/* * The ManaPlus Client * Copyright (C) 2013-2017 The ManaPlus Developers * * This file is part of The ManaPlus 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 . */ #ifndef USE_PHYSFS #include "fs/virtfs.h" #include "fs/paths.h" #include "fs/virtfile.h" #include "fs/virtfsfuncs.h" #include "fs/virtlist.h" #include "fs/virtfs/virtdirentry.h" #include "fs/virtfs/virtfsdir.h" #include "fs/virtfs/virtfszip.h" #include "utils/checkutils.h" #include "debug.h" const char *dirSeparator = nullptr; namespace VirtFs { void init(const std::string &restrict name) { VirtFsDir::init(name); updateDirSeparator(); } void updateDirSeparator() { #ifdef WIN32 dirSeparator = "\\"; #else // WIN32 dirSeparator = "/"; #endif // WIN32 } const char *getDirSeparator() { return dirSeparator; } const char *getBaseDir() { return VirtFsDir::getBaseDir(); } const char *getUserDir() { return VirtFsDir::getUserDir(); } bool exists(const std::string &restrict name) { return VirtFsDir::exists(name) || VirtFsZip::exists(name); } VirtList *enumerateFiles(std::string dirName) { VirtList *const list = new VirtList; prepareFsPath(dirName); if (checkPath(dirName) == false) { reportAlways("VirtFs::enumerateFiles invalid path: %s", dirName.c_str()); return list; } VirtFsDir::enumerateFiles(dirName, list); VirtFsZip::enumerateFiles(dirName, list); return list; } bool isDirectory(std::string name) { prepareFsPath(name); if (checkPath(name) == false) { reportAlways("VirtFs::isDirectory invalid path: %s", name.c_str()); return false; } return VirtFsDir::isDirectoryInternal(name) || VirtFsZip::isDirectoryInternal(name); } bool isSymbolicLink(const std::string &restrict name) { return VirtFsDir::isSymbolicLink(name); } void freeList(VirtList *restrict const handle) { delete handle; } VirtFile *openRead(std::string filename) { prepareFsPath(filename); if (checkPath(filename) == false) { reportAlways("VirtFs::openRead invalid path: %s", filename.c_str()); return nullptr; } VirtDirEntry *const entry = VirtFsDir::searchEntryByPath(filename); if (entry == nullptr) return VirtFsZip::openReadInternal(filename); return VirtFsDir::openReadDirEntry(entry, filename); } VirtFile *openWrite(const std::string &restrict filename) { return VirtFsDir::openWrite(filename); } VirtFile *openAppend(const std::string &restrict filename) { return VirtFsDir::openAppend(filename); } bool setWriteDir(const std::string &restrict newDir) { return VirtFsDir::setWriteDir(newDir); } bool addDirToSearchPath(const std::string &restrict newDir, const Append append) { #ifdef UNITTESTS return VirtFsDir::addToSearchPathSilent(newDir, append, SkipError_false); #else // UNITTESTS return VirtFsDir::addToSearchPath(newDir, append); #endif // UNITTESTS } bool removeDirFromSearchPath(const std::string &restrict oldDir) { #ifdef UNITTESTS return VirtFsDir::removeFromSearchPathSilent(oldDir); #else // UNITTESTS return VirtFsDir::removeFromSearchPath(oldDir); #endif // UNITTESTS } bool addZipToSearchPath(const std::string &restrict newDir, const Append append) { #ifdef UNITTESTS return VirtFsZip::addToSearchPathSilent(newDir, append); #else // UNITTESTS return VirtFsZip::addToSearchPath(newDir, append); #endif // UNITTESTS } bool removeZipFromSearchPath(const std::string &restrict oldDir) { #ifdef UNITTESTS return VirtFsZip::removeFromSearchPathSilent(oldDir); #else // UNITTESTS return VirtFsZip::removeFromSearchPath(oldDir); #endif // UNITTESTS } std::string getRealDir(std::string filename) { prepareFsPath(filename); if (checkPath(filename) == false) { reportAlways("VirtFs::getRealDir invalid path: %s", filename.c_str()); return std::string(); } VirtDirEntry *const entry = VirtFsDir::searchEntryByPath(filename); if (entry == nullptr) return VirtFsZip::getRealDirInternal(filename); return entry->mUserDir; } bool mkdir(const std::string &restrict dirname) { return VirtFsDir::mkdir(dirname); } bool remove(const std::string &restrict filename) { return VirtFsDir::remove(filename); } bool deinit() { VirtFsDir::deinit(); return true; } void permitLinks(const bool val) { VirtFsDir::permitLinks(val); } const char *getLastError() { return ""; } int close(VirtFile *restrict const file) { if (file == nullptr) return 0; return file->funcs->close(file); } int64_t read(VirtFile *restrict const file, void *restrict const buffer, const uint32_t objSize, const uint32_t objCount) { return file->funcs->read(file, buffer, objSize, objCount); } int64_t write(VirtFile *restrict const file, const void *restrict const buffer, const uint32_t objSize, const uint32_t objCount) { return file->funcs->write(file, buffer, objSize, objCount); } int64_t fileLength(VirtFile *restrict const file) { return file->funcs->fileLength(file); } int64_t tell(VirtFile *restrict const file) { return file->funcs->tell(file); } int seek(VirtFile *restrict const file, const uint64_t pos) { return file->funcs->seek(file, pos); } int eof(VirtFile *restrict const file) { return file->funcs->eof(file); } } // namespace VirtFs #endif // USE_PHYSFS