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mod-playerbots/src/Ai/Base/Actions/EquipAction.cpp
Keleborn 439293e100 Warnings PR 2 clean unused variables (#2107) 
# Pull Request

Removed unused variables and fixed styling issues. 


## How to Test the Changes

- Step-by-step instructions to test the change
- Any required setup (e.g. multiple players, bots, specific
configuration)
- Expected behavior and how to verify it

## Complexity & Impact

- Does this change add new decision branches?
    - [x] No
    - [] Yes (**explain below**)

- Does this change increase per-bot or per-tick processing?
    - [x] No
    - [ ] Yes (**describe and justify impact**)

- Could this logic scale poorly under load?
    - [x] No
    - [ ] Yes (**explain why**)

---

## Defaults & Configuration

- Does this change modify default bot behavior?
    - [x] No
    - [ ] Yes (**explain why**)

If this introduces more advanced or AI-heavy logic:

- [ ] Lightweight mode remains the default
- [ ] More complex behavior is optional and thereby configurable

---

## AI Assistance

- Was AI assistance (e.g. ChatGPT or similar tools) used while working
on this change?
    - [x] No
    - [ ] Yes (**explain below**)


---

## Final Checklist

- [x] Stability is not compromised
- [x] Performance impact is understood, tested, and acceptable
- [x] Added logic complexity is justified and explained
- [x] Documentation updated if needed

---

## Notes for Reviewers

This was filtered from the code provided by SmashingQuasar. Eliminated
variables were confirmed to be not used, but unclear at times if that is
due to mistakes in writing.

---------

Co-authored-by: bashermens <31279994+hermensbas@users.noreply.github.com>
2026-02-27 16:04:33 -08:00

