/* * The Mana Server * Copyright (C) 2006-2010 The Mana World Development Team * Copyright (C) 2010-2012 The Mana Development Team * * This file is part of The Mana Server. * * The Mana Server is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * any later version. * * The Mana Server is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with The Mana Server. If not, see . */ #include #include #include "accountconnection.h" #include "common/configuration.h" #include "common/resourcemanager.h" #include "game-server/character.h" #include "game-server/mapcomposite.h" #include "game-server/map.h" #include "game-server/mapmanager.h" #include "game-server/mapreader.h" #include "game-server/monstermanager.h" #include "game-server/spawnareacomponent.h" #include "game-server/triggerareacomponent.h" #include "scripting/script.h" #include "scripting/scriptmanager.h" #include "utils/logger.h" #include "utils/point.h" /* TODO: Implement overlapping map zones instead of strict partitioning. Purpose: to decrease the number of zone changes, as overlapping allows for hysteresis effect and prevents an actor from changing zone each server tick. It requires storing the zone in the actor since it will not be uniquely defined any longer. */ /* Pixel-based width and height of the squares used in partitioning the map. Squares should be big enough so that an actor cannot cross several ones in one world tick. TODO: Tune for decreasing server load. The higher the value, the closer we regress to quadratic behavior; the lower the value, the more we waste time in dealing with zone changes. */ static int const zoneDiam = 256; void MapZone::insert(Entity *obj) { int type = obj->getType(); switch (type) { case OBJECT_CHARACTER: { if (nbCharacters != nbMovingObjects) { if (nbMovingObjects != objects.size()) { objects.push_back(objects[nbMovingObjects]); objects[nbMovingObjects] = objects[nbCharacters]; } else { objects.push_back(objects[nbCharacters]); } objects[nbCharacters] = obj; ++nbCharacters; ++nbMovingObjects; break; } ++nbCharacters; } // no break! case OBJECT_MONSTER: case OBJECT_NPC: { if (nbMovingObjects != objects.size()) { objects.push_back(objects[nbMovingObjects]); objects[nbMovingObjects] = obj; ++nbMovingObjects; break; } ++nbMovingObjects; } // no break! default: { objects.push_back(obj); break; } } } void MapZone::remove(Entity *obj) { std::vector< Entity * >::iterator i_beg = objects.begin(), i, i_end; int type = obj->getType(); switch (type) { case OBJECT_CHARACTER: { i = i_beg; i_end = objects.begin() + nbCharacters; } break; case OBJECT_MONSTER: case OBJECT_NPC: { i = objects.begin() + nbCharacters; i_end = objects.begin() + nbMovingObjects; } break; default: { i = objects.begin() + nbMovingObjects; i_end = objects.end(); break; } } i = std::find(i, i_end, obj); assert(i != i_end); unsigned pos = i - i_beg; if (pos < nbCharacters) { objects[pos] = objects[nbCharacters - 1]; pos = nbCharacters - 1; --nbCharacters; } if (pos < nbMovingObjects) { objects[pos] = objects[nbMovingObjects - 1]; pos = nbMovingObjects - 1; --nbMovingObjects; } objects[pos] = objects[objects.size() - 1]; objects.pop_back(); } static void addZone(MapRegion &r, unsigned z) { MapRegion::iterator i_end = r.end(), i = std::lower_bound(r.begin(), i_end, z); if (i == i_end || *i != z) { r.insert(i, z); } } ZoneIterator::ZoneIterator(const MapRegion &r, const MapContent *m) : region(r), pos(0), map(m) { current = &map->zones[r.empty() ? 