mirror of
https://github.com/DarkflameUniverse/DarkflameServer.git
synced 2024-11-25 23:17:28 +00:00
455f9470a5
* Move EntityManager to Game namespace * move initialization to later Need to wait for dZoneManager to be initialized. * Fix bugs - Cannot delete from a RandomAccessIterator while in a range based for loop. Touchup zone manager initialize replace magic numbers with better named constants replace magic zonecontrol id with a more readable hex alternative condense stack variables move initializers closer to their use initialize entity manager with zone control change initialize timings If zone is not zero we expect to initialize the entity manager during zone manager initialization Add constexpr for zone control LOT * Add proper error handling * revert vanity changes * Update WorldServer.cpp * Update dZoneManager.cpp
487 lines
11 KiB
C++
487 lines
11 KiB
C++
#include "MovementAIComponent.h"
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#include <utility>
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#include <cmath>
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#include "ControllablePhysicsComponent.h"
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#include "BaseCombatAIComponent.h"
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#include "dpCommon.h"
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#include "dpWorld.h"
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#include "EntityManager.h"
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#include "SimplePhysicsComponent.h"
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#include "CDClientManager.h"
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#include "CDComponentsRegistryTable.h"
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#include "CDPhysicsComponentTable.h"
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std::map<LOT, float> MovementAIComponent::m_PhysicsSpeedCache = {};
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MovementAIComponent::MovementAIComponent(Entity* parent, MovementAIInfo info) : Component(parent) {
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m_Info = std::move(info);
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m_Done = true;
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m_BaseCombatAI = nullptr;
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m_BaseCombatAI = reinterpret_cast<BaseCombatAIComponent*>(m_Parent->GetComponent(eReplicaComponentType::BASE_COMBAT_AI));
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//Try and fix the insane values:
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if (m_Info.wanderRadius > 5.0f) m_Info.wanderRadius = m_Info.wanderRadius * 0.5f;
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if (m_Info.wanderRadius > 8.0f) m_Info.wanderRadius = 8.0f;
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if (m_Info.wanderSpeed > 0.5f) m_Info.wanderSpeed = m_Info.wanderSpeed * 0.5f;
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m_BaseSpeed = GetBaseSpeed(m_Parent->GetLOT());
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m_NextWaypoint = GetCurrentPosition();
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m_Acceleration = 0.4f;
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m_Interrupted = false;
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m_PullPoint = {};
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m_HaltDistance = 0;
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m_Timer = 0;
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m_CurrentSpeed = 0;
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m_Speed = 0;
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m_TotalTime = 0;
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m_LockRotation = false;
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}
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MovementAIComponent::~MovementAIComponent() = default;
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void MovementAIComponent::Update(const float deltaTime) {
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if (m_Interrupted) {
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const auto source = GetCurrentWaypoint();
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const auto speed = deltaTime * 2.5f;
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NiPoint3 velocity;
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velocity.x = (m_PullPoint.x - source.x) * speed;
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velocity.y = (m_PullPoint.y - source.y) * speed;
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velocity.z = (m_PullPoint.z - source.z) * speed;
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SetPosition(source + velocity);
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if (Vector3::DistanceSquared(GetCurrentPosition(), m_PullPoint) < 2 * 2) {
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m_Interrupted = false;
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}
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return;
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}
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if (AtFinalWaypoint()) // Are we done?
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{
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return;
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}
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if (m_HaltDistance > 0) {
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if (Vector3::DistanceSquared(ApproximateLocation(), GetDestination()) < m_HaltDistance * m_HaltDistance) // Prevent us from hugging the target
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{
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Stop();
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return;
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}
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}
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if (m_Timer > 0) {
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m_Timer -= deltaTime;
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if (m_Timer > 0) {
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return;
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}
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m_Timer = 0;
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}
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const auto source = GetCurrentWaypoint();
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SetPosition(source);
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NiPoint3 velocity = NiPoint3::ZERO;
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if (m_Acceleration > 0 && m_BaseSpeed > 0 && AdvanceWaypointIndex()) // Do we have another waypoint to seek?
