#include "ForceMovementBehavior.h" #include "BehaviorBranchContext.h" #include "BehaviorContext.h" #include "ControllablePhysicsComponent.h" #include "EntityManager.h" #include "Game.h" #include "dLogger.h" void ForceMovementBehavior::Handle(BehaviorContext* context, RakNet::BitStream* bitStream, const BehaviorBranchContext branch) { if (this->m_hitAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY && this->m_hitEnemyAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY && this->m_hitFactionAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY) { return; } uint32_t handle{}; if (!bitStream->Read(handle)) { Game::logger->Log("ForceMovementBehavior", "Unable to read handle from bitStream, aborting Handle! %i", bitStream->GetNumberOfUnreadBits()); return; } context->RegisterSyncBehavior(handle, this, branch, this->m_Duration); } void ForceMovementBehavior::Sync(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) { uint32_t next{}; if (!bitStream->Read(next)) { Game::logger->Log("ForceMovementBehavior", "Unable to read target from bitStream, aborting Sync! %i", bitStream->GetNumberOfUnreadBits()); return; } LWOOBJID target{}; if (!bitStream->Read(target)) { Game::logger->Log("ForceMovementBehavior", "Unable to read target from bitStream, aborting Sync! %i", bitStream->GetNumberOfUnreadBits()); return; } branch.target = target; auto* behavior = CreateBehavior(next); behavior->Handle(context, bitStream, branch); } void ForceMovementBehavior::Calculate(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) { if (this->m_hitAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY && this->m_hitEnemyAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY && this->m_hitFactionAction->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY) { return; } auto* casterEntity = EntityManager::Instance()->GetEntity(context->caster); if (casterEntity != nullptr) { auto* controllablePhysicsComponent = casterEntity->GetComponent(); if (controllablePhysicsComponent != nullptr) { if (m_Forward == 1) { controllablePhysicsComponent->SetVelocity(controllablePhysicsComponent->GetRotation().GetForwardVector() * 25); } EntityManager::Instance()->SerializeEntity(casterEntity); } } const auto skillHandle = context->GetUniqueSkillId(); bitStream->Write(skillHandle); context->SyncCalculation(skillHandle, this->m_Duration, this, branch); } void ForceMovementBehavior::Load() { this->m_hitAction = GetAction("hit_action"); this->m_hitEnemyAction = GetAction("hit_action_enemy"); this->m_hitFactionAction = GetAction("hit_action_faction"); this->m_Duration = GetFloat("duration"); this->m_Forward = GetFloat("forward"); this->m_Left = GetFloat("left"); this->m_Yaw = GetFloat("yaw"); } void ForceMovementBehavior::SyncCalculation(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) { auto* casterEntity = EntityManager::Instance()->GetEntity(context->caster); if (casterEntity != nullptr) { auto* controllablePhysicsComponent = casterEntity->GetComponent(); if (controllablePhysicsComponent != nullptr) { controllablePhysicsComponent->SetPosition(controllablePhysicsComponent->GetPosition() + controllablePhysicsComponent->GetVelocity() * m_Duration); controllablePhysicsComponent->SetVelocity({}); EntityManager::Instance()->SerializeEntity(casterEntity); } } this->m_hitAction->Calculate(context, bitStream, branch); this->m_hitEnemyAction->Calculate(context, bitStream, branch); this->m_hitFactionAction->Calculate(context, bitStream, branch); }