0 : r[0]]; } void ZoneIterator::operator++() { current = nullptr; if (!region.empty()) { if (++pos != region.size()) { current = &map->zones[region[pos]]; } } else { if (++pos != (unsigned)map->mapWidth * map->mapHeight) { current = &map->zones[pos]; } } } CharacterIterator::CharacterIterator(const ZoneIterator &it) : iterator(it), pos(0) { while (iterator && (*iterator)->nbCharacters == 0) ++iterator; if (iterator) { current = (*iterator)->objects[pos]; } } void CharacterIterator::operator++() { if (++pos == (*iterator)->nbCharacters) { do ++iterator; while (iterator && (*iterator)->nbCharacters == 0); pos = 0; } if (iterator) { current = (*iterator)->objects[pos]; } } BeingIterator::BeingIterator(const ZoneIterator &it) : iterator(it), pos(0) { while (iterator && (*iterator)->nbMovingObjects == 0) ++iterator; if (iterator) { current = (*iterator)->objects[pos]; } } void BeingIterator::operator++() { if (++pos == (*iterator)->nbMovingObjects) { do ++iterator; while (iterator && (*iterator)->nbMovingObjects == 0); pos = 0; } if (iterator) { current = (*iterator)->objects[pos]; } } FixedActorIterator::FixedActorIterator(const ZoneIterator &it) : iterator(it), pos(0) { while (iterator && (*iterator)->nbMovingObjects == (*iterator)->objects.size()) ++iterator; if (iterator) { pos = (*iterator)->nbMovingObjects; current = (*iterator)->objects[pos]; } } void FixedActorIterator::operator++() { if (++pos == (*iterator)->objects.size()) { do ++iterator; while (iterator && (*iterator)->nbMovingObjects == (*iterator)->objects.size()); if (iterator) { pos = (*iterator)->nbMovingObjects; } } if (iterator) { current = (*iterator)->objects[pos]; } } ActorIterator::ActorIterator(const ZoneIterator &it) : iterator(it), pos(0) { while (iterator && (*iterator)->objects.empty()) ++iterator; if (iterator) { current = (*iterator)->objects[pos]; } } void ActorIterator::operator++() { if (++pos == (*iterator)->objects.size()) { do ++iterator; while (iterator && (*iterator)->objects.empty()); pos = 0; } if (iterator) { current = (*iterator)->objects[pos]; } } /****************************************************************************** * ObjectBucket *****************************************************************************/ ObjectBucket::ObjectBucket() : free(256), next_object(0) { for (unsigned i = 0; i < 256 / int_bitsize; ++i) { // An occupied ID is represented by zero in the bitmap. bitmap[i] = ~0u; } } int ObjectBucket::allocate() { // Any free ID in the bucket? if (!free) { LOG_INFO("No free id in bucket"); return -1; } int freeBucket = -1; // See if the the next_object bucket is free if (bitmap[next_object] != 0) { freeBucket = next_object; } else { /* next_object was not free. Check the whole bucket until one ID is found, starting from the IDs around next_object. */ for (unsigned i = 0; i < 256 / int_bitsize; ++i) { // Check to see if this subbucket is free if (bitmap[i] != 0) { freeBucket = i; break; } } } assert(freeBucket >= 0); // One of them is free. Find it by looking bit-by-bit. int b = bitmap[freeBucket]; int j = 0; while (!(b & 1)) { b >>= 1; ++j; } // Flip that bit to on, and return the value bitmap[freeBucket] &= ~(1 << j); j += freeBucket * int_bitsize; next_object = freeBucket; --free; return j; } void ObjectBucket::deallocate(int i) { assert(!(bitmap[i / int_bitsize] & (1 << (i % int_bitsize)))); bitmap[i / int_bitsize] |= 1 << (i % int_bitsize); ++free; } /****************************************************************************** * MapContent *****************************************************************************/ MapContent::MapContent(Map *map) : last_bucket(0), zones(nullptr) { buckets[0] = new ObjectBucket; buckets[0]->allocate(); // Skip ID 0 for (int i = 1; i < 256; ++i) { buckets[i] = nullptr; } mapWidth = (map->getWidth() * map->getTileWidth() + zoneDiam - 1) / zoneDiam; mapHeight = (map->getHeight() * map->getTileHeight() + zoneDiam - 1) / zoneDiam; zones = new MapZone[mapWidth * mapHeight]; } MapContent::~MapContent() { for (int i = 0; i < 256; ++i) { delete buckets[i]; } delete[] zones; } bool MapContent::allocate(Entity *obj) { // First, try allocating from the last used bucket. ObjectBucket *b = buckets[last_bucket]; auto *actorComponent = obj->getComponent(); int i = b->allocate(); if (i >= 0) { b->objects[i] = obj; actorComponent->setPublicID(last_bucket * 256 + i); return true; } /* If the last used bucket is already full, scan all the buckets for an empty place. If none is available, create a new bucket. */ for (i = 0; i < 256; ++i) { b = buckets[i]; if (!b) { /* Buckets are created in order. If there is nothing at position i, there will not be anything in the next positions. So create a new bucket. */ b = new ObjectBucket; buckets[i] = b; LOG_DEBUG("New bucket created"); } int j = b->allocate(); if (j >= 0) { last_bucket = i; b->objects[j] = obj; actorComponent->setPublicID(last_bucket * 256 + j); return true; } } // All the IDs are currently used, fail. LOG_ERROR("unable to allocate id"); return false; } void MapContent::deallocate(Entity *obj) { unsigned short id = obj->getComponent()->getPublicID(); buckets[id / 256]->deallocate(id % 256); } void MapContent::fillRegion(MapRegion &r, const Point &p, int radius) const { int ax = p.x > radius ? (p.x - radius) / zoneDiam : 0, ay = p.y > radius ? (p.y - radius) / zoneDiam : 0, bx = std::min((p.x + radius) / zoneDiam, mapWidth - 1), by = std::min((p.y + radius) / zoneDiam, mapHeight - 1); for (int y = ay; y <= by; ++y) { for (int x = ax; x <= bx; ++x) { addZone(r, x + y * mapWidth); } } } void MapContent::fillRegion(MapRegion &r, const Rectangle &p) const { int ax = p.x / zoneDiam, ay = p.y / zoneDiam, bx = std::min((p.x + p.w) / zoneDiam, mapWidth - 1), by = std::min((p.y + p.h) / zoneDiam, mapHeight - 1); for (int y = ay; y <= by; ++y) { for (int x = ax; x <= bx; ++x) { addZone(r, x + y * mapWidth); } } } MapZone& MapContent::getZone(const Point &pos) const { return zones[(pos.x / zoneDiam) + (pos.y / zoneDiam) * mapWidth]; } /****************************************************************************** * MapComposite *****************************************************************************/ Script::Ref MapComposite::mInitializeCallback; Script::Ref MapComposite::mUpdateCallback; MapComposite::MapComposite(int id, const std::string &name): mActive(false), mMap(0), mContent(0), mName(name), mID(id), mPvPRules(PVP_NONE) { } MapComposite::~MapComposite() { delete mMap; delete mContent; } bool MapComposite::readMap() { std::string file = "maps/" + mName + ".tmx"; mMap = MapReader::readMap(file); return mMap; } bool MapComposite::activate() { assert(!isActive()); if (!mMap) return false; initializeContent(); std::string sPvP = mMap->getProperty("pvp"); if (sPvP.empty()) sPvP = Configuration::getValue("game_defaultPvp", std::string()); if (sPvP == "free") mPvPRules = PVP_FREE; else mPvPRules = PVP_NONE; mActive = true; if (!mInitializeCallback.isValid()) { LOG_WARN("No callback for map initialization found"); } else { Script *s = ScriptManager::currentState(); s->prepare(mInitializeCallback); s->execute(this); } return true; } ZoneIterator MapComposite::getAroundPointIterator(const Point &p, int radius) const { MapRegion r; mContent->fillRegion(r, p, radius); return ZoneIterator(r, mContent); } ZoneIterator MapComposite::getAroundActorIterator(Entity *obj, int radius) const { MapRegion r; mContent->fillRegion(r, obj->getComponent()->getPosition(), radius); return ZoneIterator(r, mContent); } ZoneIterator MapComposite::getInsideRectangleIterator(const Rectangle &p) const { MapRegion r; mContent->fillRegion(r, p); return ZoneIterator(r, mContent); } ZoneIterator MapComposite::getAroundBeingIterator(Entity *obj, int radius) const { MapRegion r1; mContent->fillRegion(r1, obj->getComponent()->getOldPosition(), radius); MapRegion r2 = r1; for (MapRegion::iterator i = r1.begin(), i_end = r1.end(); i != i_end; ++i) { /* Fills region with destinations taken around the old position. This is necessary to detect two moving objects changing zones at the same time and