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DarkflameServer/dGame/dBehaviors/BasicAttackBehavior.cpp
David Markowitz 455f9470a5
Move EntityManager to Game namespace (#1140) 
* 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
2023-07-15 13:56:33 -07:00

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#include "BasicAttackBehavior.h"
#include "BehaviorBranchContext.h"
#include "Game.h"
#include "dLogger.h"
#include "EntityManager.h"
#include "DestroyableComponent.h"
#include "BehaviorContext.h"
#include "eBasicAttackSuccessTypes.h"
void BasicAttackBehavior::Handle(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) {
if (context->unmanaged) {
auto* entity = Game::entityManager->GetEntity(branch.target);
auto* destroyableComponent = entity->GetComponent<DestroyableComponent>();
if (destroyableComponent != nullptr) {
PlayFx(u"onhit", entity->GetObjectID());
destroyableComponent->Damage(this->m_MaxDamage, context->originator, context->skillID);
}
this->m_OnSuccess->Handle(context, bitStream, branch);
return;
}
bitStream->AlignReadToByteBoundary();
uint16_t allocatedBits{};
if (!bitStream->Read(allocatedBits) || allocatedBits == 0) {
Game::logger->LogDebug("BasicAttackBehavior", "No allocated bits");
return;
}
Game::logger->LogDebug("BasicAttackBehavior", "Number of allocated bits %i", allocatedBits);
const auto baseAddress = bitStream->GetReadOffset();
DoHandleBehavior(context, bitStream, branch);
bitStream->SetReadOffset(baseAddress + allocatedBits);
}
void BasicAttackBehavior::DoHandleBehavior(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) {
auto* targetEntity = Game::entityManager->GetEntity(branch.target);
if (!targetEntity) {
Game::logger->Log("BasicAttackBehavior", "Target targetEntity %llu not found.", branch.target);
return;
}
auto* destroyableComponent = targetEntity->GetComponent<DestroyableComponent>();
if (!destroyableComponent) {
Game::logger->Log("BasicAttackBehavior", "No destroyable found on the obj/lot %llu/%i", branch.target, targetEntity->GetLOT());
return;
}
bool isBlocked{};
bool isImmune{};
bool isSuccess{};
if (!bitStream->Read(isBlocked)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read isBlocked");
return;
}
if (isBlocked) {
destroyableComponent->SetAttacksToBlock(std::min(destroyableComponent->GetAttacksToBlock() - 1, 0U));
Game::entityManager->SerializeEntity(targetEntity);
this->m_OnFailBlocked->Handle(context, bitStream, branch);
return;
}
if (!bitStream->Read(isImmune)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read isImmune");
return;
}
if (isImmune) {
this->m_OnFailImmune->Handle(context, bitStream, branch);
return;
}
if (!bitStream->Read(isSuccess)) {
Game::logger->Log("BasicAttackBehavior", "failed to read success from bitstream");
return;
}
if (isSuccess) {
uint32_t armorDamageDealt{};
if (!bitStream->Read(armorDamageDealt)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read armorDamageDealt");
return;
}
uint32_t healthDamageDealt{};
if (!bitStream->Read(healthDamageDealt)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read healthDamageDealt");
return;
}
uint32_t totalDamageDealt = armorDamageDealt + healthDamageDealt;
// A value that's too large may be a cheating attempt, so we set it to MIN
if (totalDamageDealt > this->m_MaxDamage) {
totalDamageDealt = this->m_MinDamage;
}
bool died{};
if (!bitStream->Read(died)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read died");
return;
}
auto previousArmor = destroyableComponent->GetArmor();
auto previousHealth = destroyableComponent->GetHealth();
PlayFx(u"onhit", targetEntity->GetObjectID());
destroyableComponent->Damage(totalDamageDealt, context->originator, context->skillID);
}
uint8_t successState{};
if (!bitStream->Read(successState)) {
Game::logger->Log("BasicAttackBehavior", "Unable to read success state");
return;
}
switch (static_cast<eBasicAttackSuccessTypes>(successState)) {
case eBasicAttackSuccessTypes::SUCCESS:
this->m_OnSuccess->Handle(context, bitStream, branch);
break;
case eBasicAttackSuccessTypes::FAILARMOR:
this->m_OnFailArmor->Handle(context, bitStream, branch);
break;
default:
if (static_cast<eBasicAttackSuccessTypes>(successState) != eBasicAttackSuccessTypes::FAILIMMUNE) {
