/* * The Mana Client * Copyright (C) 2004-2009 The Mana World Development Team * Copyright (C) 2009-2010 The Mana Developers * * This file is part of The Mana Client. * * This program 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. * * This program 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 this program. If not, see . */ #include "being.h" #include "animatedsprite.h" #include "client.h" #include "configuration.h" #include "effectmanager.h" #include "graphics.h" #include "localplayer.h" #include "log.h" #include "map.h" #include "particle.h" #include "simpleanimation.h" #include "sound.h" #include "text.h" #include "statuseffect.h" #include "gui/speechbubble.h" #include "resources/colordb.h" #include "resources/emotedb.h" #include "resources/image.h" #include "resources/itemdb.h" #include "resources/iteminfo.h" #include "resources/resourcemanager.h" #include "gui/gui.h" #include "gui/palette.h" #include "gui/speechbubble.h" #include "utils/dtor.h" #include "utils/stringutils.h" #include "utils/xml.h" #include "net/net.h" #include "net/playerhandler.h" #include #include #define BEING_EFFECTS_FILE "effects.xml" #define HAIR_FILE "hair.xml" static const int DEFAULT_BEING_WIDTH = 32; static const int DEFAULT_BEING_HEIGHT = 32; int Being::mNumberOfHairstyles = 1; // TODO: mWalkTime used by eAthena only Being::Being(int id, int job, Map *map): mFrame(0), mWalkTime(0), mEmotion(0), mEmotionTime(0), mSpeechTime(0), mAttackSpeed(350), mAction(STAND), mJob(job), mId(id), mDirection(DOWN), mSpriteDirection(DIRECTION_DOWN), mMap(NULL), mDispName(0), mShowName(false), mEquippedWeapon(NULL), mText(0), mStunMode(0), mAlpha(1.0f), mStatusParticleEffects(&mStunParticleEffects, false), mChildParticleEffects(&mStatusParticleEffects, false), mMustResetParticles(false), mX(0), mY(0), mDamageTaken(0), mUsedTargetCursor(NULL) { setMap(map); mSpeechBubble = new SpeechBubble; mNameColor = &guiPalette->getColor(Palette::NPC); mTextColor = &guiPalette->getColor(Palette::CHAT); mWalkSpeed = Net::getPlayerHandler()->getDefaultWalkSpeed(); } Being::~Being() { mUsedTargetCursor = NULL; delete_all(mSprites); if (player_node && player_node->getTarget() == this) player_node->setTarget(NULL); setMap(NULL); delete mSpeechBubble; delete mDispName; delete mText; } void Being::setPosition(const Vector &pos) { mPos = pos; updateCoords(); if (mText) mText->adviseXY((int)pos.x, (int)pos.y - getHeight() - mText->getHeight() - 6); } Position Being::checkNodeOffsets(const Position &position) const { // Pre-computing character's position in tiles const int tx = position.x / 32; const int ty = position.y / 32; // Pre-computing character's position offsets. int fx = position.x % 32; int fy = position.y % 32; // Compute the being radius: // FIXME: the beings' radius should be obtained from xml values // and stored into the Being ojects. int radius = getWidth() / 2; // FIXME: Hande beings with more than 1/2 tile radius by not letting them // go or spawn in too narrow places. The server will have to be aware // of being's radius value (in tiles) to handle this gracefully. if (radius > 32 / 2) radius = 32 / 2; // set a default value if no value returned. if (radius < 1) radius = 32 / 3; // Fix coordinates so that the player does not seem to dig into walls. if (fx > (32 - radius) && !mMap->getWalk(tx + 1, ty, getWalkMask())) fx = 32 - radius; else if (fx < radius && !mMap->getWalk(tx - 1, ty, getWalkMask())) fx = radius; else if (fy > (32 - radius) && !mMap->getWalk(tx, ty + 1, getWalkMask())) fy = 32 - radius; else if (fy < radius && !mMap->getWalk(tx, ty - 1, getWalkMask())) fy = radius; // FIXME: Check also diagonal positions. // Test also the current character's position, to avoid the corner case // where a player can approach an obstacle by walking from slightly // under, diagonally. First part to the walk on water bug. //if (offsetY < 16 && !mMap->getWalk(posX, posY - 1, getWalkMask())) //fy = 16; return Position(tx * 32 + fx, ty * 32 + fy); } void Being::setDestination(int dstX, int dstY) { if (Net::getNetworkType() == ServerInfo::EATHENA) { if (mMap) setPath(mMap->findPath(mX, mY, dstX, dstY, getWalkMask())); return; } // If the destination is unwalkable, don't bother trying to get there if (!mMap->getWalk(dstX / 32, dstY / 32)) return; Position dest = checkNodeOffsets(dstX, dstY); mDest.x = dest.x; mDest.y = dest.y; int srcX = mPos.x; int srcY = mPos.y; Path thisPath; if (mMap) { thisPath = mMap->findPath(mPos.x / 32, mPos.y / 32, mDest.x / 32, mDest.y / 32, getWalkMask()); } if (thisPath.empty()) { setPath(Path()); return; } // Find the starting offset float startX = (srcX % 32); float startY = (srcY % 32); // Find the ending offset float endX = (dstX % 32); float endY = (dstY % 32); // Find the distance, and divide it by the number of steps int changeX = (int)((endX - startX) / thisPath.size()); int changeY = (int)((endY - startY) / thisPath.size()); // Convert the map path to pixels over tiles // And add interpolation between the starting and ending offsets Path::iterator it = thisPath.begin(); int i = 0; while (it != thisPath.end()) { // A position that is valid on the start and end tile is not // necessarily valid on all the tiles in between, so check the offsets. *it = checkNodeOffsets(it->x * 32 + startX + changeX * i, it->y * 32 + startY + changeY * i); i++; it++; } // Remove the last path node, as it's more clever to go to mDest instead. // It also permit to avoid zigzag at the end of the path, // especially with mouse. thisPath.pop_back(); thisPath.push_back(Position(mDest.x, mDest.y)); setPath(thisPath); } void Being::clearPath() { mPath.clear(); } void Being::setPath(const Path &path) { mPath = path; if ((Net::getNetworkType() == ServerInfo::EATHENA) && mAction != WALK && mAction != DEAD) { nextTile(); mWalkTime = tick_time; } } void Being::setSpeech(const std::string &text, int time) { // Remove colors mSpeech = removeColors(text); // Trim whitespace trim(mSpeech); // Check for links std::string::size_type start = mSpeech.find('['); std::string::size_type end = mSpeech.find(']', start); while (start != std::string::npos && end != std::string::npos) { // Catch multiple embeds and ignore them so it doesn't crash the client. while ((mSpeech.find('[', start + 1) != std::string::npos) && (mSpeech.find('[', start + 1) < end)) { start = mSpeech.find('[', start + 1); } std::string::size_type position = mSpeech.find('|'); if (mSpeech[start + 1] == '@' && mSpeech[start + 2] == '@') { mSpeech.erase(end, 1); mSpeech.erase(start, (position - start) + 1); } position = mSpeech.find('@'); while (position != std::string::npos) { mSpeech.erase(position, 2); position = mSpeech.find('@'); } start = mSpeech.find('[', start + 1); end = mSpeech.find(']', start); } if (!mSpeech.empty()) mSpeechTime = time <= SPEECH_MAX_TIME ? time : SPEECH_MAX_TIME; const int speech = (int) config.getValue("speech", TEXT_OVERHEAD); if (speech == TEXT_OVERHEAD) { if (mText) delete mText; mText = new Text(mSpeech, getPixelX(), getPixelY() - getHeight(), gcn::Graphics::CENTER, &guiPalette->getColor(Palette::PARTICLE), true); } } void Being::takeDamage(Being *attacker, int amount, AttackType type) { gcn::Font *font; std::string damage = amount ? toString(amount) : type == FLEE ? "dodge" : "miss"; const gcn::Color *color; font = gui->getInfoParticleFont(); // Selecting the right color if (type == CRITICAL || type == FLEE) { color = &guiPalette->getColor(Palette::HIT_CRITICAL); } else if (!amount) { if (attacker == player_node) { // This is intended to be the wrong direction to visually // differentiate between hits and misses color = &guiPalette->getColor(Palette::HIT_MONSTER_PLAYER); } else { color = &guiPalette->getColor(Palette::MISS); } } else if (getType() == MONSTER) { color = &guiPalette->getColor(Palette::HIT_PLAYER_MONSTER); } else { color = &guiPalette->getColor(Palette::HIT_MONSTER_PLAYER); } // Show damage number particleEngine->addTextSplashEffect(damage, getPixelX(), getPixelY() - 16, color, font, true); if (amount > 0) { if (getType() == MONSTER) { mDamageTaken += amount; updateName(); } if (type != CRITICAL) effectManager->trigger(26, this); else effectManager->trigger(28, this); } } void Being::handleAttack(Being *victim, int damage, AttackType type) { if (this != player_node) setAction(Being::ATTACK, 1); if (getType() == PLAYER && victim) { if (mEquippedWeapon) { fireMissile(victim, mEquippedWeapon->getMissileParticle()); } } if (Net::getNetworkType() == ServerInfo::EATHENA) { mFrame = 0; mWalkTime = tick_time; } } void Being::setName(const std::string &name) { mName = name; if (getShowName()) showName(); } void Being::setShowName(bool doShowName) { bool oldShow = mShowName; mShowName = doShowName; if (doShowName != oldShow) { if (doShowName) showName(); else { delete mDispName; mDispName = 0; } } } void Being::setGuildName(const std::string &name) { logger->log("Got guild name \"%s\" for being %s(%i)", name.c_str(), mName.c_str(), mId); } void Being::setGuildPos(const std::string &pos) { logger->log("Got guild position \"%s\" for being %s(%i)", pos.c_str(), mName.c_str(), mId); } void Being::setMap(Map *map) { // Remove sprite from potential previous map if (mMap) mMap->removeSprite(mMapSprite); mMap = map; // Add sprite to potential new map if (mMap) mMapSprite = mMap->addSprite(this); // Clear particle effect list because child particles became invalid mChildParticleEffects.clear(); mMustResetParticles = true; // Reset status particles on next redraw } void Being::controlParticle(Particle *particle) { mChildParticleEffects.addLocally(particle); } void Being::fireMissile(Being *victim, const std::string &particle) { if (!victim || particle.empty()) return; Particle *target = particleEngine->createChild(); Particle *missile = target->addEffect(particle, getPixelX(), getPixelY()); if (missile) { target->setLifetime(2000); target->moveBy(Vector(0.0f, 0.0f, 32.0f)); victim->controlParticle(target); missile->setDestination(target, 7, 0); missile->setDieDistance(8); missile->setLifetime(900); } } void Being::setAction(Action action, int attackType) { SpriteAction currentAction = ACTION_INVALID; switch (action) { case WALK: currentAction = ACTION_WALK; break; case SIT: currentAction = ACTION_SIT; break; case ATTACK: if (mEquippedWeapon) currentAction = mEquippedWeapon->getAttackType(); else currentAction = ACTION_ATTACK; for (SpriteIterator it = mSprites.begin(); it != mSprites.end(); it++) if (*it) (*it)->reset(); break; case HURT: //currentAction = ACTION_HURT; // Buggy: makes the player stop // attacking and unable to attack // again until he moves break; case DEAD: currentAction = ACTION_DEAD; break; case STAND: currentAction = ACTION_STAND; break; } if (currentAction != ACTION_INVALID) { for (SpriteIterator it = mSprites.begin(); it != mSprites.end(); it++) if (*it) (*it)->play(currentAction); mAction = action; } } void Being::setDirection(Uint8 direction) { if (mDirection == direction) return; mDirection = direction; // if the direction does not change much, keep the common component int mFaceDirection = mDirection & direction; if (!mFaceDirection) mFaceDirection = direction; SpriteDirection dir; if (mFaceDirection & UP) dir = DIRECTION_UP; else if (mFaceDirection & DOWN) dir = DIRECTION_DOWN; else if (mFaceDirection & RIGHT) dir = DIRECTION_RIGHT; else dir = DIRECTION_LEFT; mSpriteDirection = dir; for (SpriteIterator it = mSprites.begin(); it != mSprites.end(); it++) if (*it) (*it)->setDirection(dir); } /** TODO: Used by eAthena only */ void Being::nextTile() { if (mPath.empty()) { setAction(STAND); return; } Position pos = mPath.front(); mPath.pop_front(); int dir = 0; if (pos.x > mX) dir |= RIGHT; else if (pos.x < mX) dir |= LEFT; if (pos.y > mY) dir |= DOWN; else if (pos.y < mY) dir |= UP; setDirection(dir); if (!mMap->getWalk(pos.x, pos.y, getWalkMask())) { setAction(STAND); return; } mX = pos.x; mY = pos.y; setAction(WALK); mWalkTime += (int)(mWalkSpeed.x / 10); } void Being::logic() { // Reduce the time that speech is still displayed if (mSpeechTime > 0) mSpeechTime--; // Remove text and speechbubbles if speech boxes aren't being used if (mSpeechTime == 0 && mText) { delete mText; mText = 0; } if ((Net::getNetworkType() == ServerInfo::MANASERV) && (mAction != DEAD)) { const Vector dest = (mPath.empty()) ? mDest : Vector(mPath.front().x, mPath.front().y); // The Vector representing the difference between current position // and the next destination path node. Vector dir = dest - mPos; const float nominalLength = dir.length(); // When we've not reached our destination, move to it. if (nominalLength > 1.0f && !mWalkSpeed.isNull()) { // The deplacement of a point along a vector is calculated // using the Unit Vector (â) multiplied by the point speed. // â = a / ||a|| (||a|| is the a length.) // Then, diff = (dir/||dir||) * speed. const Vector normalizedDir = dir.normalized(); Vector diff(normalizedDir.x * mWalkSpeed.x, normalizedDir.y * mWalkSpeed.y); // Test if we don't miss the destination by a move too far: if (diff.length() > nominalLength) { setPosition(mPos + dir); // Also, if the destination is reached, try to get the next // path point, if existing. if (!mPath.empty()) mPath.pop_front(); } // Otherwise, go to it using the nominal speed. else setPosition(mPos + diff); if (mAction != WALK) setAction(WALK); // Update the player sprite direction int direction = 0; const float dx = std::abs(dir.x); float dy = std::abs(dir.y); // When not using mouse for the player, we slightly prefer // UP and DOWN position, especially when walking diagonally. if (this == player_node && !player_node->isPathSetByMouse()) dy = dy + 2; if (dx > dy) direction |= (dir.x > 0) ? RIGHT : LEFT; else direction |= (dir.y > 0) ? DOWN : UP; setDirection(direction); } else if (!mPath.empty()) { // If the current path node has been reached, // remove it and go to the next one. mPath.pop_front(); } else if (mAction == WALK) { setAction(STAND); } } else if (Net::getNetworkType() == ServerInfo::EATHENA) { // Update pixel coordinates setPosition(mX * 32 + 16 + getXOffset(), mY * 32 + 32 + getYOffset()); } if (mEmotion != 0) { mEmotionTime--; if (mEmotionTime == 0) mEmotion = 0; } // Update sprite animations if (mUsedTargetCursor) mUsedTargetCursor->update(tick_time * MILLISECONDS_IN_A_TICK); for (SpriteIterator it = mSprites.begin(); it != mSprites.end(); it++) if (*it) (*it)->update(tick_time * MILLISECONDS_IN_A_TICK); // Restart status/particle effects, if needed if (mMustResetParticles) { mMustResetParticles = false; for (std::set::iterator it = mStatusEffects.begin(); it != mStatusEffects.end(); it++) { const StatusEffect *effect = StatusEffect::getStatusEffect(*it, true); if (effect && effect->particleEffectIsPersistent()) updateStatusEffect(*it, true); } } // Update particle effects mChildParticleEffects.moveTo(mPos.x, mPos.y); } void Being::draw(Graphics *graphics, int offsetX, int offsetY) const { // TODO: Eventually, we probably should fix all sprite offsets so that // these translations aren't necessary anymore. The sprites know // best where their base point should be. const int px = getPixelX() + offsetX - 16; // Temporary fix to the Y offset. const int py = getPixelY() + offsetY - ((Net::getNetworkType() == ServerInfo::MANASERV) ? 