at the border, and going in opposite directions (or more simply to detect teleportations, if any). */ MapRegion &r4 = mContent->zones[*i].destinations; if (!r4.empty()) { MapRegion r3; r3.reserve(r2.size() + r4.size()); std::set_union(r2.begin(), r2.end(), r4.begin(), r4.end(), std::back_insert_iterator< MapRegion >(r3)); r2.swap(r3); } } mContent->fillRegion(r2, obj->getComponent()->getPosition(), radius); return ZoneIterator(r2, mContent); } bool MapComposite::insert(Entity *ptr) { if (ptr->isVisible()) { if (ptr->canMove() && !mContent->allocate(ptr)) return false; const Point &point = ptr->getComponent()->getPosition(); mContent->getZone(point).insert(ptr); } ptr->setMap(this); mContent->entities.push_back(ptr); return true; } void MapComposite::remove(Entity *ptr) { for (std::vector::iterator i = mContent->entities.begin(), i_end = mContent->entities.end(); i != i_end; ++i) { if (*i == ptr) { i = mContent->entities.erase(i); } } if (ptr->isVisible()) { const Point &point = ptr->getComponent()->getPosition(); mContent->getZone(point).remove(ptr); if (ptr->canMove()) { mContent->deallocate(ptr); } } } void MapComposite::update() { // Update object status const std::vector< Entity * > &entities = getEverything(); for (std::vector< Entity * >::const_iterator it = entities.begin(), it_end = entities.end(); it != it_end; ++it) { (*it)->update(); } if (mUpdateCallback.isValid()) { Script *s = ScriptManager::currentState(); s->prepare(mUpdateCallback); s->push(mID); s->execute(this); } // Move objects around and update zones. for (BeingIterator it(getWholeMapIterator()); it; ++it) { (*it)->getComponent()->move(**it); } for (int i = 0; i < mContent->mapHeight * mContent->mapWidth; ++i) { mContent->zones[i].destinations.clear(); } // Cannot use a WholeMap iterator as objects will change zones under its feet. for (std::vector< Entity * >::iterator i = mContent->entities.begin(), i_end = mContent->entities.end(); i != i_end; ++i) { if (!(*i)->canMove()) continue; const Point &pos1 = (*i)->getComponent()->getOldPosition(); const Point &pos2 = (*i)->getComponent()->getPosition(); MapZone &src = mContent->getZone(pos1), &dst = mContent->getZone(pos2); if (&src != &dst) { addZone(src.destinations, &dst - mContent->zones); src.remove(*i); dst.insert(*i); } } } const std::vector< Entity * > &MapComposite::getEverything() const { return mContent->entities; } std::string MapComposite::getVariable(const std::string &key) const { std::map::const_iterator i = mScriptVariables.find(key); if (i != mScriptVariables.end()) return i->second; else return std::string(); } void MapComposite::setVariable(const std::string &key, const std::string &value) { // check if the value actually changed std::map::iterator i = mScriptVariables.find(key); if (i == mScriptVariables.end() || i->second != value) { // changed value or unknown variable mScriptVariables[key] = value; callMapVariableCallback(key, value); // update accountserver accountHandler->updateMapVar(this, key, value); } } static void callVariableCallback(Script::Ref &function, const std::string &key, const std::string &value, MapComposite *map) { if (function.isValid()) { Script *s = ScriptManager::currentState(); s->prepare(function); s->push(key); s->push(value); s->execute(map); } } void MapComposite::callMapVariableCallback(const std::string &key, const std::string &value) { std::map::iterator it = mMapVariableCallbacks.find(key); if (it == mMapVariableCallbacks.end()) return; callVariableCallback(it->second, key, value, this); } void MapComposite::callWorldVariableCallback(const std::string &key, const std::string &value) { std::map::iterator it = mWorldVariableCallbacks.find(key); if (it == mWorldVariableCallbacks.end()) return; callVariableCallback(it->second, key, value, this); } /** * Finds a map object by its name and type. * Name and type are