mirror of
https://github.com/DarkflameUniverse/DarkflameServer.git
synced 2024-11-23 22:17:31 +00:00
b713b94841
Added functions and methods to support the pickup radius. Functionality includes: Corrected serialization for ControllablePhysicsComponent which correctly serializes the pickup radius to the client. A method to add the pickup radius to the list of active pickup radii the component has. A method to remove and re-calculate the largest active radii the component currently has. Tested equipping all variations of the LootBuff behavior (passive skills, items, item skills) and all functioned as intended. Tested equipping multiple items with a loot buff and then unequipping them in different orders. Tested adding pickup radii of different values and the server correctly adjusted the pickup radius to the largest one currently equipped.
270 lines
7.5 KiB
C++
270 lines
7.5 KiB
C++
#include "ControllablePhysicsComponent.h"
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#include "Entity.h"
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#include "BitStream.h"
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#include "dLogger.h"
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#include "Game.h"
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#include "dpWorld.h"
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#include "dpEntity.h"
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#include "CDPhysicsComponentTable.h"
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#include "CDComponentsRegistryTable.h"
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#include "CDClientManager.h"
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#include "EntityManager.h"
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#include "Character.h"
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ControllablePhysicsComponent::ControllablePhysicsComponent(Entity* entity) : Component(entity) {
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m_Position = {};
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m_Rotation = NiQuaternion::IDENTITY;
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m_Velocity = {};
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m_AngularVelocity = {};
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m_InJetpackMode = false;
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m_IsOnGround = true;
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m_IsOnRail = false;
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m_DirtyPosition = true;
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m_DirtyVelocity = true;
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m_DirtyAngularVelocity = true;
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m_dpEntity = nullptr;
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m_Static = false;
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m_SpeedMultiplier = 1;
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m_GravityScale = 1;
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m_DirtyCheats = false;
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m_IgnoreMultipliers = false;
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m_PickupRadius = 0.0f;
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m_DirtyPickupRadiusScale = true;
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if (entity->GetLOT() != 1) // Other physics entities we care about will be added by BaseCombatAI
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return;
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if (entity->GetLOT() == 1) {
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Game::logger->Log("ControllablePhysicsComponent", "Using patch to load minifig physics\n");
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float radius = 1.5f;
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m_dpEntity = new dpEntity(m_Parent->GetObjectID(), radius, false);
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m_dpEntity->SetCollisionGroup(COLLISION_GROUP_DYNAMIC | COLLISION_GROUP_FRIENDLY);
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dpWorld::Instance().AddEntity(m_dpEntity);
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}
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}
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ControllablePhysicsComponent::~ControllablePhysicsComponent() {
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if (m_dpEntity) {
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dpWorld::Instance().RemoveEntity(m_dpEntity);
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}
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}
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void ControllablePhysicsComponent::Update(float deltaTime) {
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}
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void ControllablePhysicsComponent::Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate, unsigned int& flags) {
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//If this is a creation, then we assume the position is dirty, even when it isn't.
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//This is because new clients will still need to receive the position.
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//if (bIsInitialUpdate) m_DirtyPosition = true;
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if (bIsInitialUpdate) {
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outBitStream->Write(m_InJetpackMode);
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if (m_InJetpackMode) {
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outBitStream->Write(m_JetpackEffectID);
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outBitStream->Write(m_JetpackFlying);
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outBitStream->Write(m_JetpackBypassChecks);
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}
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outBitStream->Write0(); //This contains info about immunities, but for now I'm leaving it out.
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}
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if (m_SpeedMultiplier < 1.0f) {
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m_DirtyCheats = false;
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}
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if (m_IgnoreMultipliers) {
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m_DirtyCheats = false;
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}
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outBitStream->Write(m_DirtyCheats);
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if (m_DirtyCheats) {
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outBitStream->Write(m_GravityScale);
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outBitStream->Write(m_SpeedMultiplier);
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m_DirtyCheats = false;
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}
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outBitStream->Write(m_DirtyPickupRadiusScale);
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if (m_DirtyPickupRadiusScale) {
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outBitStream->Write(m_PickupRadius);
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outBitStream->Write0(); //No clue what this is so im leaving it false.
