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Compiling Issues

ranita

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Jun 10, 2022
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Hi all, I'm fairly new to setting up an OT.

I'm currently running TFS 1.2 10.98 and I noticed that the monsters don't respawn so I went ahead and found Updating Spawns.

I'm attempting to compile but I'm presented with these two (file) and one (compile?) error:


I'm thinking that I'm running an outdated version of TFS that might be causing this issue?

I'm not too smart with code, I'll appreciate any help I can get. Thanks.

Edit, code:
C++:
// Copyright 2022 The Forgotten Server Authors. All rights reserved.
// Use of this source code is governed by the GPL-2.0 License that can be found in the LICENSE file.

#include "otpch.h"

#include "spawn.h"

#include "configmanager.h"
#include "events.h"
#include "game.h"
#include "monster.h"
#include "npc.h"
#include "pugicast.h"
#include "scheduler.h"
#include "spectators.h"

extern ConfigManager g_config;
extern Monsters g_monsters;
extern Game g_game;
extern Events* g_events;

static constexpr int32_t MINSPAWN_INTERVAL = 10 * 1000;           // 10 seconds to match RME
static constexpr int32_t MAXSPAWN_INTERVAL = 24 * 60 * 60 * 1000; // 1 day

bool Spawns::loadFromXml(const std::string& filename)
{
    if (loaded) {
        return true;
    }

    pugi::xml_document doc;
    pugi::xml_parse_result result = doc.load_file(filename.c_str());
    if (!result) {
        printXMLError("Error - Spawns::loadFromXml", filename, result);
        return false;
    }

    this->filename = filename;
    loaded = true;

    for (auto spawnNode : doc.child("spawns").children()) {
        Position centerPos(pugi::cast<uint16_t>(spawnNode.attribute("centerx").value()),
                           pugi::cast<uint16_t>(spawnNode.attribute("centery").value()),
                           pugi::cast<uint16_t>(spawnNode.attribute("centerz").value()));

        int32_t radius;
        pugi::xml_attribute radiusAttribute = spawnNode.attribute("radius");
        if (radiusAttribute) {
            radius = pugi::cast<int32_t>(radiusAttribute.value());
        } else {
            radius = -1;
        }

        if (radius > 30) {
            std::cout << "[Warning - Spawns::loadFromXml] Radius size bigger than 30 at position: " << centerPos
                      << ", consider lowering it." << std::endl;
        }

        if (!spawnNode.first_child()) {
            std::cout << "[Warning - Spawns::loadFromXml] Empty spawn at position: " << centerPos
                      << " with radius: " << radius << '.' << std::endl;
            continue;
        }

        spawnList.emplace_front(centerPos, radius);
        Spawn& spawn = spawnList.front();

        for (auto childNode : spawnNode.children()) {
            if (caseInsensitiveEqual(childNode.name(), "monsters")) {
                Position pos(centerPos.x + pugi::cast<uint16_t>(childNode.attribute("x").value()),
                             centerPos.y + pugi::cast<uint16_t>(childNode.attribute("y").value()), centerPos.z);

                int32_t interval = pugi::cast<int32_t>(childNode.attribute("spawntime").value()) * 1000;
                if (interval < MINSPAWN_INTERVAL) {
                    std::cout << "[Warning - Spawns::loadFromXml] " << pos << " spawntime can not be less than "
                              << MINSPAWN_INTERVAL / 1000 << " seconds." << std::endl;
                    continue;
                } else if (interval > MAXSPAWN_INTERVAL) {
                    std::cout << "[Warning - Spawns::loadFromXml] " << pos << " spawntime can not be more than "
                              << MAXSPAWN_INTERVAL / 1000 << " seconds." << std::endl;
                    continue;
                }

                size_t monstersCount = std::distance(childNode.children().begin(), childNode.children().end());
                if (monstersCount == 0) {
                    std::cout << "[Warning - Spawns::loadFromXml] " << pos << " empty monsters set." << std::endl;
                    continue;
                }

                uint16_t totalChance = 0;
                spawnBlock_t sb;
                sb.pos = pos;
                sb.direction = DIRECTION_NORTH;
                sb.interval = interval;
                sb.lastSpawn = 0;

                for (auto monsterNode : childNode.children()) {
                    pugi::xml_attribute nameAttribute = monsterNode.attribute("name");
                    if (!nameAttribute) {
                        continue;
                    }

