eInventoryType::INVALID, {}, LWOOBJID_EMPTY, true, false, LWOOBJID_EMPTY, eInventoryType::INVALID, 1);
}
}
}
droppedLoot.erase(objectID);
}
bool Entity::CanPickupCoins(uint64_t count) {
if (!IsPlayer()) return false;
auto* characterComponent = GetComponent<CharacterComponent>();
if (!characterComponent) return false;
auto droppedCoins = characterComponent->GetDroppedCoins();
if (count > droppedCoins) {
return false;
} else {
characterComponent->SetDroppedCoins(droppedCoins - count);
return true;
}
}
void Entity::RegisterCoinDrop(uint64_t count) {
if (!IsPlayer()) return;
auto* characterComponent = GetComponent<CharacterComponent>();
if (!characterComponent) return;
auto droppedCoins = characterComponent->GetDroppedCoins();
droppedCoins += count;
characterComponent->SetDroppedCoins(droppedCoins);
}
void Entity::AddChild(Entity* child) {
m_IsParentChildDirty = true;
m_ChildEntities.push_back(child);
}
void Entity::RemoveChild(Entity* child) {
if (!child) return;
uint32_t entityPosition = 0;
while (entityPosition < m_ChildEntities.size()) {
if (!m_ChildEntities[entityPosition] || (m_ChildEntities[entityPosition])->GetObjectID() == child->GetObjectID()) {
m_IsParentChildDirty = true;
m_ChildEntities.erase(m_ChildEntities.begin() + entityPosition);
} else {
entityPosition++;
}
}
}
void Entity::RemoveParent() {
this->m_ParentEntity = nullptr;
}
void Entity::AddTimer(std::string name, float time) {
m_PendingTimers.emplace_back(name, time);
}
void Entity::AddCallbackTimer(float time, std::function<void()> callback) {
m_PendingCallbackTimers.emplace_back(time, callback);
}
bool Entity::HasTimer(const std::string& name) {
return std::find(m_Timers.begin(), m_Timers.end(), name) != m_Timers.end();
}
void Entity::CancelCallbackTimers() {
m_CallbackTimers.clear();
m_PendingCallbackTimers.clear();
}
void Entity::ScheduleKillAfterUpdate(Entity* murderer) {
//if (m_Info.spawner) m_Info.spawner->ScheduleKill(this);
Game::entityManager->ScheduleForKill(this);
if (murderer) m_ScheduleKiller = murderer;
}
void Entity::CancelTimer(const std::string& name) {
for (int i = 0; i < m_Timers.size(); i++) {
auto& timer = m_Timers[i];
if (timer == name) {
m_Timers.erase(m_Timers.begin() + i);
return;
}
}
}
void Entity::CancelAllTimers() {
m_Timers.clear();
m_PendingTimers.clear();
m_CallbackTimers.clear();
m_PendingCallbackTimers.clear();
}
bool Entity::IsPlayer() const {
return m_TemplateID == 1 && GetSystemAddress() != UNASSIGNED_SYSTEM_ADDRESS;
}
void Entity::TriggerEvent(eTriggerEventType event, Entity* optionalTarget) {
auto* triggerComponent = GetComponent<TriggerComponent>();
if (triggerComponent) triggerComponent->TriggerEvent(event, optionalTarget);
}
Entity* Entity::GetOwner() const {
if (m_OwnerOverride != LWOOBJID_EMPTY) {
auto* other = Game::entityManager->GetEntity(m_OwnerOverride);
if (other != nullptr) {
return other->GetOwner();
}
}
return const_cast<Entity*>(this);
}
const NiPoint3& Entity::GetDefaultPosition() const {
return m_DefaultPosition;
}
const NiQuaternion& Entity::GetDefaultRotation() const {
return m_DefaultRotation;
}
float Entity::GetDefaultScale() const {
return m_Scale;
}
void Entity::SetOwnerOverride(const LWOOBJID value) {
m_OwnerOverride = value;
}
bool Entity::GetIsGhostingCandidate() const {
return m_IsGhostingCandidate;
}
int8_t Entity::GetObservers() const {
return m_Observers;
}
void Entity::SetObservers(int8_t value) {
if (value < 0) {