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m_DirtyPickupRadiusScale = false;
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}
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outBitStream->Write0();
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outBitStream->Write(m_DirtyPosition || bIsInitialUpdate);
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if (m_DirtyPosition || bIsInitialUpdate) {
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outBitStream->Write(m_Position.x);
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outBitStream->Write(m_Position.y);
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outBitStream->Write(m_Position.z);
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outBitStream->Write(m_Rotation.x);
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outBitStream->Write(m_Rotation.y);
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outBitStream->Write(m_Rotation.z);
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outBitStream->Write(m_Rotation.w);
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outBitStream->Write(m_IsOnGround);
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outBitStream->Write(m_IsOnRail);
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outBitStream->Write(m_DirtyVelocity);
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if (m_DirtyVelocity) {
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outBitStream->Write(m_Velocity.x);
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outBitStream->Write(m_Velocity.y);
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outBitStream->Write(m_Velocity.z);
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}
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outBitStream->Write(m_DirtyAngularVelocity);
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if (m_DirtyAngularVelocity) {
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outBitStream->Write(m_AngularVelocity.x);
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outBitStream->Write(m_AngularVelocity.y);
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outBitStream->Write(m_AngularVelocity.z);
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}
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outBitStream->Write0();
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}
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if (!bIsInitialUpdate) outBitStream->Write0();
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}
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void ControllablePhysicsComponent::LoadFromXML(tinyxml2::XMLDocument* doc) {
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tinyxml2::XMLElement* character = doc->FirstChildElement("obj")->FirstChildElement("char");
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if (!character) {
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Game::logger->Log("ControllablePhysicsComponent", "Failed to find char tag!\n");
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return;
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}
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m_Parent->GetCharacter()->LoadXmlRespawnCheckpoints();
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character->QueryAttribute("lzx", &m_Position.x);
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character->QueryAttribute("lzy", &m_Position.y);
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character->QueryAttribute("lzz", &m_Position.z);
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character->QueryAttribute("lzrx", &m_Rotation.x);
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character->QueryAttribute("lzry", &m_Rotation.y);
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character->QueryAttribute("lzrz", &m_Rotation.z);
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character->QueryAttribute("lzrw", &m_Rotation.w);
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m_DirtyPosition = true;
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}
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void ControllablePhysicsComponent::ResetFlags() {
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m_DirtyAngularVelocity = false;
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m_DirtyPosition = false;
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m_DirtyVelocity = false;
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}
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void ControllablePhysicsComponent::UpdateXml(tinyxml2::XMLDocument* doc) {
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tinyxml2::XMLElement* character = doc->FirstChildElement("obj")->FirstChildElement("char");
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if (!character) {
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Game::logger->Log("ControllablePhysicsComponent", "Failed to find char tag while updating XML!\n");
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return;
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}
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character->SetAttribute("lzx", m_Position.x);
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character->SetAttribute("lzy", m_Position.y);
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character->SetAttribute("lzz", m_Position.z);
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character->SetAttribute("lzrx", m_Rotation.x);
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character->SetAttribute("lzry", m_Rotation.y);
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character->SetAttribute("lzrz", m_Rotation.z);
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character->SetAttribute("lzrw", m_Rotation.w);
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}
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void ControllablePhysicsComponent::SetPosition(const NiPoint3& pos) {
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if (m_Static) {
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return;
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}
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m_Position.x = pos.x;
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m_Position.y = pos.y;
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m_Position.z = pos.z;
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m_DirtyPosition = true;
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if (m_dpEntity) m_dpEntity->SetPosition(pos);
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}
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void ControllablePhysicsComponent::SetRotation(const NiQuaternion& rot) {
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if (m_Static) {
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return;
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}
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m_Rotation = rot;
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m_DirtyPosition = true;
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if (m_dpEntity) m_dpEntity->SetRotation(rot);
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}
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void ControllablePhysicsComponent::SetVelocity(const NiPoint3& vel) {
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if (m_Static) {
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return;
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}
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m_Velocity = vel;
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m_DirtyPosition = true;
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m_DirtyVelocity = true;
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if (m_dpEntity) m_dpEntity->SetVelocity(vel);
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}
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void ControllablePhysicsComponent::SetAngularVelocity(const NiPoint3& vel) {
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if (m_Static) {
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return;
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}
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m_AngularVelocity = vel;
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m_DirtyPosition = true;
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m_DirtyAngularVelocity = true;
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}
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void ControllablePhysicsComponent::SetIsOnGround(bool val) {
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m_DirtyPosition = true;
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m_IsOnGround = val;
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}
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void ControllablePhysicsComponent::SetIsOnRail(bool val) {
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m_DirtyPosition = true;
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m_IsOnRail = val;
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}
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void ControllablePhysicsComponent::SetDirtyPosition(bool val) {
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m_DirtyPosition = val;
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}
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void ControllablePhysicsComponent::SetDirtyVelocity(bool val) {
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m_DirtyVelocity = val;
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}
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void ControllablePhysicsComponent::SetDirtyAngularVelocity(bool val) {
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m_DirtyAngularVelocity = val;
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}
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void ControllablePhysicsComponent::AddPickupRadiusScale(float value) {
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m_ActivePickupRadiusScales.push_back(value);
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if (value > m_PickupRadius) {
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m_PickupRadius = value;
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m_DirtyPickupRadiusScale = true;
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}
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}
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void ControllablePhysicsComponent::RemovePickupRadiusScale(float value) {
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// Attempt to remove pickup radius from active radii
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const auto pos = std::find(m_ActivePickupRadiusScales.begin(), m_ActivePickupRadiusScales.end(), value);
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if (pos != m_ActivePickupRadiusScales.end()) {
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m_ActivePickupRadiusScales.erase(pos);
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} else {
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Game::logger->Log("ControllablePhysicsComponent", "Warning: Could not find pickup radius %f in list of active radii. List has %i active radii.\n", value, m_ActivePickupRadiusScales.size());
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return;
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}
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// Recalculate pickup radius since we removed one by now
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m_PickupRadius = 0.0f;
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m_DirtyPickupRadiusScale = true;
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for (uint32_t i = 0; i < m_ActivePickupRadiusScales.size(); i++) {
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auto candidateRadius = m_ActivePickupRadiusScales[i];
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if (m_PickupRadius < candidateRadius) m_PickupRadius = candidateRadius;
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}
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EntityManager::Instance()->SerializeEntity(m_Parent);
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}
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