Merge branch 'main' into chat-http-api

This commit is contained in:
Aaron Kimbre 2024-04-25 09:23:20 -05:00
commit faee5b72e7
7 changed files with 134 additions and 98 deletions

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@ -25,6 +25,7 @@
#include "CDScriptComponentTable.h" #include "CDScriptComponentTable.h"
#include "CDSkillBehaviorTable.h" #include "CDSkillBehaviorTable.h"
#include "CDZoneTableTable.h" #include "CDZoneTableTable.h"
#include "CDTamingBuildPuzzleTable.h"
#include "CDVendorComponentTable.h" #include "CDVendorComponentTable.h"
#include "CDActivitiesTable.h" #include "CDActivitiesTable.h"
#include "CDPackageComponentTable.h" #include "CDPackageComponentTable.h"
@ -41,8 +42,6 @@
#include "CDRewardCodesTable.h" #include "CDRewardCodesTable.h"
#include "CDPetComponentTable.h" #include "CDPetComponentTable.h"
#include <exception>
#ifndef CDCLIENT_CACHE_ALL #ifndef CDCLIENT_CACHE_ALL
// Uncomment this to cache the full cdclient database into memory. This will make the server load faster, but will use more memory. // Uncomment this to cache the full cdclient database into memory. This will make the server load faster, but will use more memory.
// A vanilla CDClient takes about 46MB of memory + the regular world data. // A vanilla CDClient takes about 46MB of memory + the regular world data.
@ -55,13 +54,6 @@
#define CDCLIENT_DONT_CACHE_TABLE(x) #define CDCLIENT_DONT_CACHE_TABLE(x)
#endif #endif
class CDClientConnectionException : public std::exception {
public:
virtual const char* what() const throw() {
return "CDClientDatabase is not connected!";
}
};
// Using a macro to reduce repetitive code and issues from copy and paste. // Using a macro to reduce repetitive code and issues from copy and paste.
// As a note, ## in a macro is used to concatenate two tokens together. // As a note, ## in a macro is used to concatenate two tokens together.
@ -108,11 +100,14 @@ DEFINE_TABLE_STORAGE(CDRewardCodesTable);
DEFINE_TABLE_STORAGE(CDRewardsTable); DEFINE_TABLE_STORAGE(CDRewardsTable);
DEFINE_TABLE_STORAGE(CDScriptComponentTable); DEFINE_TABLE_STORAGE(CDScriptComponentTable);
DEFINE_TABLE_STORAGE(CDSkillBehaviorTable); DEFINE_TABLE_STORAGE(CDSkillBehaviorTable);
DEFINE_TABLE_STORAGE(CDTamingBuildPuzzleTable);
DEFINE_TABLE_STORAGE(CDVendorComponentTable); DEFINE_TABLE_STORAGE(CDVendorComponentTable);
DEFINE_TABLE_STORAGE(CDZoneTableTable); DEFINE_TABLE_STORAGE(CDZoneTableTable);
void CDClientManager::LoadValuesFromDatabase() { void CDClientManager::LoadValuesFromDatabase() {
if (!CDClientDatabase::isConnected) throw CDClientConnectionException(); if (!CDClientDatabase::isConnected) {
throw std::runtime_error{ "CDClientDatabase is not connected!" };
}
CDActivityRewardsTable::Instance().LoadValuesFromDatabase(); CDActivityRewardsTable::Instance().LoadValuesFromDatabase();
CDActivitiesTable::Instance().LoadValuesFromDatabase(); CDActivitiesTable::Instance().LoadValuesFromDatabase();
@ -152,6 +147,7 @@ void CDClientManager::LoadValuesFromDatabase() {
CDRewardsTable::Instance().LoadValuesFromDatabase(); CDRewardsTable::Instance().LoadValuesFromDatabase();
CDScriptComponentTable::Instance().LoadValuesFromDatabase(); CDScriptComponentTable::Instance().LoadValuesFromDatabase();
CDSkillBehaviorTable::Instance().LoadValuesFromDatabase(); CDSkillBehaviorTable::Instance().LoadValuesFromDatabase();
CDTamingBuildPuzzleTable::Instance().LoadValuesFromDatabase();
CDVendorComponentTable::Instance().LoadValuesFromDatabase(); CDVendorComponentTable::Instance().LoadValuesFromDatabase();
CDZoneTableTable::Instance().LoadValuesFromDatabase(); CDZoneTableTable::Instance().LoadValuesFromDatabase();
} }

