#pragma once #include #include #include #include #include #include #include #if defined(PLATFORM_WINDOWS) #include #else #include #include #include #endif namespace nall { struct directory : inode { directory() = delete; static auto copy(const string& source, const string& target) -> bool; //recursive static auto create(const string& pathname, uint permissions = 0755) -> bool; //recursive static auto remove(const string& pathname) -> bool; //recursive static auto exists(const string& pathname) -> bool; static auto folders(const string& pathname, const string& pattern = "*") -> vector { auto folders = directory::ufolders(pathname, pattern); folders.sort(); for(auto& folder : folders) folder.append("/"); //must append after sorting return folders; } static auto files(const string& pathname, const string& pattern = "*") -> vector { auto files = directory::ufiles(pathname, pattern); files.sort(); return files; } static auto contents(const string& pathname, const string& pattern = "*") -> vector { auto folders = directory::ufolders(pathname); //pattern search of contents should only filter files folders.sort(); for(auto& folder : folders) folder.append("/"); //must append after sorting auto files = directory::ufiles(pathname, pattern); files.sort(); for(auto& file : files) folders.append(file); return folders; } static auto ifolders(const string& pathname, const string& pattern = "*") -> vector { auto folders = ufolders(pathname, pattern); folders.isort(); for(auto& folder : folders) folder.append("/"); //must append after sorting return folders; } static auto ifiles(const string& pathname, const string& pattern = "*") -> vector { auto files = ufiles(pathname, pattern); files.isort(); return files; } static auto icontents(const string& pathname, const string& pattern = "*") -> vector { auto folders = directory::ufolders(pathname); //pattern search of contents should only filter files folders.isort(); for(auto& folder : folders) folder.append("/"); //must append after sorting auto files = directory::ufiles(pathname, pattern); files.isort(); for(auto& file : files) folders.append(file); return folders; } static auto rcontents(const string& pathname, const string& pattern = "*") -> vector { vector contents; function recurse = [&](const string& basename, const string& pathname, const string& pattern) { for(auto& folder : directory::ufolders(pathname)) { contents.append(string{pathname, folder, "/"}.trimLeft(basename, 1L)); recurse(basename, {pathname, folder, "/"}, pattern); } for(auto& file : directory::ufiles(pathname, pattern)) { contents.append(string{pathname, file}.trimLeft(basename, 1L)); } }; for(auto& folder : directory::ufolders(pathname)) { contents.append({folder, "/"}); recurse(pathname, {pathname, folder, "/"}, pattern); } for(auto& file : directory::ufiles(pathname, pattern)) { contents.append(file); } contents.sort(); return contents; } static auto ircontents(const string& pathname, const string& pattern = "*") -> vector { vector contents; function recurse = [&](const string& basename, const string& pathname, const string& pattern) { for(auto& folder : directory::ufolders(pathname)) { contents.append(string{pathname, folder, "/"}.trimLeft(basename, 1L)); recurse(basename, {pathname, folder, "/"}, pattern); } for(auto& file : directory::ufiles(pathname, pattern)) { contents.append(string{pathname, file}.trimLeft(basename, 1L)); } }; for(auto& folder : directory::ufolders(pathname)) { contents.append({folder, "/"}); recurse(pathname, {pathname, folder, "/"}, pattern); } for(auto& file : directory::ufiles(pathname, pattern)) { contents.append(file); } contents.isort(); return contents; } static auto rfolders(const string& pathname, const string& pattern = "*") -> vector { vector folders; for(auto& folder : rcontents(pathname, pattern)) { if(directory::exists({pathname, folder})) folders.append(folder); } return folders; } static auto irfolders(const string& pathname, const string& pattern = "*") -> vector { vector folders; for(auto& folder : ircontents(pathname, pattern)) { if(directory::exists({pathname, folder})) folders.append(folder); } return folders; } static auto rfiles(const string& pathname, const string& pattern = "*") -> vector { vector files; for(auto& file : rcontents(pathname, pattern)) { if(file::exists({pathname, file})) files.append(file); } return files; } static auto irfiles(const string& pathname, const string& pattern = "*") -> vector { vector files; for(auto& file : ircontents(pathname, pattern)) { if(file::exists({pathname, file})) files.append(file); } return files; } private: //internal functions; these return unsorted lists static auto ufolders(const string& pathname, const string& pattern = "*") -> vector; static auto ufiles(const string& pathname, const string& pattern = "*") -> vector; }; inline auto directory::copy(const string& source, const string& target) -> bool { bool result = true; if(!directory::create(target)) return result = false; for(auto& name : directory::folders(source)) { if(!directory::copy({source, name}, {target, name})) result = false; } for(auto& name : directory::files(source)) { if(!file::copy({source, name}, {target, name})) result = false; } return result; } #if defined(PLATFORM_WINDOWS) inline auto directory::create(const string& pathname, uint permissions) -> bool { string path; auto list = string{pathname}.transform("\\", "/").trimRight("/").split("/"); bool result = true; for(auto& part : list) { path.append(part, "/"); if(directory::exists(path)) continue; result &= (_wmkdir(utf16_t(path)) == 0); } return result; } inline auto directory::remove(const string& pathname) -> bool { auto list = directory::contents(pathname); for(auto& name : list) { if(name.endsWith("/")) directory::remove({pathname, name}); else file::remove({pathname, name}); } return _wrmdir(utf16_t(pathname)) == 0; } inline auto directory::exists(const string& pathname) -> bool { string name = pathname; name.trim("\"", "\""); DWORD result = GetFileAttributes(utf16_t(name)); if(result == INVALID_FILE_ATTRIBUTES) return false; return (result & FILE_ATTRIBUTE_DIRECTORY); } inline auto directory::ufolders(const string& pathname, const string& pattern) -> vector { if(!pathname) { //special root pseudo-folder (return list of drives) wchar_t drives[PATH_MAX] = {0}; GetLogicalDriveStrings(PATH_MAX, drives); wchar_t* p = drives; while(*p || *(p + 1)) { if(!*p) *p = ';'; *p++; } return string{(const char*)utf8_t(drives)}.replace("\\", "/").split(";"); } vector list; string path = pathname; path.transform("/", "\\"); if(!path.endsWith("\\")) path.append("\\"); path.append("*"); HANDLE handle; WIN32_FIND_DATA data; handle = FindFirstFile(utf16_t(path), &data); if(handle != INVALID_HANDLE_VALUE) { if(wcscmp(data.cFileName, L".") && wcscmp(data.cFileName, L"..")) { if(data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { string name = (const char*)utf8_t(data.cFileName); if(name.match(pattern)) list.append(name); } } while(FindNextFile(handle, &data) != false) { if(wcscmp(data.cFileName, L".") && wcscmp(data.cFileName, L"..")) { if(data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { string name = (const char*)utf8_t(data.cFileName); if(name.match(pattern)) list.append(name); } } } FindClose(handle); } return list; } inline auto directory::ufiles(const string& pathname, const string& pattern) -> vector { if(!pathname) return {}; vector list; string path = pathname; path.transform("/", "\\"); if(!path.endsWith("\\")) path.append("\\"); path.append("*"); HANDLE handle; WIN32_FIND_DATA data; handle = FindFirstFile(utf16_t(path), &data); if(handle != INVALID_HANDLE_VALUE) { if((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) { string name = (const char*)utf8_t(data.cFileName); if(name.match(pattern)) list.append(name); } while(FindNextFile(handle, &data) != false) { if((data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) { string name = (const char*)utf8_t(data.cFileName); if(name.match(pattern)) list.append(name); } } FindClose(handle); } return list; } #else inline auto directoryIsFolder(DIR* dp, struct dirent* ep) -> bool { if(ep->d_type == DT_DIR) return true; if(ep->d_type == DT_LNK || ep->d_type == DT_UNKNOWN) { //symbolic links must be resolved to determine type struct stat sp = {0}; fstatat(dirfd(dp), ep->d_name, &sp, 0); return S_ISDIR(sp.st_mode); } return false; } inline auto directory::create(const string& pathname, uint permissions) -> bool { string path; auto list = string{pathname}.trimRight("/").split("/"); bool result = true; for(auto& part : list) { path.append(part, "/"); if(directory::exists(path)) continue; result &= (mkdir(path, permissions) == 0); } return result; } inline auto directory::remove(const string& pathname) -> bool { auto list = directory::contents(pathname); for(auto& name : list) { if(name.endsWith("/")) directory::remove({pathname, name}); else file::remove({pathname, name}); } return rmdir(pathname) == 0; } inline auto directory::exists(const string& pathname) -> bool { struct stat data; if(stat(pathname, &data) != 0) return false; return S_ISDIR(data.st_mode); } inline auto directory::ufolders(const string& pathname, const string& pattern) -> vector { if(!pathname) return vector{"/"}; vector list; DIR* dp; struct dirent* ep; dp = opendir(pathname); if(dp) { while(ep = readdir(dp)) { if(!strcmp(ep->d_name, ".")) continue; if(!strcmp(ep->d_name, "..")) continue; if(!directoryIsFolder(dp, ep)) continue; string name{ep->d_name}; if(name.match(pattern)) list.append(std::move(name)); } closedir(dp); } return list; } inline auto directory::ufiles(const string& pathname, const string& pattern) -> vector { if(!pathname) return {}; vector list; DIR* dp; struct dirent* ep; dp = opendir(pathname); if(dp) { while(ep = readdir(dp)) { if(!strcmp(ep->d_name, ".")) continue; if(!strcmp(ep->d_name, "..")) continue; if(directoryIsFolder(dp, ep)) continue; string name{ep->d_name}; if(name.match(pattern)) list.append(std::move(name)); } closedir(dp); } return list; } #endif }