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{
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m_NextWaypoint = GetCurrentWaypoint();
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if (m_NextWaypoint == source) {
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m_Timer = 0;
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goto nextAction;
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}
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if (m_CurrentSpeed < m_Speed) {
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m_CurrentSpeed += m_Acceleration;
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}
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if (m_CurrentSpeed > m_Speed) {
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m_CurrentSpeed = m_Speed;
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}
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const auto speed = m_CurrentSpeed * m_BaseSpeed;
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const auto delta = m_NextWaypoint - source;
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// Normalize the vector
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const auto length = sqrtf(delta.x * delta.x + delta.y * delta.y + delta.z * delta.z);
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if (length > 0) {
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velocity.x = (delta.x / length) * speed;
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velocity.y = (delta.y / length) * speed;
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velocity.z = (delta.z / length) * speed;
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}
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// Calclute the time it will take to reach the next waypoint with the current speed
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m_TotalTime = m_Timer = length / speed;
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SetRotation(NiQuaternion::LookAt(source, m_NextWaypoint));
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} else {
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// Check if there are more waypoints in the queue, if so set our next destination to the next waypoint
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if (!m_Queue.empty()) {
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SetDestination(m_Queue.top());
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m_Queue.pop();
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} else {
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// We have reached our final waypoint
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Stop();
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return;
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}
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}
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nextAction:
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SetVelocity(velocity);
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Game::entityManager->SerializeEntity(m_Parent);
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}
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const MovementAIInfo& MovementAIComponent::GetInfo() const {
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return m_Info;
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}
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bool MovementAIComponent::AdvanceWaypointIndex() {
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if (m_PathIndex >= m_CurrentPath.size()) {
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return false;
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}
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m_PathIndex++;
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return true;
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}
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NiPoint3 MovementAIComponent::GetCurrentWaypoint() const {
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if (m_PathIndex >= m_CurrentPath.size()) {
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return GetCurrentPosition();
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}
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return m_CurrentPath[m_PathIndex];
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}
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NiPoint3 MovementAIComponent::GetNextWaypoint() const {
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return m_NextWaypoint;
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}
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NiPoint3 MovementAIComponent::GetCurrentPosition() const {
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return m_Parent->GetPosition();
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}
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NiPoint3 MovementAIComponent::ApproximateLocation() const {
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auto source = GetCurrentPosition();
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if (m_Done) {
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return source;
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}
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auto destination = m_NextWaypoint;
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auto factor = m_TotalTime > 0 ? (m_TotalTime - m_Timer) / m_TotalTime : 0;
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auto x = source.x + factor * (destination.x - source.x);
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auto y = source.y + factor * (destination.y - source.y);
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auto z = source.z + factor * (destination.z - source.z);
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NiPoint3 approximation = NiPoint3(x, y, z);
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if (dpWorld::Instance().IsLoaded()) {
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approximation.y = dpWorld::Instance().GetNavMesh()->GetHeightAtPoint(approximation);
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}
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return approximation;
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}
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bool MovementAIComponent::Warp(const NiPoint3& point) {
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Stop();
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NiPoint3 destination = point;
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if (dpWorld::Instance().IsLoaded()) {
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destination.y = dpWorld::Instance().GetNavMesh()->GetHeightAtPoint(point);
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if (std::abs(destination.y - point.y) > 3) {
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return false;
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}
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}
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SetPosition(destination);
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Game::entityManager->SerializeEntity(m_Parent);
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return true;
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}
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float MovementAIComponent::GetTimer() const {
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return m_Timer;
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}
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bool MovementAIComponent::AtFinalWaypoint() const {
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return m_Done;
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}
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void MovementAIComponent::Stop() {
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if (m_Done) {
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return;
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}
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SetPosition(ApproximateLocation());
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SetVelocity(NiPoint3::ZERO);
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m_TotalTime = m_Timer = 0;
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m_Done = true;
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m_CurrentPath = {};
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m_PathIndex = 0;
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m_CurrentSpeed = 0;
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Game::entityManager->SerializeEntity(m_Parent);
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}
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void MovementAIComponent::PullToPoint(const NiPoint3& point) {
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Stop();
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m_Interrupted = true;
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m_PullPoint = point;
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}
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void MovementAIComponent::SetPath(std::vector<NiPoint3> path) {
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std::reverse(path.begin(), path.end());
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for (const auto& point : path) {
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m_Queue.push(point);
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}
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SetDestination(m_Queue.top());
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m_Queue.pop();
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}
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float MovementAIComponent::GetBaseSpeed(LOT lot) {
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// Check if the lot is in the cache
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const auto& it = m_PhysicsSpeedCache.find(lot);
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if (it != m_PhysicsSpeedCache.end()) {
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return it->second;
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}
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CDComponentsRegistryTable* componentRegistryTable = CDClientManager::Instance().GetTable<CDComponentsRegistryTable>();
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CDPhysicsComponentTable* physicsComponentTable = CDClientManager::Instance().GetTable<CDPhysicsComponentTable>();
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int32_t componentID;
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CDPhysicsComponent* physicsComponent = nullptr;
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componentID = componentRegistryTable->GetByIDAndType(lot, eReplicaComponentType::CONTROLLABLE_PHYSICS, -1);
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if (componentID != -1) {
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physicsComponent = physicsComponentTable->GetByID(componentID);
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goto foundComponent;
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}
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componentID = componentRegistryTable->GetByIDAndType(lot, eReplicaComponentType::SIMPLE_PHYSICS, -1);
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if (componentID != -1) {
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physicsComponent = physicsComponentTable->GetByID(componentID);
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goto foundComponent;
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}
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foundComponent:
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// Client defaults speed to 10 and if the speed is also null in the table, it defaults to 10.