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@ -50,7 +50,7 @@ void CDPetComponentTable::LoadValuesFromDatabase() {
} }
void CDPetComponentTable::LoadValuesFromDefaults() { void CDPetComponentTable::LoadValuesFromDefaults() {
GetEntriesMutable().insert(std::make_pair(defaultEntry.id, defaultEntry)); GetEntriesMutable().emplace(defaultEntry.id, defaultEntry);
} }
CDPetComponent& CDPetComponentTable::GetByID(const uint32_t componentID) { CDPetComponent& CDPetComponentTable::GetByID(const uint32_t componentID) {

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@ -0,0 +1,35 @@
#include "CDTamingBuildPuzzleTable.h"
void CDTamingBuildPuzzleTable::LoadValuesFromDatabase() {
// First, get the size of the table
uint32_t size = 0;
auto tableSize = CDClientDatabase::ExecuteQuery("SELECT COUNT(*) FROM TamingBuildPuzzles");
while (!tableSize.eof()) {
size = tableSize.getIntField(0, 0);
tableSize.nextRow();
}
// Reserve the size
auto& entries = GetEntriesMutable();
entries.reserve(size);
// Now get the data
auto tableData = CDClientDatabase::ExecuteQuery("SELECT * FROM TamingBuildPuzzles");
while (!tableData.eof()) {
const auto lot = static_cast<LOT>(tableData.getIntField("NPCLot", LOT_NULL));
entries.emplace(lot, CDTamingBuildPuzzle{
.puzzleModelLot = lot,
.validPieces{ tableData.getStringField("ValidPiecesLXF") },
.timeLimit = static_cast<float>(tableData.getFloatField("Timelimit", 30.0f)),
.numValidPieces = tableData.getIntField("NumValidPieces", 6),
.imaginationCost = tableData.getIntField("imagCostPerBuild", 10)
});
tableData.nextRow();
}
}
const CDTamingBuildPuzzle* CDTamingBuildPuzzleTable::GetByLOT(const LOT lot) const {
const auto& entries = GetEntries();
const auto itr = entries.find(lot);
return itr != entries.cend() ? &itr->second : nullptr;
}

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@ -0,0 +1,60 @@
#pragma once
#include "CDTable.h"
/**
* Information for the minigame to be completed
*/
struct CDTamingBuildPuzzle {
UNUSED_COLUMN(uint32_t id = 0;)
// The LOT of the object that is to be created
LOT puzzleModelLot = LOT_NULL;
// The LOT of the NPC
UNUSED_COLUMN(LOT npcLot = LOT_NULL;)
// The .lxfml file that contains the bricks required to build the model
std::string validPieces{};
// The .lxfml file that contains the bricks NOT required to build the model
UNUSED_COLUMN(std::string invalidPieces{};)
// Difficulty value
UNUSED_COLUMN(int32_t difficulty = 1;)
// The time limit to complete the build
float timeLimit = 30.0f;
// The number of pieces required to complete the minigame
int32_t numValidPieces = 6;
// Number of valid pieces
UNUSED_COLUMN(int32_t totalNumPieces = 16;)
// Model name
UNUSED_COLUMN(std::string modelName{};)
// The .lxfml file that contains the full model
UNUSED_COLUMN(std::string fullModel{};)
// The duration of the pet taming minigame
UNUSED_COLUMN(float duration = 45.0f;)
// The imagination cost for the tamer to start the minigame
int32_t imaginationCost = 10;
};
class CDTamingBuildPuzzleTable : public CDTable<CDTamingBuildPuzzleTable, std::unordered_map<LOT, CDTamingBuildPuzzle>> {
public:
/**
* Load values from the CD client database
*/
void LoadValuesFromDatabase();
/**
* Gets the pet ability table corresponding to the pet LOT
* @returns A pointer to the corresponding table, or nullptr if one cannot be found
*/
[[nodiscard]]
const CDTamingBuildPuzzle* GetByLOT(const LOT lot) const;
};

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@ -36,5 +36,6 @@ set(DDATABASE_CDCLIENTDATABASE_CDCLIENTTABLES_SOURCES "CDActivitiesTable.cpp"
"CDRewardsTable.cpp" "CDRewardsTable.cpp"
"CDScriptComponentTable.cpp" "CDScriptComponentTable.cpp"
"CDSkillBehaviorTable.cpp" "CDSkillBehaviorTable.cpp"
"CDTamingBuildPuzzleTable.cpp"