value = 0;
}
m_Observers = value;
}
void Entity::Sleep() {
auto* baseCombatAIComponent = GetComponent<BaseCombatAIComponent>();
if (baseCombatAIComponent != nullptr) {
baseCombatAIComponent->Sleep();
}
}
void Entity::Wake() {
auto* baseCombatAIComponent = GetComponent<BaseCombatAIComponent>();
if (baseCombatAIComponent != nullptr) {
baseCombatAIComponent->Wake();
}
}
bool Entity::IsSleeping() const {
return m_IsGhostingCandidate && m_Observers == 0;
}
const NiPoint3& Entity::GetPosition() const {
auto* controllable = GetComponent<ControllablePhysicsComponent>();
if (controllable != nullptr) {
return controllable->GetPosition();
}
auto* phantom = GetComponent<PhantomPhysicsComponent>();
if (phantom != nullptr) {
return phantom->GetPosition();
}
auto* simple = GetComponent<SimplePhysicsComponent>();
if (simple != nullptr) {
return simple->GetPosition();
}
auto* vehicel = GetComponent<HavokVehiclePhysicsComponent>();
if (vehicel != nullptr) {
return vehicel->GetPosition();
}
auto* rigidBodyPhantomPhysicsComponent = GetComponent<RigidbodyPhantomPhysicsComponent>();
if (rigidBodyPhantomPhysicsComponent != nullptr) {
return rigidBodyPhantomPhysicsComponent->GetPosition();
}
return NiPoint3Constant::ZERO;
}
const NiQuaternion& Entity::GetRotation() const {
auto* controllable = GetComponent<ControllablePhysicsComponent>();
if (controllable != nullptr) {
return controllable->GetRotation();
}
auto* phantom = GetComponent<PhantomPhysicsComponent>();
if (phantom != nullptr) {
return phantom->GetRotation();
}
auto* simple = GetComponent<SimplePhysicsComponent>();
if (simple != nullptr) {
return simple->GetRotation();
}
auto* vehicel = GetComponent<HavokVehiclePhysicsComponent>();
if (vehicel != nullptr) {
return vehicel->GetRotation();
}
auto* rigidBodyPhantomPhysicsComponent = GetComponent<RigidbodyPhantomPhysicsComponent>();
if (rigidBodyPhantomPhysicsComponent != nullptr) {
return rigidBodyPhantomPhysicsComponent->GetRotation();
}
return NiQuaternionConstant::IDENTITY;
}
void Entity::SetPosition(const NiPoint3& position) {
auto* controllable = GetComponent<ControllablePhysicsComponent>();
if (controllable != nullptr) {
controllable->SetPosition(position);
}
auto* phantom = GetComponent<PhantomPhysicsComponent>();
if (phantom != nullptr) {
phantom->SetPosition(position);
}
auto* simple = GetComponent<SimplePhysicsComponent>();
if (simple != nullptr) {
simple->SetPosition(position);
}
auto* vehicel = GetComponent<HavokVehiclePhysicsComponent>();
if (vehicel != nullptr) {
vehicel->SetPosition(position);
}
auto* rigidBodyPhantomPhysicsComponent = GetComponent<RigidbodyPhantomPhysicsComponent>();
if (rigidBodyPhantomPhysicsComponent != nullptr) {
rigidBodyPhantomPhysicsComponent->SetPosition(position);
}
Game::entityManager->SerializeEntity(this);
}
void Entity::SetRotation(const NiQuaternion& rotation) {
auto* controllable = GetComponent<ControllablePhysicsComponent>();
if (controllable != nullptr) {
controllable->SetRotation(rotation);
}
auto* phantom = GetComponent<PhantomPhysicsComponent>();
if (phantom != nullptr) {
phantom->SetRotation(rotation);
}
auto* simple = GetComponent<SimplePhysicsComponent>();
if (simple != nullptr) {
simple->SetRotation(rotation);
}
auto* vehicel = GetComponent<HavokVehiclePhysicsComponent>();
if (vehicel != nullptr) {
vehicel->SetRotation(rotation);
}
auto* rigidBodyPhantomPhysicsComponent = GetComponent<RigidbodyPhantomPhysicsComponent>();