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/*
* Copyright (C) 2016+ AzerothCore <www.azerothcore.org>, released under GNU AGPL v3 license, you may redistribute it
* and/or modify it under version 3 of the License, or (at your option), any later version.
*/
#include "EquipAction.h"
#include <utility>
#include "Event.h"
#include "ItemCountValue.h"
#include "ItemUsageValue.h"
#include "ItemVisitors.h"
#include "Playerbots.h"
#include "StatsWeightCalculator.h"
#include "ItemPackets.h"
bool EquipAction::Execute(Event event)
{
std::string const text = event.getParam();
ItemIds ids = chat->parseItems(text);
EquipItems(ids);
return true;
}
void EquipAction::EquipItems(ItemIds ids)
{
for (ItemIds::iterator i = ids.begin(); i != ids.end(); i++)
{
FindItemByIdVisitor visitor(*i);
EquipItem(&visitor);
}
}
// Return bagslot with smalest bag.
uint8 EquipAction::GetSmallestBagSlot()
{
int8 curBag = 0;
uint32 curSlots = 0;
for (uint8 bag = INVENTORY_SLOT_BAG_START; bag < INVENTORY_SLOT_BAG_END; ++bag)
{
const Bag* const pBag = (Bag*)bot->GetItemByPos(INVENTORY_SLOT_BAG_0, bag);
if (pBag)
{
if (curBag > 0 && curSlots < pBag->GetBagSize())
continue;
curBag = bag;
curSlots = pBag->GetBagSize();
}
else
return bag;
}
return curBag;
}
void EquipAction::EquipItem(FindItemVisitor* visitor)
{
IterateItems(visitor);
std::vector<Item*> items = visitor->GetResult();
if (!items.empty())
EquipItem(*items.begin());
}
void EquipAction::EquipItem(Item* item)
{
uint8 bagIndex = item->GetBagSlot();
uint8 slot = item->GetSlot();
const ItemTemplate* itemProto = item->GetTemplate();
uint32 itemId = itemProto->ItemId;
uint8 invType = itemProto->InventoryType;
// Handle ammunition separately
if (invType == INVTYPE_AMMO)
{
bot->SetAmmo(itemId);
std::ostringstream out;
out << "equipping " << chat->FormatItem(itemProto);
botAI->TellMaster(out);
return;
}
// Handle bags first
bool equippedBag = false;
if (itemProto->Class == ITEM_CLASS_CONTAINER)
{
// Attempt to equip as a bag
uint8 newBagSlot = GetSmallestBagSlot();
if (newBagSlot > 0)
{
uint16 src = ((bagIndex << 8) | slot);
uint16 dst = ((INVENTORY_SLOT_BAG_0 << 8) | newBagSlot);
bot->SwapItem(src, dst);
equippedBag = true;
}
}
// If we didn't equip as a bag, try to equip as gear
if (!equippedBag)
{
// Ranged weapons aren't handled by the rest of the weapon equip logic
// Handle them early here to avoid issues.
if (invType == INVTYPE_RANGED || invType == INVTYPE_THROWN || invType == INVTYPE_RANGEDRIGHT)
{
WorldPacket packet(CMSG_AUTOEQUIP_ITEM_SLOT, 2);
ObjectGuid itemguid = item->GetGUID();
packet << itemguid << uint8(EQUIPMENT_SLOT_RANGED);
WorldPackets::Item::AutoEquipItemSlot nicePacket(std::move(packet));
nicePacket.Read();
bot->GetSession()->HandleAutoEquipItemSlotOpcode(nicePacket);
std::ostringstream out;
out << "Equipping " << chat->FormatItem(itemProto) << " in ranged slot";
botAI->TellMaster(out);
return;
}
uint8 dstSlot = botAI->FindEquipSlot(itemProto, NULL_SLOT, true);
// Check if the item is a weapon and whether the bot can dual wield or use Titan Grip
bool isWeapon = (itemProto->Class == ITEM_CLASS_WEAPON);
bool canTitanGrip = bot->CanTitanGrip();
bool canDualWield = bot->CanDualWield();
bool isTwoHander = (invType == INVTYPE_2HWEAPON);
bool isValidTGWeapon = false;
if (canTitanGrip && isTwoHander)
{
// Titan Grip-valid 2H weapon subclasses: Axe2, Mace2, Sword2
isValidTGWeapon = (itemProto->SubClass == ITEM_SUBCLASS_WEAPON_AXE2 ||
itemProto->SubClass == ITEM_SUBCLASS_WEAPON_MACE2 ||
itemProto->SubClass == ITEM_SUBCLASS_WEAPON_SWORD2);
}
// Check if the main hand currently has a 2H weapon equipped
Item* currentMHItem = bot->GetItemByPos(INVENTORY_SLOT_BAG_0, EQUIPMENT_SLOT_MAINHAND);
bool have2HWeaponEquipped = (currentMHItem && currentMHItem->GetTemplate()->InventoryType == INVTYPE_2HWEAPON);
// bool canDualWieldOrTG = (canDualWield || (canTitanGrip && isTwoHander));
bool canDualWieldOrTG = (canDualWield || isTwoHander);
// If this is a weapon and we can dual wield or Titan Grip, check if we can improve main/off-hand setup
if (isWeapon && canDualWieldOrTG)
{
// Fetch current main hand and offhand items