                    MonsterType* mType = g_monsters.getMonsterType(nameAttribute.as_string());
                    if (!mType) {
                        std::cout << "[Warning - Spawn::loadFromXml] " << pos << " can not find "
                                  << nameAttribute.as_string() << std::endl;
                        continue;
                    }

                    uint16_t chance = 100 / monstersCount;
                    pugi::xml_attribute chanceAttribute = monsterNode.attribute("chance");
                    if (chanceAttribute) {
                        chance = pugi::cast<uint16_t>(chanceAttribute.value());
                    }

                    if (chance + totalChance > 100) {
                        chance = 100 - totalChance;
                        totalChance = 100;
                        std::cout << "[Warning - Spawns::loadFromXml] " << mType->name << ' ' << pos
                                  << " total chance for set can not be higher than 100." << std::endl;
                    } else {
                        totalChance += chance;
                    }

                    sb.mTypes.push_back({mType, chance});
                }

                if (sb.mTypes.empty()) {
                    std::cout << "[Warning - Spawns::loadFromXml] " << pos << " empty monsters set." << std::endl;
                    continue;
                }

                sb.mTypes.shrink_to_fit();
                if (sb.mTypes.size() > 1) {
                    std::sort(sb.mTypes.begin(), sb.mTypes.end(),
                              [](std::pair<MonsterType*, uint16_t> a, std::pair<MonsterType*, uint16_t> b) {
                                  return a.second > b.second;
                              });
                }

                spawn.addBlock(sb);
            } else if (caseInsensitiveEqual(childNode.name(), "monster")) {
                pugi::xml_attribute nameAttribute = childNode.attribute("name");
                if (!nameAttribute) {
                    continue;
                }

                Direction dir;

                pugi::xml_attribute directionAttribute = childNode.attribute("direction");
                if (directionAttribute) {
                    dir = static_cast<Direction>(pugi::cast<uint16_t>(directionAttribute.value()));
                } else {
                    dir = DIRECTION_NORTH;
                }

                Position pos(centerPos.x + pugi::cast<uint16_t>(childNode.attribute("x").value()),
                             centerPos.y + pugi::cast<uint16_t>(childNode.attribute("y").value()), centerPos.z);
                int32_t interval = pugi::cast<int32_t>(childNode.attribute("spawntime").value()) * 1000;
                if (interval >= MINSPAWN_INTERVAL && interval <= MAXSPAWN_INTERVAL) {
                    spawn.addMonster(nameAttribute.as_string(), pos, dir, static_cast<uint32_t>(interval));
                } else {
                    if (interval < MINSPAWN_INTERVAL) {
                        std::cout << "[Warning - Spawns::loadFromXml] " << nameAttribute.as_string() << ' ' << pos
                                  << " spawntime can not be less than " << MINSPAWN_INTERVAL / 1000 << " seconds."
                                  << std::endl;
                    } else {
                        std::cout << "[Warning - Spawns::loadFromXml] " << nameAttribute.as_string() << ' ' << pos
                                  << " spawntime can not be more than " << MAXSPAWN_INTERVAL / 1000 << " seconds."
                                  << std::endl;
                    }
                }
            } else if (caseInsensitiveEqual(childNode.name(), "npc")) {
                pugi::xml_attribute nameAttribute = childNode.attribute("name");
                if (!nameAttribute) {
                    continue;
                }