"CDVendorComponentTable.cpp" "CDVendorComponentTable.cpp"
"CDZoneTableTable.cpp" PARENT_SCOPE) "CDZoneTableTable.cpp" PARENT_SCOPE)

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@ -2,6 +2,7 @@
#include "GameMessages.h" #include "GameMessages.h"
#include "BrickDatabase.h" #include "BrickDatabase.h"
#include "CDClientDatabase.h" #include "CDClientDatabase.h"
#include "CDTamingBuildPuzzleTable.h"
#include "ChatPackets.h" #include "ChatPackets.h"
#include "EntityManager.h" #include "EntityManager.h"
#include "Character.h" #include "Character.h"
@ -32,7 +33,6 @@
#include "eMissionState.h" #include "eMissionState.h"
#include "dNavMesh.h" #include "dNavMesh.h"
std::unordered_map<LOT, PetComponent::PetPuzzleData> PetComponent::buildCache{};
std::unordered_map<LWOOBJID, LWOOBJID> PetComponent::currentActivities{}; std::unordered_map<LWOOBJID, LWOOBJID> PetComponent::currentActivities{};
std::unordered_map<LWOOBJID, LWOOBJID> PetComponent::activePets{}; std::unordered_map<LWOOBJID, LWOOBJID> PetComponent::activePets{};
@ -40,7 +40,7 @@ std::unordered_map<LWOOBJID, LWOOBJID> PetComponent::activePets{};
* Maps all the pet lots to a flag indicating that the player has caught it. All basic pets have been guessed by ObjID * Maps all the pet lots to a flag indicating that the player has caught it. All basic pets have been guessed by ObjID
* while the faction ones could be checked using their respective missions. * while the faction ones could be checked using their respective missions.
*/ */
std::map<LOT, int32_t> PetComponent::petFlags = { const std::map<LOT, int32_t> PetComponent::petFlags{
{ 3050, 801 }, // Elephant { 3050, 801 }, // Elephant
{ 3054, 803 }, // Cat { 3054, 803 }, // Cat
{ 3195, 806 }, // Triceratops { 3195, 806 }, // Triceratops
@ -87,7 +87,6 @@ PetComponent::PetComponent(Entity* parentEntity, uint32_t componentId) : Compone
m_StartPosition = NiPoint3Constant::ZERO; m_StartPosition = NiPoint3Constant::ZERO;
m_MovementAI = nullptr; m_MovementAI = nullptr;
m_TresureTime = 0; m_TresureTime = 0;
m_Preconditions = nullptr;
std::string checkPreconditions = GeneralUtils::UTF16ToWTF8(parentEntity->GetVar<std::u16string>(u"CheckPrecondition")); std::string checkPreconditions = GeneralUtils::UTF16ToWTF8(parentEntity->GetVar<std::u16string>(u"CheckPrecondition"));
@ -152,96 +151,53 @@ void PetComponent::OnUse(Entity* originator) {
m_Tamer = LWOOBJID_EMPTY; m_Tamer = LWOOBJID_EMPTY;
} }
auto* inventoryComponent = originator->GetComponent<InventoryComponent>(); auto* const inventoryComponent = originator->GetComponent<InventoryComponent>();
if (inventoryComponent == nullptr) { if (inventoryComponent == nullptr) {
return; return;
} }
if (m_Preconditions != nullptr && !m_Preconditions->Check(originator, true)) { if (m_Preconditions.has_value() && !m_Preconditions->Check(originator, true)) {
return; return;
} }
auto* movementAIComponent = m_Parent->GetComponent<MovementAIComponent>(); auto* const movementAIComponent = m_Parent->GetComponent<MovementAIComponent>();
if (movementAIComponent != nullptr) { if (movementAIComponent != nullptr) {
movementAIComponent->Stop(); movementAIComponent->Stop();
} }
inventoryComponent->DespawnPet(); inventoryComponent->DespawnPet();
const auto& cached = buildCache.find(m_Parent->GetLOT()); const auto* const entry = CDClientManager::GetTable<CDTamingBuildPuzzleTable>()->GetByLOT(m_Parent->GetLOT());
int32_t imaginationCost = 0; if (!entry) {
ChatPackets::SendSystemMessage(originator->GetSystemAddress(), u"Failed to find the puzzle minigame for this pet.");
std::string buildFile; return;
if (cached == buildCache.end()) {
auto query = CDClientDatabase::CreatePreppedStmt(