Item* mainHandItem = bot->GetItemByPos(INVENTORY_SLOT_BAG_0, EQUIPMENT_SLOT_MAINHAND);
Item* offHandItem = bot->GetItemByPos(INVENTORY_SLOT_BAG_0, EQUIPMENT_SLOT_OFFHAND);
// Set up the stats calculator once and reuse results for performance
StatsWeightCalculator calculator(bot);
calculator.SetItemSetBonus(false);
calculator.SetOverflowPenalty(false);
// Calculate item scores once and store them
float newItemScore = calculator.CalculateItem(itemId);
float mainHandScore = mainHandItem ? calculator.CalculateItem(mainHandItem->GetTemplate()->ItemId) : 0.0f;
float offHandScore = offHandItem ? calculator.CalculateItem(offHandItem->GetTemplate()->ItemId) : 0.0f;
// Determine where this weapon can go
bool canGoMain = (invType == INVTYPE_WEAPON ||
invType == INVTYPE_WEAPONMAINHAND ||
isTwoHander);
bool canTGOff = false;
if (canTitanGrip && isTwoHander && isValidTGWeapon)
canTGOff = true;
bool canGoOff = (invType == INVTYPE_WEAPON ||
invType == INVTYPE_WEAPONOFFHAND ||
canTGOff);
// Check if the main hand item can go to offhand if needed
bool mainHandCanGoOff = false;
if (mainHandItem)
{
const ItemTemplate* mhProto = mainHandItem->GetTemplate();
bool mhIsValidTG = false;
if (canTitanGrip && mhProto->InventoryType == INVTYPE_2HWEAPON)
{
mhIsValidTG = (mhProto->SubClass == ITEM_SUBCLASS_WEAPON_AXE2 ||
mhProto->SubClass == ITEM_SUBCLASS_WEAPON_MACE2 ||
mhProto->SubClass == ITEM_SUBCLASS_WEAPON_SWORD2);
}
mainHandCanGoOff = (mhProto->InventoryType == INVTYPE_WEAPON ||
mhProto->InventoryType == INVTYPE_WEAPONOFFHAND ||
(mhProto->InventoryType == INVTYPE_2HWEAPON && mhIsValidTG));
}
// Priority 1: Replace main hand if the new weapon is strictly better
// and if conditions allow (e.g. no conflicting 2H logic)
bool betterThanMH = (newItemScore > mainHandScore);
// If a one-handed weapon is better, we can still use it instead of a two-handed weapon
bool mhConditionOK = (invType != INVTYPE_2HWEAPON ||
(isTwoHander && !canTitanGrip) ||
(canTitanGrip && isValidTGWeapon));
if (canGoMain && betterThanMH && mhConditionOK)
{
// Equip new weapon in main hand
{
WorldPacket eqPacket(CMSG_AUTOEQUIP_ITEM_SLOT, 2);
ObjectGuid newItemGuid = item->GetGUID();
eqPacket << newItemGuid << uint8(EQUIPMENT_SLOT_MAINHAND);
WorldPackets::Item::AutoEquipItemSlot nicePacket(std::move(eqPacket));
nicePacket.Read();
bot->GetSession()->HandleAutoEquipItemSlotOpcode(nicePacket);
}
// Try moving old main hand weapon to offhand if beneficial
if (mainHandItem && mainHandCanGoOff && (!offHandItem || mainHandScore > offHandScore))
{
const ItemTemplate* oldMHProto = mainHandItem->GetTemplate();
WorldPacket offhandPacket(CMSG_AUTOEQUIP_ITEM_SLOT, 2);
ObjectGuid oldMHGuid = mainHandItem->GetGUID();
offhandPacket << oldMHGuid << uint8(EQUIPMENT_SLOT_OFFHAND);
WorldPackets::Item::AutoEquipItemSlot nicePacket(std::move(offhandPacket));
nicePacket.Read();
bot->GetSession()->HandleAutoEquipItemSlotOpcode(nicePacket);
std::ostringstream moveMsg;
moveMsg << "Main hand upgrade found. Moving " << chat->FormatItem(oldMHProto) << " to offhand";
botAI->TellMaster(moveMsg);
}
std::ostringstream out;
out << "Equipping " << chat->FormatItem(itemProto) << " in main hand";
botAI->TellMaster(out);
return;
}
// Priority 2: If not better than main hand, check if better than offhand
else if (canGoOff && newItemScore > offHandScore)
{
// Equip in offhand
WorldPacket eqPacket(CMSG_AUTOEQUIP_ITEM_SLOT, 2);
ObjectGuid newItemGuid = item->GetGUID();
eqPacket << newItemGuid << uint8(EQUIPMENT_SLOT_OFFHAND);
WorldPackets::Item::AutoEquipItemSlot nicePacket(std::move(eqPacket));
nicePacket.Read();
bot->GetSession()->HandleAutoEquipItemSlotOpcode(nicePacket);
std::ostringstream out;
out << "Equipping " << chat->FormatItem(itemProto) << " in offhand";
botAI->TellMaster(out);
return;
}
else
{
// No improvement, do nothing
return;
}
}
// If not a special dual-wield/TG scenario or no improvement found, fall back to original logic
if (dstSlot == EQUIPMENT_SLOT_FINGER1 ||
dstSlot == EQUIPMENT_SLOT_TRINKET1 ||
(dstSlot == EQUIPMENT_SLOT_MAINHAND && canDualWield &&
((invType != INVTYPE_2HWEAPON && !have2HWeaponEquipped) || (canTitanGrip && isValidTGWeapon))))
