/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-15 * Changed: 2022-05-13 * * */ #include #include #include #include #include #include #include #include #include #if defined(unix) || defined(__APPLE__) #include #endif #ifdef _WIN32 #include #include #endif ls::std::io::File::File(::std::string _absoluteFilePath) : ls::std::core::Class("File"), absoluteFilePath(ls::std::io::File::_normalizePath(::std::move(_absoluteFilePath))) {} bool ls::std::io::File::operator==(ls::std::io::File &_file) { return ls::std::io::File::_equals(*this, _file); } bool ls::std::io::File::operator!=(ls::std::io::File &_file) { return !ls::std::io::File::_equals(*this, _file); } bool ls::std::io::File::canExecute() { return ls::std::io::File::_isExecutable(this->absoluteFilePath); } bool ls::std::io::File::canRead() { bool readable; #if defined(unix) || defined(__APPLE__) readable = ls::std::io::File::_isReadableUnix(this->absoluteFilePath); #endif #ifdef _WIN32 readable = ls::std::io::File::_isReadableWindows(this->absoluteFilePath); #endif return readable; } bool ls::std::io::File::canWrite() { return ls::std::io::File::_isWritable(this->absoluteFilePath); } void ls::std::io::File::createNewFile() { if (!ls::std::io::File::_exists(this->absoluteFilePath)) { ::std::ofstream file{this->absoluteFilePath}; file.close(); } else { throw ls::std::core::FileOperationException{}; } } bool ls::std::io::File::exists() { return ls::std::io::File::_exists(this->absoluteFilePath); } std::string ls::std::io::File::getAbsoluteFilePath() { return this->absoluteFilePath; } std::string ls::std::io::File::getName() { ::std::string copy = this->absoluteFilePath; // if it's a directory, remove separator from end, if it does exist if (ls::std::io::File::_isDirectory(this->absoluteFilePath)) { copy.erase(::std::remove_if(copy.end() - 1, copy.end(), ls::std::io::FilePathSeparatorMatch()), copy.end()); } // now get the file / directory name auto base = ::std::find_if(copy.rbegin(), copy.rend(), ls::std::io::FilePathSeparatorMatch()).base(); return ::std::string{base, copy.end()}; } std::string ls::std::io::File::getParent() { return ls::std::io::File::_getParent(this->absoluteFilePath); } std::string ls::std::io::File::getWorkingDirectory() { ::std::string workingDirectory{}; #if defined(unix) || defined(__APPLE__) workingDirectory = ls::std::io::File::_getWorkingDirectoryUnix(); #endif #ifdef _WIN32 workingDirectory = ls::std::io::File::_getWorkingDirectoryWindows(); #endif return workingDirectory; } long ls::std::io::File::getSize() { ::std::streampos fileSize{}; if (ls::std::io::File::_exists(this->absoluteFilePath)) { ::std::ifstream fileHandler{this->absoluteFilePath, ::std::ios::in}; fileSize = fileHandler.tellg(); fileHandler.seekg(0, ::std::ios::end); fileSize = fileHandler.tellg() - fileSize; fileHandler.close(); } return (long) fileSize; } bool ls::std::io::File::isDirectory() { return ls::std::io::File::_isDirectory(this->absoluteFilePath); } bool ls::std::io::File::isFile() { return ls::std::io::File::_isFile(this->absoluteFilePath); } time_t ls::std::io::File::lastModified() { return ls::std::io::File::_lastModified(this->absoluteFilePath); } std::list ls::std::io::File::list() { ::std::list<::std::string> fileList{}; if (ls::std::io::File::_isDirectory(this->absoluteFilePath)) { fileList = ls::std::io::File::_list(this->absoluteFilePath); } return fileList; } std::list ls::std::io::File::listFiles() { ::std::list<::std::string> fileList{}; if (ls::std::io::File::_isDirectory(this->absoluteFilePath)) { fileList = ls::std::io::File::_listFiles(this->absoluteFilePath); } return fileList; } void ls::std::io::File::makeDirectory() { if (ls::std::io::File::_mkdir(this->absoluteFilePath)) { throw ls::std::core::FileOperationException{}; } } void ls::std::io::File::makeDirectories() { ::std::vector<::std::string> subDirectories = ls::std::io::File::_splitIntoSubDirectoryNames(this->absoluteFilePath); const char separator = ls::std::io::FilePathSeparator::get(); ::std::string currentHierarchy{}; for (const auto &subDirectory: subDirectories) { currentHierarchy += subDirectory; if (!ls::std::io::File::_exists(currentHierarchy)) { ls::std::io::File::_mkdir(currentHierarchy); } currentHierarchy += separator; } } void ls::std::io::File::remove() { if (ls::std::io::File::_isFile(this->absoluteFilePath)) { ::std::remove(this->absoluteFilePath.c_str()); } if (ls::std::io::File::_isDirectory(this->absoluteFilePath)) { ls::std::io::File::_remove(this->absoluteFilePath); } } bool