"SELECT ValidPiecesLXF, PuzzleModelLot, Timelimit, NumValidPieces, imagCostPerBuild FROM TamingBuildPuzzles WHERE NPCLot = ?;");
query.bind(1, static_cast<int>(m_Parent->GetLOT()));
auto result = query.execQuery();
if (result.eof()) {
ChatPackets::SendSystemMessage(originator->GetSystemAddress(), u"Failed to find the puzzle minigame for this pet.");
return;
}
if (result.fieldIsNull("ValidPiecesLXF")) {
result.finalize();
return;
}
buildFile = std::string(result.getStringField("ValidPiecesLXF"));
PetPuzzleData data;
data.buildFile = buildFile;
data.puzzleModelLot = result.getIntField("PuzzleModelLot");
data.timeLimit = result.getFloatField("Timelimit");
data.numValidPieces = result.getIntField("NumValidPieces");
data.imaginationCost = result.getIntField("imagCostPerBuild");
if (data.timeLimit <= 0) data.timeLimit = 60;
imaginationCost = data.imaginationCost;
buildCache[m_Parent->GetLOT()] = data;
result.finalize();
} else {
buildFile = cached->second.buildFile;
imaginationCost = cached->second.imaginationCost;
} }
auto* destroyableComponent = originator->GetComponent<DestroyableComponent>(); const auto* const destroyableComponent = originator->GetComponent<DestroyableComponent>();
if (destroyableComponent == nullptr) { if (destroyableComponent == nullptr) {
return; return;
} }
auto imagination = destroyableComponent->GetImagination(); const auto imagination = destroyableComponent->GetImagination();
if (imagination < entry->imaginationCost) {
if (imagination < imaginationCost) {
return; return;
} }
const auto& bricks = BrickDatabase::GetBricks(buildFile); const auto& bricks = BrickDatabase::GetBricks(entry->validPieces);
if (bricks.empty()) { if (bricks.empty()) {
ChatPackets::SendSystemMessage(originator->GetSystemAddress(), u"Failed to load the puzzle minigame for this pet."); ChatPackets::SendSystemMessage(originator->GetSystemAddress(), u"Failed to load the puzzle minigame for this pet.");
LOG("Couldn't find %s for minigame!", buildFile.c_str()); LOG("Couldn't find %s for minigame!", entry->validPieces.c_str());
return; return;
} }
auto petPosition = m_Parent->GetPosition(); const auto petPosition = m_Parent->GetPosition();
auto originatorPosition = originator->GetPosition(); const auto originatorPosition = originator->GetPosition();
m_Parent->SetRotation(NiQuaternion::LookAt(petPosition, originatorPosition)); m_Parent->SetRotation(NiQuaternion::LookAt(petPosition, originatorPosition));
float interactionDistance = m_Parent->GetVar<float>(u"interaction_distance"); float interactionDistance = m_Parent->GetVar<float>(u"interaction_distance");
if (interactionDistance <= 0) { if (interactionDistance <= 0) {
interactionDistance = 15; interactionDistance = 15;
} }
@ -477,9 +433,8 @@ void PetComponent::TryBuild(uint32_t numBricks, bool clientFailed) {
return; return;
} }
const auto& cached = buildCache.find(m_Parent->GetLOT()); const auto* const entry = CDClientManager::GetTable<CDTamingBuildPuzzleTable>()->GetByLOT(m_Parent->GetLOT());
if (!entry) return;
if (cached == buildCache.end()) return;
auto* destroyableComponent = tamer->GetComponent<DestroyableComponent>(); auto* destroyableComponent = tamer->GetComponent<DestroyableComponent>();
@ -487,14 +442,14 @@ void PetComponent::TryBuild(uint32_t numBricks, bool clientFailed) {
auto imagination = destroyableComponent->GetImagination(); auto imagination = destroyableComponent->GetImagination();
imagination -= cached->second.imaginationCost; imagination -= entry->imaginationCost;
destroyableComponent->SetImagination(imagination); destroyableComponent->SetImagination(imagination);
Game::entityManager->SerializeEntity(tamer); Game::entityManager->SerializeEntity(tamer);
if (clientFailed) { if (clientFailed) {