15 : 32); if (mUsedTargetCursor) mUsedTargetCursor->draw(graphics, px, py); for (SpriteConstIterator it = mSprites.begin(); it != mSprites.end(); it++) { if (*it) { if ((*it)->getAlpha() != mAlpha) (*it)->setAlpha(mAlpha); (*it)->draw(graphics, px, py); } } } void Being::drawSpriteAt(Graphics *graphics, int x, int y) const { const int px = x - 16; const int py = y - 32; for (SpriteConstIterator it = mSprites.begin(); it != mSprites.end(); it++) { if (*it) { if ((*it)->getAlpha() != mAlpha) (*it)->setAlpha(mAlpha); (*it)->draw(graphics, px, py); } } } void Being::drawEmotion(Graphics *graphics, int offsetX, int offsetY) { if (!mEmotion) return; const int px = getPixelX() - offsetX - 16; const int py = getPixelY() - offsetY - 64 - 32; const int emotionIndex = mEmotion - 1; if (emotionIndex >= 0 && emotionIndex <= EmoteDB::getLast()) EmoteDB::getAnimation(emotionIndex)->draw(graphics, px, py); } void Being::drawSpeech(int offsetX, int offsetY) { const int px = getPixelX() - offsetX; const int py = getPixelY() - offsetY; const int speech = (int) config.getValue("speech", TEXT_OVERHEAD); // Draw speech above this being if (mSpeechTime == 0) { if (mSpeechBubble->isVisible()) mSpeechBubble->setVisible(false); } else if (mSpeechTime > 0 && (speech == NAME_IN_BUBBLE || speech == NO_NAME_IN_BUBBLE)) { const bool showName = (speech == NAME_IN_BUBBLE); if (mText) { delete mText; mText = NULL; } mSpeechBubble->setCaption(showName ? mName : "", mTextColor); mSpeechBubble->setText(mSpeech, showName); mSpeechBubble->setPosition(px - (mSpeechBubble->getWidth() / 2), py - getHeight() - (mSpeechBubble->getHeight())); mSpeechBubble->setVisible(true); } else if (mSpeechTime > 0 && speech == TEXT_OVERHEAD) { mSpeechBubble->setVisible(false); if (! mText) { mText = new Text(mSpeech, getPixelX(), getPixelY() - getHeight(), gcn::Graphics::CENTER, &guiPalette->getColor(Palette::PARTICLE), true); } } else if (speech == NO_SPEECH) { mSpeechBubble->setVisible(false); if (mText) delete mText; mText = NULL; } } void Being::setStatusEffectBlock(int offset, Uint16 newEffects) { for (int i = 0; i < STATUS_EFFECTS; i++) { int index = StatusEffect::blockEffectIndexToEffectIndex(offset + i); if (index != -1) setStatusEffect(index, (newEffects & (1 << i)) > 0); } } void Being::handleStatusEffect(StatusEffect *effect, int effectId) { if (!effect) return; // TODO: Find out how this is meant to be used // (SpriteAction != Being::Action) //SpriteAction action = effect->getAction(); //if (action != ACTION_INVALID) // setAction(action); Particle *particle = effect->getParticle(); if (effectId >= 0) { mStatusParticleEffects.setLocally(effectId, particle); } else { mStunParticleEffects.clearLocally(); if (particle) mStunParticleEffects.addLocally(particle); } } void Being::updateStunMode(int oldMode, int newMode) { handleStatusEffect(StatusEffect::getStatusEffect(oldMode, false), -1); handleStatusEffect(StatusEffect::getStatusEffect(newMode, true), -1); } void Being::updateStatusEffect(int index, bool newStatus) { handleStatusEffect(StatusEffect::getStatusEffect(index, newStatus), index); } void Being::setStatusEffect(int index, bool active) { const bool wasActive = mStatusEffects.find(index) != mStatusEffects.end(); if (active != wasActive) { updateStatusEffect(index, active); if (active) mStatusEffects.insert(index); else mStatusEffects.erase(index); } } /** TODO: eAthena only */ int Being::getOffset(char pos, char neg) const { // Check whether we're walking in the requested direction if (mAction != WALK || !