#include "Inventory.h" #include "GameMessages.h" #include "Game.h" #include "Item.h" #include "InventoryComponent.h" #include "eItemType.h" #include "eReplicaComponentType.h" #include "CDComponentsRegistryTable.h" std::vector Inventory::m_GameMasterRestrictedItems = { 1727, // GM Only - JetPack 2243, // GM Only - Hammer of Doom 3293, // GM Only - Flamethrower 3735, // GM Only - Large Jetpack 5873, // GM Only - Winged Helm of Speed 6407, // Gm Only - Hat of Pwnage 14442 // The jamesster jetpack }; Inventory::Inventory(const eInventoryType type, const uint32_t size, const std::vector& items, InventoryComponent* component) { this->type = type; this->size = size; this->free = size; this->component = component; for (auto* item : items) { AddManagedItem(item); } } eInventoryType Inventory::GetType() const { return type; } uint32_t Inventory::GetSize() const { return size; } std::map& Inventory::GetItems() { return items; } std::map Inventory::GetSlots() const { std::map slots; for (const auto& pair : items) { auto* item = pair.second; slots.insert_or_assign(item->GetSlot(), item); } return slots; } InventoryComponent* Inventory::GetComponent() const { return component; } uint32_t Inventory::GetLotCount(const LOT lot) const { uint32_t count = 0; for (const auto& pair : items) { const auto* item = pair.second; if (item->GetLot() == lot) { count += item->GetCount(); } } return count; } void Inventory::SetSize(const uint32_t value) { free += static_cast(value) - static_cast(size); size = value; GameMessages::SendSetInventorySize(component->GetParent(), type, static_cast(size)); } int32_t Inventory::FindEmptySlot() { if (free <= 6) // Up from 1 { if (type != ITEMS && type != VAULT_ITEMS && type != eInventoryType::VAULT_MODELS) { uint32_t newSize = size; if (type == MODELS) { newSize = 240; } else if (type == eInventoryType::VENDOR_BUYBACK) { newSize += 9u; } else { newSize += 10u; } if (newSize > GetSize()) { SetSize(newSize); } } } if (free == 0) { return -1; } const auto slots = GetSlots(); for (auto i = 0u; i < size; ++i) { if (slots.find(i) == slots.end()) { return i; } } return -1; } int32_t Inventory::GetEmptySlots() { return free; } bool Inventory::IsSlotEmpty(int32_t slot) { const auto slots = GetSlots(); const auto& index = slots.find(slot); return index == slots.end(); } Item* Inventory::FindItemById(const LWOOBJID id) const { const auto& index = items.find(id); if (index == items.end()) { return nullptr; } return index->second; } Item* Inventory::FindItemByLot(const LOT lot, const bool ignoreEquipped, const bool ignoreBound) const { Item* smallest = nullptr; for (const auto& pair : items) { auto* item = pair.second; if (item->GetLot() != lot) { continue; } if (ignoreEquipped && item->IsEquipped()) { continue; } if (ignoreBound && item->GetBound()) { continue; } if (smallest == nullptr) { smallest = item; continue; } if (smallest->GetCount() > item->GetCount()) { smallest = item; } } return smallest; } Item* Inventory::FindItemBySlot(const uint32_t slot) const { const auto slots = GetSlots(); const auto index = slots.find(slot); if (index == slots.end()) { return nullptr; } return index->second; } Item* Inventory::FindItemBySubKey(LWOOBJID id) const { for (const auto& item : items) { if (item.second->GetSubKey() == id) { return item.second; } } return nullptr; } void Inventory::AddManagedItem(Item* item) { const auto id = item->GetId(); if (items.find(id) != items.end()) { LOG("Attempting to add an item with an already present id (%llu)!", id); return; } const auto slots = GetSlots(); const auto slot = item->GetSlot(); if (slots.find(slot) != slots.end()) { LOG("Attempting to add an item with an already present slot (%i)!", slot); return; } items.insert_or_assign(id, item); free--; component->OnItemLoaded(component, item); } void Inventory::RemoveManagedItem(Item* item) { const auto id = item->GetId(); if (items.find(id) == items.end()) { LOG("Attempting to remove an item with an invalid id (%llu), lot (%i)!", id, item->GetLot()); return; } items.erase(id); free++; component->OnItemDestroyed(component, item); } eInventoryType Inventory::FindInventoryTypeForLot(const LOT lot) { auto itemComponent = FindItemComponent(lot); const auto itemType = static_cast(itemComponent.itemType); switch (itemType) { case eItemType::BRICK: return BRICKS; case eItemType::BEHAVIOR: return BEHAVIORS; case eItemType::PROPERTY: return PROPERTY_DEEDS; case eItemType::MODEL: case eItemType::PET_INVENTORY_ITEM: case eItemType::LOOT_MODEL: case eItemType::VEHICLE: case eItemType::MOUNT: return MODELS; case eItemType::HAT: case eItemType::HAIR: case eItemType::NECK: case eItemType::LEFT_HAND: case eItemType::RIGHT_HAND: case eItemType::LEGS: case eItemType::LEFT_TRINKET: case eItemType::RIGHT_TRINKET: case eItemType::COLLECTIBLE: case eItemType::CONSUMABLE: case eItemType::CHEST: case eItemType::EGG: case eItemType::PET_FOOD: case eItemType::PACKAGE: case eItemType::LUP_MODEL: return ITEMS; case eItemType::QUEST_OBJECT: case eItemType::UNKNOWN: default: return QUEST; } } const CDItemComponent& Inventory::FindItemComponent(const LOT lot) { auto* registry = CDClientManager::GetTable(); auto* itemComponents = CDClientManager::GetTable(); const auto componentId = registry->GetByIDAndType(lot, eReplicaComponentType::ITEM); if (componentId == 0) { LOG("Failed to find item component for (%i)!", lot); return CDItemComponentTable::Default; } const auto& itemComponent = itemComponents->GetItemComponentByID(componentId); return itemComponent; } bool Inventory::IsValidItem(const LOT lot) { auto* registry = CDClientManager::GetTable(); const auto componentId = registry->GetByIDAndType(lot, eReplicaComponentType::ITEM); return componentId != 0; } const std::vector& Inventory::GetAllGMItems() { return m_GameMasterRestrictedItems; } void Inventory::DeleteAllItems() { while (!this->items.empty()) { if (items.begin()->second) items.begin()->second->SetCount(0); } } Inventory::~Inventory() { for (auto item : items) { delete item.second; } items.clear(); }