Game::logger->Log("BasicAttackBehavior", "Unknown success state (%i)!", successState);
return;
}
this->m_OnFailImmune->Handle(context, bitStream, branch);
break;
}
}
void BasicAttackBehavior::Calculate(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) {
bitStream->AlignWriteToByteBoundary();
const auto allocatedAddress = bitStream->GetWriteOffset();
bitStream->Write<uint16_t>(0);
const auto startAddress = bitStream->GetWriteOffset();
DoBehaviorCalculation(context, bitStream, branch);
const auto endAddress = bitStream->GetWriteOffset();
const uint16_t allocate = endAddress - startAddress;
bitStream->SetWriteOffset(allocatedAddress);
bitStream->Write(allocate);
bitStream->SetWriteOffset(startAddress + allocate);
}
void BasicAttackBehavior::DoBehaviorCalculation(BehaviorContext* context, RakNet::BitStream* bitStream, BehaviorBranchContext branch) {
auto* targetEntity = Game::entityManager->GetEntity(branch.target);
if (!targetEntity) {
Game::logger->Log("BasicAttackBehavior", "Target entity %llu is null!", branch.target);
return;
}
auto* destroyableComponent = targetEntity->GetComponent<DestroyableComponent>();
if (!destroyableComponent || !destroyableComponent->GetParent()) {
Game::logger->Log("BasicAttackBehavior", "No destroyable component on %llu", branch.target);
return;
}
const bool isBlocking = destroyableComponent->GetAttacksToBlock() > 0;
bitStream->Write(isBlocking);
if (isBlocking) {
destroyableComponent->SetAttacksToBlock(destroyableComponent->GetAttacksToBlock() - 1);
Game::entityManager->SerializeEntity(targetEntity);
this->m_OnFailBlocked->Calculate(context, bitStream, branch);
return;
}
const bool isImmune = destroyableComponent->IsImmune();
bitStream->Write(isImmune);
if (isImmune) {
this->m_OnFailImmune->Calculate(context, bitStream, branch);
return;
}
bool isSuccess = false;
const uint32_t previousHealth = destroyableComponent->GetHealth();
const uint32_t previousArmor = destroyableComponent->GetArmor();
const auto damage = this->m_MinDamage;
PlayFx(u"onhit", targetEntity->GetObjectID(), 1);
destroyableComponent->Damage(damage, context->originator, context->skillID, false);
context->ScheduleUpdate(branch.target);
const uint32_t armorDamageDealt = previousArmor - destroyableComponent->GetArmor();
const uint32_t healthDamageDealt = previousHealth - destroyableComponent->GetHealth();
isSuccess = armorDamageDealt > 0 || healthDamageDealt > 0 || (armorDamageDealt + healthDamageDealt) > 0;
bitStream->Write(isSuccess);
eBasicAttackSuccessTypes successState = eBasicAttackSuccessTypes::FAILIMMUNE;
if (isSuccess) {
if (healthDamageDealt >= 1) {
successState = eBasicAttackSuccessTypes::SUCCESS;
} else if (armorDamageDealt >= 1) {
successState = this->m_OnFailArmor->m_templateId == BehaviorTemplates::BEHAVIOR_EMPTY ? eBasicAttackSuccessTypes::FAILIMMUNE : eBasicAttackSuccessTypes::FAILARMOR;
}
bitStream->Write(armorDamageDealt);
bitStream->Write(healthDamageDealt);
bitStream->Write(targetEntity->GetIsDead());
}
bitStream->Write(successState);
switch (static_cast<eBasicAttackSuccessTypes>(successState)) {
case eBasicAttackSuccessTypes::SUCCESS:
this->m_OnSuccess->Calculate(context, bitStream, branch);
break;
case eBasicAttackSuccessTypes::FAILARMOR:
this->m_OnFailArmor->Calculate(context, bitStream, branch);
break;
default:
if (static_cast<eBasicAttackSuccessTypes>(successState) != eBasicAttackSuccessTypes::FAILIMMUNE) {
Game::logger->Log("BasicAttackBehavior", "Unknown success state (%i)!", successState);
break;
}
this->m_OnFailImmune->Calculate(context, bitStream, branch);
break;
}
}
void BasicAttackBehavior::Load() {
this->m_MinDamage = GetInt("min damage");
if (this->m_MinDamage == 0) this->m_MinDamage = 1;
this->m_MaxDamage = GetInt("max damage");
if (this->m_MaxDamage == 0) this->m_MaxDamage = 1;
// The client sets the minimum damage to maximum, so we'll do the same. These are usually the same value anyways.
if (this->m_MinDamage < this->m_MaxDamage) this->m_MinDamage = this->m_MaxDamage;
this->m_OnSuccess = GetAction("on_success");
this->m_OnFailArmor = GetAction("on_fail_armor");
this->m_OnFailImmune = GetAction("on_fail_immune");
this->m_OnFailBlocked = GetAction("on_fail_blocked");
}
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