if (rigidBodyPhantomPhysicsComponent != nullptr) {
rigidBodyPhantomPhysicsComponent->SetRotation(rotation);
}
Game::entityManager->SerializeEntity(this);
}
bool Entity::GetBoolean(const std::u16string& name) const {
return GetVar<bool>(name);
}
int32_t Entity::GetI32(const std::u16string& name) const {
return GetVar<int32_t>(name);
}
int64_t Entity::GetI64(const std::u16string& name) const {
return GetVar<int64_t>(name);
}
void Entity::SetBoolean(const std::u16string& name, const bool value) {
SetVar(name, value);
}
void Entity::SetI32(const std::u16string& name, const int32_t value) {
SetVar(name, value);
}
void Entity::SetI64(const std::u16string& name, const int64_t value) {
SetVar(name, value);
}
bool Entity::HasVar(const std::u16string& name) const {
for (auto* data : m_Settings) {
if (data->GetKey() == name) {
return true;
}
}
return false;
}
uint16_t Entity::GetNetworkId() const {
return m_NetworkID;
}
void Entity::SetNetworkId(const uint16_t id) {
m_NetworkID = id;
}
std::vector<LWOOBJID> Entity::GetTargetsInPhantom() {
// Clean up invalid targets, like disconnected players
m_TargetsInPhantom.erase(std::remove_if(m_TargetsInPhantom.begin(), m_TargetsInPhantom.end(), [](const LWOOBJID id) {
return !Game::entityManager->GetEntity(id);
}), m_TargetsInPhantom.end());
std::vector<LWOOBJID> enemies;
for (const auto id : m_TargetsInPhantom) {
auto* combat = GetComponent<BaseCombatAIComponent>();
if (!combat || !combat->IsEnemy(id)) continue;
enemies.push_back(id);
}
return enemies;
}
void Entity::SendNetworkVar(const std::string& data, const SystemAddress& sysAddr) {
GameMessages::SendSetNetworkScriptVar(this, sysAddr, data);
}
LDFBaseData* Entity::GetVarData(const std::u16string& name) const {
for (auto* data : m_Settings) {
if (data == nullptr) {
continue;
}
if (data->GetKey() != name) {
continue;
}
return data;
}
return nullptr;
}
std::string Entity::GetVarAsString(const std::u16string& name) const {
auto* data = GetVarData(name);
if (data == nullptr) {
return "";
}
return data->GetValueAsString();
}
void Entity::Resurrect() {
if (IsPlayer()) {
GameMessages::SendResurrect(this);
}
}
void Entity::AddToGroup(const std::string& group) {
if (std::find(m_Groups.begin(), m_Groups.end(), group) == m_Groups.end()) {
m_Groups.push_back(group);
}
}
void Entity::RetroactiveVaultSize() {
auto inventoryComponent = GetComponent<InventoryComponent>();
if (!inventoryComponent) return;
auto itemsVault = inventoryComponent->GetInventory(eInventoryType::VAULT_ITEMS);
auto modelVault = inventoryComponent->GetInventory(eInventoryType::VAULT_MODELS);
if (itemsVault->GetSize() == modelVault->GetSize()) return;
modelVault->SetSize(itemsVault->GetSize());
}
uint8_t Entity::GetCollectibleID() const {
auto* collectible = GetComponent<CollectibleComponent>();
return collectible ? collectible->GetCollectibleId() : 0;
}
void Entity::ProcessPositionUpdate(PositionUpdate& update) {
if (!IsPlayer()) return;
auto* controllablePhysicsComponent = GetComponent<ControllablePhysicsComponent>();
if (!controllablePhysicsComponent) return;
auto* possessorComponent = GetComponent<PossessorComponent>();
bool updateChar = true;
if (possessorComponent) {
auto* possassableEntity = Game::entityManager->GetEntity(possessorComponent->GetPossessable());
if (possassableEntity) {
auto* possessableComponent = possassableEntity->GetComponent<PossessableComponent>();