ls::std::io::File::renameTo(const ::std::string &_newName) { bool renamed = ls::std::io::File::_renameTo(this->absoluteFilePath, _newName); if (renamed) { this->absoluteFilePath = _newName; } return renamed; } void ls::std::io::File::reset(const ::std::string &_newPath) { this->absoluteFilePath = ls::std::io::File::_normalizePath(_newPath); } #ifdef _WIN32 void ls::std::io::File::_addToFileListWindows(const ::std::string &_path, bool _withDirectories, WIN32_FIND_DATA _data, ::std::list<::std::string> &_list) { const char separator = ls::std::io::FilePathSeparator::get(); ::std::string absolutePath = _path + separator + _data.cFileName; if (_withDirectories) { _list.emplace_back(absolutePath); } else { if (ls::std::io::File::_isFile(absolutePath)) { _list.emplace_back(absolutePath); } } } #endif #if defined(unix) || defined(__APPLE__) void ls::std::io::File::_addToFileListUnix(const ::std::string &_path, bool _withDirectories, dirent *directoryEntity, ::std::list<::std::string> &_list) { const char separator = ls::std::io::FilePathSeparator::get(); ::std::string absolutePath = _path + separator + directoryEntity->d_name; if (_withDirectories) { _list.emplace_back(absolutePath); } else { if (ls::std::io::File::_isFile(absolutePath)) { _list.emplace_back(absolutePath); } } } #endif bool ls::std::io::File::_equals(ls::std::io::File &_file, ls::std::io::File &_foreignFile) { bool isEqual = _file.getAbsoluteFilePath() == _foreignFile.getAbsoluteFilePath(); if (_file.exists() && _foreignFile.exists()) { isEqual = isEqual && _file.canRead() == _foreignFile.canRead(); isEqual = isEqual && _file.canWrite() == _foreignFile.canWrite(); isEqual = isEqual && _file.canExecute() == _foreignFile.canExecute(); } return isEqual; } bool ls::std::io::File::_exists(const ::std::string &_path) { struct stat _stat{}; return (stat(_path.c_str(), &_stat) == 0); } std::string ls::std::io::File::_getParent(const ::std::string &_path) { ::std::string parent{}; ::std::vector<::std::string> subDirectoryNames = ls::std::io::File::_splitIntoSubDirectoryNames(_path); const char separator = ls::std::io::FilePathSeparator::get(); subDirectoryNames.pop_back(); for (auto const &subDirectoryName: subDirectoryNames) { parent += subDirectoryName + separator; } return parent; } #if defined(unix) || defined(__APPLE__) std::string ls::std::io::File::_getWorkingDirectoryUnix() { ::std::string workingDirectory{}; char buffer[PATH_MAX]; if (getcwd(buffer, sizeof(buffer)) == nullptr) { throw ls::std::core::FileOperationException{}; } else { workingDirectory = ::std::string(buffer); } return workingDirectory; } #endif #ifdef _WIN32 std::string ls::std::io::File::_getWorkingDirectoryWindows() { ::std::string workingDirectory{}; TCHAR buffer[MAX_PATH]; if (!GetCurrentDirectory(MAX_PATH, buffer)) { throw ls::std::core::FileOperationException{}; } else { workingDirectory = ::std::string(buffer); } return workingDirectory; } #endif bool ls::std::io::File::_isDirectory(const ::std::string &_path) { bool match{}; struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { match = _stat.st_mode & (unsigned short) S_IFDIR; } return match; } bool ls::std::io::File::_isExecutable(const ::std::string &_path) { bool executable{}; if (ls::std::io::File::_exists(_path)) { struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { executable = (_stat.st_mode & (unsigned short) S_IEXEC) != 0; } } return executable; } bool ls::std::io::File::_isFile(const ::std::string &_path) { bool match{}; struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { match = _stat.st_mode & (unsigned) S_IFREG; } return match; } #if defined(unix) || defined(__APPLE__) bool ls::std::io::File::_isReadableUnix(const ::std::string &_path) { bool readable{}; if (ls::std::io::File::_exists(_path)) { struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { readable = (_stat.st_mode & (unsigned) S_IREAD) != 0; } } else { throw ls::std::core::FileOperationException{}; } return readable; } #endif #ifdef _WIN32 bool ls::std::io::File::_isReadableWindows(const ::std::string &_path) { bool readable; WIN32_FIND_DATA data{}; HANDLE handleFind = FindFirstFile(_path.c_str(), &data); if (handleFind != INVALID_HANDLE_VALUE) { readable = GetFileAttributes(data.cFileName) & (unsigned) FILE_ATTRIBUTE_READONLY; } else { throw ls::std::core::FileOperationException{}; } return readable; } #endif bool ls::std::io::File::_isWritable(const ::std::string &_path) { bool writable{}; if (ls::std::io::File::_exists(_path)) { struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { writable = (_stat.st_mode & (unsigned) S_IWRITE) != 0; } } return writable; } time_t ls::std::io::File::_lastModified(const ::std::string &_path) { time_t lastModifiedTimeStamp{}; struct stat _stat{}; if (stat(_path.c_str(), &_stat) == 0) { lastModifiedTimeStamp = _stat.st_mtime; } return lastModifiedTimeStamp; } std::list ls::std::io::File::_list(const ::std::string &_path) { ::std::list<::std::string> filesInDirectory{}; #if defined(unix) || defined(__APPLE__) filesInDirectory = ls::std::io::File::_listUnix(_path, true); #endif #ifdef _WIN32 filesInDirectory = ls::std::io::File::_listWindows(_path, true); #endif return filesInDirectory; } std::list ls::std::io::File::_listFiles(const ::std::string &_path) { ::std::list<::std::string> filesInDirectory{}; #if defined(unix) || defined(__APPLE__) filesInDirectory = ls::std::io::File::_listUnix(_path, false); #endif #ifdef _WIN32 filesInDirectory = ls::std::io::File::_listWindows(_path, false); #endif return filesInDirectory; } #if defined(unix) || defined(__APPLE__) std::list ls::std::io::File::_listUnix(const ::std::string &_path, bool withDirectories) { ::std::list<::std::string> filesInDirectory{}; DIR *directory = opendir(_path.c_str()); struct dirent *directoryEntity; ::std::string absolutePath{}; while ((directoryEntity = readdir(directory)) != nullptr) { ls::std::io::File::_addToFileListUnix(_path, withDirectories, directoryEntity, filesInDirectory); } closedir(directory); return filesInDirectory; } #endif #ifdef _WIN32 std::list ls::std::io::File::_listWindows(const ::std::string &_path, bool withDirectories) { ::std::list<::std::string> filesInDirectory{}; WIN32_FIND_DATA data{}; HANDLE hFind; ::std::string pattern{_path + ls::std::io::FilePathSeparator::get() + "*"}; if ((hFind = FindFirstFile(pattern.c_str(), &data)) != INVALID_HANDLE_VALUE) { do { ls::std::io::File::_addToFileListWindows(_path, withDirectories, data, filesInDirectory); } while (FindNextFile(hFind, &data) != 0); FindClose(hFind); } return filesInDirectory; } #endif int ls::std::io::File::_mkdir(const ::std::string &_path) { int result; #ifdef _WIN32 result = mkdir(_path.c_str()); #endif #if defined(unix) || defined(__APPLE__) result = mkdir(_path.c_str(), 0777); #endif return result; } std::string ls::std::io::File::_normalizePath(::std::string _path) { _path = ls::std::io::File::_replaceWrongSeparator(_path); _path = ls::std::io::File::_reduceSeparators(_path); return _path; } std::string ls::std::io::File::_reduceSeparators(const ::std::string &_path) { static const char separator = {ls::std::io::FilePathSeparator::get()}; ::std::string normalizedPath{}; int index{}; while (index < _path.size()) { if (_path[index] == separator) { normalizedPath += _path[index]; do { index++; } while (_path[index] == separator); } else { normalizedPath += _path[index]; index++; } } return normalizedPath; } void ls::std::io::File::_remove(const ::std::string &_path) { #if defined(unix) || defined(__APPLE__) ls::std::io::File::_removeUnix(_path); #endif #ifdef _WIN32 ls::std::io::File::_removeWindows(_path); #endif } #if defined(unix) || defined(__APPLE__) void ls::std::io::File::_removeUnix(const ::std::string &_path) { rmdir(_path.c_str()); } #endif #ifdef _WIN32 void ls::std::io::File::_removeWindows(const ::std::string &_path) { _rmdir(_path.c_str()); } #endif bool ls::std::io::File::_renameTo(const ::std::string &_oldName, const ::std::string &_newName) { return ::std::rename(_oldName.c_str(), _newName.c_str()) == 0; } std::string ls::std::io::File::_replaceWrongSeparator(::std::string _path) { static const char unixSeparator = ls::std::io::FilePathSeparator::getUnixFilePathSeparator(); static const char windowsSeparator = ls::std::io::FilePathSeparator::getWindowsFilePathSeparator(); #if defined(unix) || defined(__APPLE__) ::std::replace(_path.begin(), _path.end(), windowsSeparator, unixSeparator); #endif #ifdef _WIN32 ::std::replace(_path.begin(), _path.end(), unixSeparator, windowsSeparator); #endif return _path; } std::vector ls::std::io::File::_splitIntoSubDirectoryNames(const ::std::string &_path) { ::std::vector<::std::string> subDirectoryNames{}; ::std::stringstream _stream{_path}; ::std::string subDirectoryName{}; const char separator = ls::std::io::FilePathSeparator::get(); while (::std::getline(_stream, subDirectoryName, separator)) { subDirectoryNames.push_back(subDirectoryName); } return subDirectoryNames; }