case insensitive. */ const MapObject *MapComposite::findMapObject(const std::string &name, const std::string &type) const { const std::vector &destObjects = mMap->getObjects(); std::vector::const_iterator it, it_end; for (it = destObjects.begin(), it_end = destObjects.end(); it != it_end; ++it) { const MapObject *obj = *it; if (utils::compareStrI(obj->getType(), type) == 0 && utils::compareStrI(obj->getName(), name) == 0) { return obj; } } return 0; // nothing found } /** * Initializes the map content. This creates the warps, spawn areas, npcs and * other scripts. */ void MapComposite::initializeContent() { mContent = new MapContent(mMap); const std::vector &objects = mMap->getObjects(); for (size_t i = 0; i < objects.size(); ++i) { const MapObject *object = objects.at(i); const std::string &type = object->getType(); if (utils::compareStrI(type, "WARP") == 0) { std::string destMapName = object->getProperty("DEST_MAP"); std::string destMapObjectName = object->getProperty("DEST_NAME"); MapComposite *destMap = MapManager::getMap(destMapName); int destX = 0; int destY = 0; if (destMap && !destMapObjectName.empty()) { const MapObject *obj = destMap->findMapObject(destMapObjectName, "WARP"); if (obj) { const Rectangle &rect = obj->getBounds(); destX = rect.x + rect.w / 2; destY = rect.y + rect.h / 2; } else { LOG_ERROR("Warp target \"" << destMapObjectName << "\" " << "was not found on the map " << destMap->getName()); } } else { destX = utils::stringToInt(object->getProperty("DEST_X")); destY = utils::stringToInt(object->getProperty("DEST_Y")); } if (destMap && destX && destY) { Entity *entity = new Entity(OBJECT_OTHER, this); const Point warpTarget(destX, destY); WarpAction *action = new WarpAction(destMap, warpTarget); entity->addComponent( new TriggerAreaComponent(object->getBounds(), action, false)); insert(entity); } else { LOG_WARN("Unrecognized warp format on map " << mName); } } else if (utils::compareStrI(type, "SPAWN") == 0) { MonsterClass *monster = 0; int maxBeings = utils::stringToInt(object->getProperty("MAX_BEINGS")); int spawnRate = utils::stringToInt(object->getProperty("SPAWN_RATE")); std::string monsterName = object->getProperty("MONSTER_ID"); int monsterId = utils::stringToInt(monsterName); if (monsterId) { monster = monsterManager->getMonster(monsterId); if (!monster) { LOG_WARN("Couldn't find monster ID " << monsterId << " for spawn area"); } } else { monster = monsterManager->getMonsterByName(monsterName); if (!monster) { LOG_WARN("Couldn't find monster " << monsterName << " for spawn area"); } } if (monster && maxBeings && spawnRate) { Entity *entity = new Entity(OBJECT_OTHER, this); SpawnAreaComponent *spawnArea = new SpawnAreaComponent(monster, object->getBounds(), maxBeings, spawnRate); entity->addComponent(spawnArea); insert(entity); } } else if (utils::compareStrI(type, "NPC") == 0) { int npcId = utils::stringToInt(object->getProperty("NPC_ID")); std::string gender = object->getProperty("GENDER"); std::string scriptText = object->getProperty("SCRIPT"); if (npcId && !scriptText.empty()) { Script *script = ScriptManager::currentState(); script->loadNPC(object->getName(), npcId, ManaServ::getGender(gender), object->getX(), object->getY(), scriptText.c_str(), this); } else { LOG_WARN("Unrecognized format for npc"); } } else if (utils::compareStrI(type, "SCRIPT") == 0) { std::string scriptFilename = object->getProperty("FILENAME"); std::string scriptText = object->getProperty("TEXT"); Script *script = ScriptManager::currentState(); Script::Context context; context.map = this; if (!scriptFilename.empty()) { script->loadFile(scriptFilename, context); } else if (!scriptText.empty()) { std::string name = "'" + object->getName() + "'' in " + mName; script->load(scriptText.c_str(), name.c_str(), context); } else { LOG_WARN("Unrecognized format for script"); } } } }