if (imagination < cached->second.imaginationCost) { if (imagination < entry->imaginationCost) {
ClientFailTamingMinigame(); ClientFailTamingMinigame();
} }
} else { } else {
@ -517,17 +472,14 @@ void PetComponent::NotifyTamingBuildSuccess(NiPoint3 position) {
return; return;
} }
const auto& cached = buildCache.find(m_Parent->GetLOT()); const auto* const entry = CDClientManager::GetTable<CDTamingBuildPuzzleTable>()->GetByLOT(m_Parent->GetLOT());
if (!entry) return;
if (cached == buildCache.end()) {
return;
}
GameMessages::SendPlayFXEffect(tamer, -1, u"petceleb", "", LWOOBJID_EMPTY, 1, 1, true); GameMessages::SendPlayFXEffect(tamer, -1, u"petceleb", "", LWOOBJID_EMPTY, 1, 1, true);
RenderComponent::PlayAnimation(tamer, u"rebuild-celebrate"); RenderComponent::PlayAnimation(tamer, u"rebuild-celebrate");
EntityInfo info{}; EntityInfo info{};
info.lot = cached->second.puzzleModelLot; info.lot = entry->puzzleModelLot;
info.pos = position; info.pos = position;
info.rot = NiQuaternionConstant::IDENTITY; info.rot = NiQuaternionConstant::IDENTITY;
info.spawnerID = tamer->GetObjectID(); info.spawnerID = tamer->GetObjectID();
@ -731,13 +683,10 @@ void PetComponent::ClientExitTamingMinigame(bool voluntaryExit) {
} }
void PetComponent::StartTimer() { void PetComponent::StartTimer() {
const auto& cached = buildCache.find(m_Parent->GetLOT()); const auto* const entry = CDClientManager::GetTable<CDTamingBuildPuzzleTable>()->GetByLOT(m_Parent->GetLOT());
if (!entry) return;
if (cached == buildCache.end()) { m_Timer = entry->timeLimit;
return;
}
m_Timer = cached->second.timeLimit;
} }
void PetComponent::ClientFailTamingMinigame() { void PetComponent::ClientFailTamingMinigame() {
@ -1086,6 +1035,6 @@ void PetComponent::LoadPetNameFromModeration() {
} }
} }
void PetComponent::SetPreconditions(std::string& preconditions) { void PetComponent::SetPreconditions(const std::string& preconditions) {
m_Preconditions = new PreconditionExpression(preconditions); m_Preconditions = std::make_optional<PreconditionExpression>(preconditions);
} }

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@ -165,7 +165,7 @@ public:
* Sets preconditions for the pet that need to be met before it can be tamed * Sets preconditions for the pet that need to be met before it can be tamed
* @param conditions the preconditions to set * @param conditions the preconditions to set
*/ */
void SetPreconditions(std::string& conditions); void SetPreconditions(const std::string& conditions);
/** /**
* Returns the entity that this component belongs to * Returns the entity that this component belongs to
@ -250,15 +250,10 @@ private:
*/ */
static std::unordered_map<LWOOBJID, LWOOBJID> currentActivities; static std::unordered_map<LWOOBJID, LWOOBJID> currentActivities;
/**
* Cache of all the minigames and their information from the database
*/
static std::unordered_map<LOT, PetComponent::PetPuzzleData> buildCache;
/** /**
* Flags that indicate that a player has tamed a pet, indexed by the LOT of the pet * Flags that indicate that a player has tamed a pet, indexed by the LOT of the pet
*/ */
static std::map<LOT, int32_t> petFlags; static const std::map<LOT, int32_t> petFlags;
/** /**
* The ID of the component in the pet component table * The ID of the component in the pet component table
@ -349,7 +344,7 @@ private:
/** /**
* Preconditions that need to be met before an entity can tame this pet * Preconditions that need to be met before an entity can tame this pet
*/ */
PreconditionExpression* m_Preconditions; std::optional<PreconditionExpression> m_Preconditions{};
/** /**
* Pet information loaded from the CDClientDatabase * Pet information loaded from the CDClientDatabase