(mDirection & (pos | neg))) return 0; int offset = 0; if (mMap) { offset = (pos == LEFT && neg == RIGHT) ? (int)((get_elapsed_time(mWalkTime) * mMap->getTileWidth()) / mWalkSpeed.x) : (int)((get_elapsed_time(mWalkTime) * mMap->getTileHeight()) / mWalkSpeed.y); } // We calculate the offset _from_ the _target_ location offset -= 32; if (offset > 0) offset = 0; // Going into negative direction? Invert the offset. if (mDirection & pos) offset = -offset; return offset; } int Being::getWidth() const { AnimatedSprite *base = NULL; for (SpriteConstIterator it = mSprites.begin(); it != mSprites.end(); it++) if ((base = (*it))) break; if (base) return std::max(base->getWidth(), DEFAULT_BEING_WIDTH); return DEFAULT_BEING_WIDTH; } int Being::getHeight() const { AnimatedSprite *base = NULL; for (SpriteConstIterator it = mSprites.begin(); it != mSprites.end(); it++) if ((base = (*it))) break; if (base) return std::max(base->getHeight(), DEFAULT_BEING_HEIGHT); return DEFAULT_BEING_HEIGHT; } void Being::setTargetAnimation(SimpleAnimation *animation) { mUsedTargetCursor = animation; mUsedTargetCursor->reset(); } struct EffectDescription { std::string mGFXEffect; std::string mSFXEffect; }; static EffectDescription *default_effect = NULL; static std::map effects; static bool effects_initialized = false; static EffectDescription *getEffectDescription(xmlNodePtr node, int *id) { EffectDescription *ed = new EffectDescription; *id = atoi(XML::getProperty(node, "id", "-1").c_str()); ed->mSFXEffect = XML::getProperty(node, "audio", ""); ed->mGFXEffect = XML::getProperty(node, "particle", ""); return ed; } static EffectDescription *getEffectDescription(int effectId) { if (!effects_initialized) { XML::Document doc(BEING_EFFECTS_FILE); xmlNodePtr root = doc.rootNode(); if (!root || !xmlStrEqual(root->name, BAD_CAST "being-effects")) { logger->log("Error loading being effects file: " BEING_EFFECTS_FILE); return NULL; } for_each_xml_child_node(node, root) { int id; if (xmlStrEqual(node->name, BAD_CAST "effect")) { EffectDescription *EffectDescription = getEffectDescription(node, &id); effects[id] = EffectDescription; } else if (xmlStrEqual(node->name, BAD_CAST "default")) { EffectDescription *effectDescription = getEffectDescription(node, &id); if (default_effect) delete default_effect; default_effect = effectDescription; } } effects_initialized = true; } // done initializing EffectDescription *ed = effects[effectId]; return ed ? ed : default_effect; } void Being::internalTriggerEffect(int effectId, bool sfx, bool gfx) { logger->log("Special effect #%d on %s", effectId, getId() == player_node->getId() ? "self" : "other"); EffectDescription *ed = getEffectDescription(effectId); if (!ed) { logger->log("Unknown special effect and no default recorded"); return; } if (gfx && !ed->mGFXEffect.empty()) { Particle *selfFX; selfFX = particleEngine->addEffect(ed->mGFXEffect, 0, 0); controlParticle(selfFX); } if (sfx && !ed->mSFXEffect.empty()) sound.playSfx(ed->mSFXEffect); } void Being::updateCoords() { if (mDispName) { mDispName->adviseXY(getPixelX(), getPixelY()); } } void Being::flashName(int time) { if (mDispName) mDispName->flash(time); } void Being::showName() { delete mDispName; mDispName = 0; std::string mDisplayName(mName); if (getType() == PLAYER) { if (config.getValue("showgender", false)) { Player* player = static_cast(this); if (player) { if (player->getGender() == GENDER_FEMALE) mDisplayName += " \u2640"; else mDisplayName += " \u2642"; } } } else if (getType() == MONSTER) { if (config.getValue("showMonstersTakedDamage", false)) { mDisplayName += ", " + toString(getDamageTaken()); } } mDispName = new FlashText(mDisplayName, getPixelX(), getPixelY(), gcn::Graphics::CENTER, mNameColor); } int Being::getNumberOfLayers() const { return mSprites.size(); } void Being::load() { // Hairstyles are encoded as negative numbers. Count how far negative // we can go. int hairstyles = 1; while (ItemDB::get(-hairstyles).getSprite(GENDER_MALE) != "error.xml") hairstyles++; mNumberOfHairstyles = hairstyles; } void Being::updateName() { if (mShowName) showName(); }