{
// Handle ring/trinket dual-slot logic
Item* const equippedItems[2] = {
bot->GetItemByPos(INVENTORY_SLOT_BAG_0, dstSlot),
bot->GetItemByPos(INVENTORY_SLOT_BAG_0, dstSlot + 1)
};
if (equippedItems[0])
{
if (equippedItems[1])
{
// Both slots are full - pick the worst item to replace, but only if new item is better
StatsWeightCalculator calc(bot);
calc.SetItemSetBonus(false);
calc.SetOverflowPenalty(false);
// Calculate new item score with random properties
int32 newItemRandomProp = item->GetItemRandomPropertyId();
float newItemScore = calc.CalculateItem(itemId, newItemRandomProp);
// Calculate equipped items scores with random properties
int32 firstRandomProp = equippedItems[0]->GetItemRandomPropertyId();
int32 secondRandomProp = equippedItems[1]->GetItemRandomPropertyId();
float firstItemScore = calc.CalculateItem(equippedItems[0]->GetTemplate()->ItemId, firstRandomProp);
float secondItemScore = calc.CalculateItem(equippedItems[1]->GetTemplate()->ItemId, secondRandomProp);
// Determine which slot (if any) should be replaced
bool betterThanFirst = newItemScore > firstItemScore;
bool betterThanSecond = newItemScore > secondItemScore;
// Early return if new item is not better than either equipped item
if (!betterThanFirst && !betterThanSecond)
return;
if (betterThanFirst && betterThanSecond)
{
// New item is better than both - replace the worse of the two equipped items
if (firstItemScore > secondItemScore)
dstSlot++; // Replace second slot (worse)
// else: keep dstSlot as-is (replace first slot)
}
else if (betterThanSecond)
dstSlot++; // Only better than second slot - replace it
}
else
{
// Second slot empty, use it
dstSlot++;
}
}
}
// Equip the item in the chosen slot
{
WorldPacket packet(CMSG_AUTOEQUIP_ITEM_SLOT, 2);
ObjectGuid itemguid = item->GetGUID();
packet << itemguid << dstSlot;
WorldPackets::Item::AutoEquipItemSlot nicePacket(std::move(packet));
nicePacket.Read();
bot->GetSession()->HandleAutoEquipItemSlotOpcode(nicePacket);
}
}
std::ostringstream out;
out << "Equipping " << chat->FormatItem(itemProto);
botAI->TellMaster(out);
}
ItemIds EquipAction::SelectInventoryItemsToEquip()
{
CollectItemsVisitor visitor;
IterateItems(&visitor, ITERATE_ITEMS_IN_BAGS);
ItemIds items;
for (auto i = visitor.items.begin(); i != visitor.items.end(); ++i)
{
Item* item = *i;
if (!item)
continue;
ItemTemplate const* itemTemplate = item->GetTemplate();
if (!itemTemplate)
continue;
//TODO Expand to Glyphs and Gems, that can be placed in equipment
//Pre-filter non-equipable items
if (itemTemplate->InventoryType == INVTYPE_NON_EQUIP)
continue;
int32 randomProperty = item->GetItemRandomPropertyId();
uint32 itemId = item->GetTemplate()->ItemId;
std::string itemUsageParam;
if (randomProperty != 0)
itemUsageParam = std::to_string(itemId) + "," + std::to_string(randomProperty);
else
itemUsageParam = std::to_string(itemId);
ItemUsage usage = AI_VALUE2(ItemUsage, "item upgrade", itemUsageParam);
if (usage == ITEM_USAGE_EQUIP || usage == ITEM_USAGE_REPLACE || usage == ITEM_USAGE_BAD_EQUIP)
items.insert(itemId);
}
return items;
}
bool EquipUpgradesPacketAction::Execute(Event event)
{
if (!sPlayerbotAIConfig.autoEquipUpgradeLoot && !sRandomPlayerbotMgr.IsRandomBot(bot))
return false;
std::string const source = event.GetSource();
if (source == "trade status")
{
WorldPacket p(event.getPacket());
p.rpos(0);
uint32 status;
p >> status;
if (status != TRADE_STATUS_TRADE_ACCEPT)
return false;
}
else if (source == "item push result")
{
WorldPacket p(event.getPacket());
p.rpos(0);
ObjectGuid playerGuid;
uint32 received, created, sendChatMessage, itemSlot, itemId;
uint8 bagSlot;
p >> playerGuid;
p >> received;
p >> created;
p >> sendChatMessage;
p >> bagSlot;
p >> itemSlot;
p >> itemId;
ItemTemplate const* item = sObjectMgr->GetItemTemplate(itemId);
if (item->InventoryType == INVTYPE_NON_EQUIP)
return false;
}
ItemIds items = SelectInventoryItemsToEquip();
EquipItems(items);
return true;
}
bool EquipUpgradeAction::Execute(Event /*event*/)
{
ItemIds items = SelectInventoryItemsToEquip();
EquipItems(items);
return true;
}
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