// While possessing something, only update char if we are attached to the thing we are possessing
updateChar = possessableComponent && possessableComponent->GetPossessionType() == ePossessionType::ATTACHED_VISIBLE;
auto* havokVehiclePhysicsComponent = possassableEntity->GetComponent<HavokVehiclePhysicsComponent>();
if (havokVehiclePhysicsComponent) {
havokVehiclePhysicsComponent->SetPosition(update.position);
havokVehiclePhysicsComponent->SetRotation(update.rotation);
havokVehiclePhysicsComponent->SetIsOnGround(update.onGround);
havokVehiclePhysicsComponent->SetIsOnRail(update.onRail);
havokVehiclePhysicsComponent->SetVelocity(update.velocity);
havokVehiclePhysicsComponent->SetAngularVelocity(update.angularVelocity);
havokVehiclePhysicsComponent->SetRemoteInputInfo(update.remoteInputInfo);
} else {
// Need to get the mount's controllable physics
auto* possessedControllablePhysicsComponent = possassableEntity->GetComponent<ControllablePhysicsComponent>();
if (!possessedControllablePhysicsComponent) return;
possessedControllablePhysicsComponent->SetPosition(update.position);
possessedControllablePhysicsComponent->SetRotation(update.rotation);
possessedControllablePhysicsComponent->SetIsOnGround(update.onGround);
possessedControllablePhysicsComponent->SetIsOnRail(update.onRail);
possessedControllablePhysicsComponent->SetVelocity(update.velocity);
possessedControllablePhysicsComponent->SetAngularVelocity(update.angularVelocity);
}
Game::entityManager->SerializeEntity(possassableEntity);
}
}
if (!updateChar) {
update.velocity = NiPoint3Constant::ZERO;
update.angularVelocity = NiPoint3Constant::ZERO;
}
// Handle statistics
auto* characterComponent = GetComponent<CharacterComponent>();
if (characterComponent) {
characterComponent->TrackPositionUpdate(update.position);
}
controllablePhysicsComponent->SetPosition(update.position);
controllablePhysicsComponent->SetRotation(update.rotation);
controllablePhysicsComponent->SetIsOnGround(update.onGround);
controllablePhysicsComponent->SetIsOnRail(update.onRail);
controllablePhysicsComponent->SetVelocity(update.velocity);
controllablePhysicsComponent->SetAngularVelocity(update.angularVelocity);
auto* ghostComponent = GetComponent<GhostComponent>();
if (ghostComponent) ghostComponent->SetGhostReferencePoint(update.position);
Game::entityManager->QueueGhostUpdate(GetObjectID());
if (updateChar) Game::entityManager->SerializeEntity(this);
}
const SystemAddress& Entity::GetSystemAddress() const {
auto* characterComponent = GetComponent<CharacterComponent>();
return characterComponent ? characterComponent->GetSystemAddress() : UNASSIGNED_SYSTEM_ADDRESS;
}
const NiPoint3& Entity::GetRespawnPosition() const {
auto* characterComponent = GetComponent<CharacterComponent>();
return characterComponent ? characterComponent->GetRespawnPosition() : NiPoint3Constant::ZERO;
}
const NiQuaternion& Entity::GetRespawnRotation() const {
auto* characterComponent = GetComponent<CharacterComponent>();
return characterComponent ? characterComponent->GetRespawnRotation() : NiQuaternionConstant::IDENTITY;
}
void Entity::SetRespawnPos(const NiPoint3& position) {
auto* characterComponent = GetComponent<CharacterComponent>();
if (characterComponent) characterComponent->SetRespawnPos(position);
}
void Entity::SetRespawnRot(const NiQuaternion& rotation) {
auto* characterComponent = GetComponent<CharacterComponent>();
if (characterComponent) characterComponent->SetRespawnRot(rotation);
}