/* * The Mana Client * Copyright (C) 2004-2009 The Mana World Development Team * Copyright (C) 2009-2012 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 "resources/resourcemanager.h" #include "client.h" #include "log.h" #include "resources/dye.h" #include "resources/image.h" #include "resources/imageset.h" #include "resources/music.h" #include "resources/soundeffect.h" #include "resources/spritedef.h" #include "utils/zlib.h" #include "utils/physfsrwops.h" #include #include #include #include #include ResourceManager *ResourceManager::instance = nullptr; ResourceManager::ResourceManager() : mOldestOrphan(0) { logger->log("Initializing resource manager..."); } ResourceManager::~ResourceManager() { mResources.insert(mOrphanedResources.begin(), mOrphanedResources.end()); // Release any remaining spritedefs first because they depend on image sets auto iter = mResources.begin(); while (iter != mResources.end()) { if (dynamic_cast(iter->second) != nullptr) { cleanUp(iter->second); auto toErase = iter; ++iter; mResources.erase(toErase); } else { ++iter; } } // Release any remaining image sets first because they depend on images iter = mResources.begin(); while (iter != mResources.end()) { if (dynamic_cast(iter->second) != nullptr) { cleanUp(iter->second); auto toErase = iter; ++iter; mResources.erase(toErase); } else { ++iter; } } // Release remaining resources, logging the number of dangling references. iter = mResources.begin(); while (iter != mResources.end()) { cleanUp(iter->second); ++iter; } } void ResourceManager::cleanUp(Resource *res) { if (res->mRefCount > 0) { logger->log("ResourceManager::~ResourceManager() cleaning up %d " "reference%s to %s", res->mRefCount, (res->mRefCount == 1) ? "" : "s", res->mIdPath.c_str()); } delete res; } void ResourceManager::cleanOrphans() { timeval tv; gettimeofday(&tv, nullptr); // Delete orphaned resources after 30 seconds. time_t oldest = tv.tv_sec; time_t threshold = oldest - 30; if (mOrphanedResources.empty() || mOldestOrphan >= threshold) return; auto iter = mOrphanedResources.begin(); while (iter != mOrphanedResources.end()) { Resource *res = iter->second; time_t t = res->mTimeStamp; if (t >= threshold) { if (t < oldest) oldest = t; ++iter; } else { logger->log("ResourceManager::release(%s)", res->mIdPath.c_str()); auto toErase = iter; ++iter; mOrphanedResources.erase(toErase); delete res; // delete only after removal from list, to avoid issues in recursion } } mOldestOrphan = oldest; } bool ResourceManager::setWriteDir(const std::string &path) { return (bool) PHYSFS_setWriteDir(path.c_str()); } bool ResourceManager::addToSearchPath(const std::string &path, bool append) { logger->log("Adding to PhysicsFS: %s", path.c_str()); if (!PHYSFS_mount(path.c_str(), nullptr, append ? 1 : 0)) { logger->log("Error: %s", PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())); return false; } return true; } void ResourceManager::searchAndAddArchives(const std::string &path, const std::string &ext, bool append) { const char *dirSep = PHYSFS_getDirSeparator(); char **list = PHYSFS_enumerateFiles(path.c_str()); for (char **i = list; *i; i++) { size_t len = strlen(*i); if (len > ext.length() && !ext.compare((*i)+(len - ext.length()))) { std::string file, realPath, archive; file = path + (*i); realPath = std::string(PHYSFS_getRealDir(file.c_str())); archive = realPath + dirSep + file; addToSearchPath(archive, append); } } PHYSFS_freeList(list); } bool ResourceManager::mkdir(const std::string &path) { return (bool) PHYSFS_mkdir(path.c_str()); } bool ResourceManager::exists(const std::string &path) { return PHYSFS_exists(path.c_str()); } bool ResourceManager::isDirectory(const std::string &path) { PHYSFS_Stat stat; if (PHYSFS_stat(path.c_str(), &stat) != 0) { return stat.filetype == PHYSFS_FILETYPE_DIRECTORY; } return false; } std::string ResourceManager::getPath(const std::string &file) { // get the real path to the file const char* tmp = PHYSFS_getRealDir(file.c_str()); std::string path; // if the file is not in the search path, then its NULL if (tmp) { path = std::string(tmp) + "/" + file; } else { // if not found in search path return the default path path = Client::getPackageDirectory() + "/" + file; } return path; } bool ResourceManager::addResource(const std::string &idPath, Resource* resource) { if (resource) { resource->incRef(); resource->mIdPath = idPath; mResources[idPath] = resource; return true; } return false; } Resource *ResourceManager::get(const std::string &idPath) { auto resIter = mResources.find(idPath); if (resIter != mResources.end()) { resIter->second->incRef(); return resIter->second; } return nullptr; } Resource *ResourceManager::get(const std::string &idPath, generator fun, void *data) { // Check if the id exists, and return the value if it does. auto resIter = mResources.find(idPath); if (resIter != mResources.end()) { resIter->second->incRef(); return resIter->second; } resIter = mOrphanedResources.find(idPath); if (resIter != mOrphanedResources.end()) { Resource *res = resIter->second; mResources.insert(*resIter); mOrphanedResources.erase(resIter); res->incRef(); return res; } Resource *resource = fun(data); if (resource) { resource->incRef(); resource->mIdPath = idPath; mResources[idPath] = resource; cleanOrphans(); } // Returns NULL if the object could not be created. return resource; } struct ResourceLoader { ResourceManager *manager; std::string path; ResourceManager::loader fun; static Resource *load(void *v) { auto *l = static_cast< ResourceLoader * >(v); SDL_RWops *rw = PHYSFSRWOPS_openRead(l->path.c_str()); if (!rw) return nullptr; Resource *res = l->fun(rw); return res; } }; Resource *ResourceManager::load(const std::string &path, loader fun) { ResourceLoader l = { this, path, fun }; return get(path, ResourceLoader::load, &l); } Music *ResourceManager::getMusic(const std::string &idPath) { return static_cast(load(idPath, Music::load)); } SoundEffect *ResourceManager::getSoundEffect(const std::string &idPath) { return static_cast(load(idPath, SoundEffect::load)); } struct DyedImageLoader { ResourceManager *manager; std::string path; static Resource *load(void *v) { auto *l = static_cast< DyedImageLoader * >(v); std::string path = l->path; std::string::size_type p = path.find('|'); Dye *d = nullptr; if (p != std::string::npos) { d = new Dye(path.substr(p + 1)); path = path.substr(0, p); } SDL_RWops *rw = PHYSFSRWOPS_openRead(path.c_str()); if (!rw) { delete d; return nullptr; } Resource *res = d ? Image::load(rw, *d) : Image::load(rw); delete d; return res; } }; Image *ResourceManager::getImage(const std::string &idPath) { DyedImageLoader l = { this, idPath }; return static_cast(get(idPath, DyedImageLoader::load, &l)); } struct ImageSetLoader { ResourceManager *manager; std::string path; int w, h; static Resource *load(void *v) { auto *l = static_cast< ImageSetLoader * >(v); Image *img = l->manager->getImage(l->path); if (!img) return nullptr; auto *res = new ImageSet(img, l->w, l->h); img->decRef(); return res; } }; ImageSet *ResourceManager::getImageSet(const std::string &imagePath, int w, int h) { ImageSetLoader l = { this, imagePath, w, h }; std::stringstream ss; ss << imagePath << "[" << w << "x" << h << "]"; return static_cast(get(ss.str(), ImageSetLoader::load, &l)); } struct SpriteDefLoader { std::string path; int variant; static Resource *load(void *v) { auto *l = static_cast< SpriteDefLoader * >(v); return SpriteDef::load(l->path, l->variant); } }; SpriteDef *ResourceManager::getSprite(const std::string &path, int variant) { SpriteDefLoader l = { path, variant }; std::stringstream ss; ss << path << "[" << variant << "]"; return static_cast(get(ss.str(), SpriteDefLoader::load, &l)); } void ResourceManager::release(Resource *res) { auto resIter = mResources.find(res->mIdPath); // The resource has to exist assert(resIter != mResources.end() && resIter->second == res); timeval tv; gettimeofday(&tv, nullptr); time_t timestamp = tv.tv_sec; res->mTimeStamp = timestamp; if (mOrphanedResources.empty()) mOldestOrphan = timestamp; mOrphanedResources.insert(*resIter); mResources.erase(resIter); } void ResourceManager::remove(Resource *res) { mResources.erase(res->mIdPath); } ResourceManager *ResourceManager::getInstance() { // Create a new instance if necessary. if (!instance) instance = new ResourceManager; return instance; } void ResourceManager::deleteInstance() { delete instance; instance = nullptr; } void *ResourceManager::loadFile(const std::string &filename, int &filesize, bool inflate) { // Attempt to open the specified file using PhysicsFS PHYSFS_file *file = PHYSFS_openRead(filename.c_str()); // If the handler is an invalid pointer indicate failure if (file == nullptr) { logger->log("Warning: Failed to load %s: %s", filename.c_str(), PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())); return nullptr; } // Log the real dir of the file logger->log("Loaded %s/%s", PHYSFS_getRealDir(filename.c_str()), filename.c_str()); // Get the size of the file filesize = PHYSFS_fileLength(file); // Allocate memory and load the file void *buffer = malloc(filesize); PHYSFS_readBytes(file, buffer, filesize); // Close the file and let the user deallocate the memory PHYSFS_close(file); unsigned char *inflated; unsigned int inflatedSize; if (inflate && filename.find(".gz", filename.length() - 3) != std::string::npos) { // Inflate the gzipped map data inflatedSize = inflateMemory((unsigned char*) buffer, filesize, inflated); free(buffer); if (inflated == nullptr) { logger->log("Could not decompress file: %s", filename.c_str()); return nullptr; } filesize = inflatedSize; return inflated; } else { return buffer; } } bool ResourceManager::copyFile(const std::string &src, const std::string &dst) { PHYSFS_file *srcFile = PHYSFS_openRead(src.c_str()); if (!srcFile) { logger->log("Read error: %s", PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())); return false; } PHYSFS_file *dstFile = PHYSFS_openWrite(dst.c_str()); if (!dstFile) { logger->log("Write error: %s", PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())); PHYSFS_close(srcFile); return false; } int fileSize = PHYSFS_fileLength(srcFile); void *buf = malloc(fileSize); PHYSFS_readBytes(srcFile, buf, fileSize); PHYSFS_writeBytes(dstFile, buf, fileSize); PHYSFS_close(srcFile); PHYSFS_close(dstFile); free(buf); return true; } std::vector ResourceManager::loadTextFile( const std::string &fileName) { int contentsLength; char *fileContents = (char*)loadFile(fileName, contentsLength); std::vector lines; if (!fileContents) { logger->log("Couldn't load text file: %s", fileName.c_str()); return lines; } std::istringstream iss(std::string(fileContents, contentsLength)); std::string line; while (getline(iss, line)) lines.push_back(line); free(fileContents); return lines; }