                Npc* npc = Npc::createNpc(nameAttribute.as_string());
                if (!npc) {
                    continue;
                }

                pugi::xml_attribute directionAttribute = childNode.attribute("direction");
                if (directionAttribute) {
                    npc->setDirection(static_cast<Direction>(pugi::cast<uint16_t>(directionAttribute.value())));
                }

                npc->setMasterPos(
                    Position(centerPos.x + pugi::cast<uint16_t>(childNode.attribute("x").value()),
                             centerPos.y + pugi::cast<uint16_t>(childNode.attribute("y").value()), centerPos.z),
                    radius);
                npcList.push_front(npc);
            }
        }
    }
    return true;
}

void Spawns::startup()
{
    if (!loaded || isStarted()) {
        return;
    }

    for (Npc* npc : npcList) {
        if (!g_game.placeCreature(npc, npc->getMasterPos(), false, true)) {
            std::cout << "[Warning - Spawns::startup] Couldn't spawn npc \"" << npc->getName()
                      << "\" on position: " << npc->getMasterPos() << '.' << std::endl;
            delete npc;
        }
    }
    npcList.clear();

    for (Spawn& spawn : spawnList) {
        spawn.startup();
    }

    started = true;
}

void Spawns::clear()
{
    for (Spawn& spawn : spawnList) {
        spawn.stopEvent();
    }
    spawnList.clear();

    loaded = false;
    started = false;
    filename.clear();
}

bool Spawns::isInZone(const Position& centerPos, int32_t radius, const Position& pos)
{
    if (radius == -1) {
        return true;
    }

    return ((pos.getX() >= centerPos.getX() - radius) && (pos.getX() <= centerPos.getX() + radius) &&
            (pos.getY() >= centerPos.getY() - radius) && (pos.getY() <= centerPos.getY() + radius));
}

void Spawn::startSpawnCheck()
{
    if (checkSpawnEvent == 0) {
        checkSpawnEvent = g_scheduler.addEvent(createSchedulerTask(getInterval(), [this]() { checkSpawn(); }));
    }
}

Spawn::~Spawn()
{
    for (const auto& it : spawnedMap) {
        Monster* monster = it.second;
        monster->setSpawn(nullptr);
        monster->decrementReferenceCounter();
    }
}

bool Spawn::isInSpawnZone(const Position& pos) { return Spawns::isInZone(centerPos, radius, pos); }

bool Spawn::spawnMonster(uint32_t spawnId, spawnBlock_t sb, bool startup /* = false*/)
{
    bool isBlocked = !startup && findPlayer(sb.pos);
    size_t monstersCount = sb.mTypes.size(), blockedMonsters = 0;

    const auto spawnFunc = [&](bool roll) {
        for (const auto& pair : sb.mTypes) {
            if (isBlocked && !pair.first->info.isIgnoringSpawnBlock) {
                ++blockedMonsters;
                continue;
            }

            if (!roll) {
                return spawnMonster(spawnId, pair.first, sb.pos, sb.direction, startup);
            }

            if (pair.second >= normal_random(1, 100) &&
                spawnMonster(spawnId, pair.first, sb.pos, sb.direction, startup)) {
                return true;
            }
        }

        return false;
    };

    // Try to spawn something with chance check, unless it's single spawn
    if (spawnFunc(monstersCount > 1)) {
        return true;
    }

    // Every monster spawn is blocked, bail out
    if (monstersCount == blockedMonsters) {
        return false;
    }

    // Just try to spawn something without chance check
    return spawnFunc(false);
}

bool Spawn::spawnMonster(uint32_t spawnId, MonsterType* mType, const Position& pos, Direction dir,
                         bool startup /*= false*/)
{
    std::unique_ptr<Monster> monster_ptr(new Monster(mType));
    if (!g_events->eventMonsterOnSpawn(monster_ptr.get(), pos, startup, false)) {
        return false;
    }

    if (startup) {
        // No need to send out events to the surrounding since there is no one out there to listen!
        if (!g_game.internalPlaceCreature(monster_ptr.get(), pos, true)) {
            std::cout << "[Warning - Spawns::startup] Couldn't spawn monster \"" << monster_ptr->getName()
                      << "\" on position: " << pos << '.' << std::endl;
            return false;
        }
    } else {
        if (!g_game.placeCreature(monster_ptr.get(), pos, false, true)) {
            return false;
        }
    }