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float speed = 10.0f;
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if (physicsComponent) speed = physicsComponent->speed;
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float delta = fabs(speed) - 1.0f;
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if (delta <= std::numeric_limits<float>::epsilon()) speed = 10.0f;
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m_PhysicsSpeedCache[lot] = speed;
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return speed;
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}
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void MovementAIComponent::SetPosition(const NiPoint3& value) {
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auto* controllablePhysicsComponent = m_Parent->GetComponent<ControllablePhysicsComponent>();
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if (controllablePhysicsComponent != nullptr) {
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controllablePhysicsComponent->SetPosition(value);
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return;
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}
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auto* simplePhysicsComponent = m_Parent->GetComponent<SimplePhysicsComponent>();
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if (simplePhysicsComponent != nullptr) {
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simplePhysicsComponent->SetPosition(value);
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}
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}
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void MovementAIComponent::SetRotation(const NiQuaternion& value) {
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if (m_LockRotation) {
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return;
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}
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auto* controllablePhysicsComponent = m_Parent->GetComponent<ControllablePhysicsComponent>();
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if (controllablePhysicsComponent != nullptr) {
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controllablePhysicsComponent->SetRotation(value);
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return;
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}
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auto* simplePhysicsComponent = m_Parent->GetComponent<SimplePhysicsComponent>();
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if (simplePhysicsComponent != nullptr) {
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simplePhysicsComponent->SetRotation(value);
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}
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}
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void MovementAIComponent::SetVelocity(const NiPoint3& value) {
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auto* controllablePhysicsComponent = m_Parent->GetComponent<ControllablePhysicsComponent>();
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if (controllablePhysicsComponent != nullptr) {
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controllablePhysicsComponent->SetVelocity(value);
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return;
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}
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auto* simplePhysicsComponent = m_Parent->GetComponent<SimplePhysicsComponent>();
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if (simplePhysicsComponent != nullptr) {
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simplePhysicsComponent->SetVelocity(value);
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}
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}
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void MovementAIComponent::SetDestination(const NiPoint3& value) {
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if (m_Interrupted) {
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return;
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}
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/*if (Vector3::DistanceSquared(value, GetDestination()) < 2 * 2)
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{
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return;
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}*/
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const auto location = ApproximateLocation();
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if (!AtFinalWaypoint()) {
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SetPosition(location);
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}
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std::vector<NiPoint3> computedPath;
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if (dpWorld::Instance().IsLoaded()) {
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computedPath = dpWorld::Instance().GetNavMesh()->GetPath(GetCurrentPosition(), value, m_Info.wanderSpeed);
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} else {
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// Than take 10 points between the current position and the destination and make that the path
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auto point = location;
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auto delta = value - point;
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auto step = delta / 10;
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for (int i = 0; i < 10; i++) {
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point = point + step;
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computedPath.push_back(point);
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}
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}
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if (computedPath.empty()) // Somehow failed
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{
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return;
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}
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m_CurrentPath.clear();
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m_CurrentPath.push_back(location);
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// Simply path
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for (auto point : computedPath) {
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if (dpWorld::Instance().IsLoaded()) {
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point.y = dpWorld::Instance().GetNavMesh()->GetHeightAtPoint(point);
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}
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m_CurrentPath.push_back(point);
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}
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m_CurrentPath.push_back(computedPath[computedPath.size() - 1]);
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m_PathIndex = 0;
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m_TotalTime = m_Timer = 0;
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m_Done = false;
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}
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NiPoint3 MovementAIComponent::GetDestination() const {
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if (m_CurrentPath.empty()) {
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return GetCurrentPosition();
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}
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return m_CurrentPath[m_CurrentPath.size() - 1];
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}
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void MovementAIComponent::SetSpeed(const float value) {
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m_Speed = value;
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m_Acceleration = value / 5;
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}
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float MovementAIComponent::GetSpeed() const {
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return m_Speed;
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}
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void MovementAIComponent::SetAcceleration(const float value) {
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m_Acceleration = value;
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}
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float MovementAIComponent::GetAcceleration() const {
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return m_Acceleration;
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}
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void MovementAIComponent::SetHaltDistance(const float value) {
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m_HaltDistance = value;
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}
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float MovementAIComponent::GetHaltDistance() const {
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return m_HaltDistance;
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}
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void MovementAIComponent::SetCurrentSpeed(float value) {
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m_CurrentSpeed = value;
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}
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float MovementAIComponent::GetCurrentSpeed() const {
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return m_CurrentSpeed;
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}
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void MovementAIComponent::SetLockRotation(bool value) {
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m_LockRotation = value;
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}
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bool MovementAIComponent::GetLockRotation() const {
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return m_LockRotation;
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}
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