    Monster* monster = monster_ptr.release();
    monster->setDirection(dir);
    monster->setSpawn(this);
    monster->setMasterPos(pos);
    monster->incrementReferenceCounter();

    spawnedMap.insert({spawnId, monster});
    spawnMap[spawnId].lastSpawn = OTSYS_TIME();
    return true;
}

void Spawn::startup()
{
    for (const auto& it : spawnMap) {
        uint32_t spawnId = it.first;
        const spawnBlock_t& sb = it.second;
        spawnMonster(spawnId, sb, true);
    }
}

void Spawn::checkSpawn()
{
    checkSpawnEvent = 0;

    cleanup();

    uint32_t spawnCount = 0;

    for (auto& it : spawnMap) {
        uint32_t spawnId = it.first;
        if (spawnedMap.find(spawnId) != spawnedMap.end()) {
            continue;
        }

        spawnBlock_t& sb = it.second;
        if (OTSYS_TIME() >= sb.lastSpawn + sb.interval) {
            scheduleSpawn(spawnId, sb, 4200);
            if (++spawnCount >= static_cast<uint32_t>(g_config.getNumber(ConfigManager::RATE_SPAWN))) {
                break;
            }
        }
    }

    if (spawnedMap.size() < spawnMap.size()) {
        checkSpawnEvent = g_scheduler.addEvent(createSchedulerTask(getInterval(), [this]() { checkSpawn(); }));
    }
}

void Spawn::scheduleSpawn(uint32_t spawnId, spawnBlock_t sb, uint32_t interval)
{
    if (interval <= 0) {
        spawnMonster(spawnId, sb.mType, sb.pos, sb.direction);
    } else {
        g_game.addMagicEffect(sb.pos, CONST_ME_TELEPORT);
        g_scheduler.addEvent(
            createSchedulerTask(1400, std::bind(&Spawn::scheduleSpawn, this, spawnId, sb, interval - 1400)));
    }
}

void Spawn::cleanup()
{
    auto it = spawnedMap.begin();
    while (it != spawnedMap.end()) {
        uint32_t spawnId = it->first;
        Monster* monster = it->second;
        if (monster->isRemoved()) {
            monster->decrementReferenceCounter();
            it = spawnedMap.erase(it);
        } else if (!isInSpawnZone(monster->getPosition()) && spawnId != 0) {
            spawnedMap.insert({0, monster});
            it = spawnedMap.erase(it);
        } else {
            ++it;
        }
    }
}

bool Spawn::addBlock(spawnBlock_t sb)
{
    interval = std::min(interval, sb.interval);
    spawnMap[spawnMap.size() + 1] = sb;

    return true;
}

bool Spawn::addMonster(const std::string& name, const Position& pos, Direction dir, uint32_t interval)
{
    MonsterType* mType = g_monsters.getMonsterType(name);
    if (!mType) {
        std::cout << "[Warning - Spawn::addMonster] Can not find " << name << std::endl;
        return false;
    }

    spawnBlock_t sb;
    sb.mTypes.push_back({mType, 100});
    sb.pos = pos;
    sb.direction = dir;
    sb.interval = interval;
    sb.lastSpawn = 0;

    return addBlock(sb);
}

void Spawn::removeMonster(Monster* monster)
{
    for (auto it = spawnedMap.begin(), end = spawnedMap.end(); it != end; ++it) {
        if (it->second == monster) {
            monster->decrementReferenceCounter();
            spawnedMap.erase(it);
            break;
        }
    }
}

void Spawn::stopEvent()
{
    if (checkSpawnEvent != 0) {
        g_scheduler.stopEvent(checkSpawnEvent);
        checkSpawnEvent = 0;
    }
}
 
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