#include "Utils.hpp" #include "I18N.hpp" #include #include #include #include #ifdef WIN32 #include #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace Slic3r { static boost::log::trivial::severity_level logSeverity = boost::log::trivial::error; void set_logging_level(unsigned int level) { switch (level) { // Report fatal errors only. case 0: logSeverity = boost::log::trivial::fatal; break; // Report fatal errors and errors. case 1: logSeverity = boost::log::trivial::error; break; // Report fatal errors, errors and warnings. case 2: logSeverity = boost::log::trivial::warning; break; // Report all errors, warnings and infos. case 3: logSeverity = boost::log::trivial::info; break; // Report all errors, warnings, infos and debugging. case 4: logSeverity = boost::log::trivial::debug; break; // Report everyting including fine level tracing information. default: logSeverity = boost::log::trivial::trace; break; } boost::log::core::get()->set_filter ( boost::log::trivial::severity >= logSeverity ); } // Force set_logging_level(<=error) after loading of the DLL. // Switch boost::filesystem to utf8. static struct RunOnInit { RunOnInit() { boost::nowide::nowide_filesystem(); set_logging_level(1); } } g_RunOnInit; void trace(unsigned int level, const char *message) { boost::log::trivial::severity_level severity = boost::log::trivial::trace; switch (level) { // Report fatal errors only. case 0: severity = boost::log::trivial::fatal; break; // Report fatal errors and errors. case 1: severity = boost::log::trivial::error; break; // Report fatal errors, errors and warnings. case 2: severity = boost::log::trivial::warning; break; // Report all errors, warnings and infos. case 3: severity = boost::log::trivial::info; break; // Report all errors, warnings, infos and debugging. case 4: severity = boost::log::trivial::debug; break; // Report everyting including fine level tracing information. default: severity = boost::log::trivial::trace; break; } BOOST_LOG_STREAM_WITH_PARAMS(::boost::log::trivial::logger::get(),\ (::boost::log::keywords::severity = severity)) << message; } void disable_multi_threading() { // Disable parallelization so the Shiny profiler works static tbb::task_scheduler_init *tbb_init = nullptr; if (tbb_init == nullptr) tbb_init = new tbb::task_scheduler_init(1); } static std::string g_var_dir; void set_var_dir(const std::string &dir) { g_var_dir = dir; } const std::string& var_dir() { return g_var_dir; } std::string var(const std::string &file_name) { auto file = (boost::filesystem::path(g_var_dir) / file_name).make_preferred(); return file.string(); } static std::string g_resources_dir; void set_resources_dir(const std::string &dir) { g_resources_dir = dir; } const std::string& resources_dir() { return g_resources_dir; } static std::string g_local_dir; void set_local_dir(const std::string &dir) { g_local_dir = dir; } const std::string& localization_dir() { return g_local_dir; } // Translate function callback, to call wxWidgets translate function to convert non-localized UTF8 string to a localized one. Slic3r::I18N::translate_fn_type Slic3r::I18N::translate_fn = nullptr; static std::string g_data_dir; void set_data_dir(const std::string &dir) { g_data_dir = dir; } const std::string& data_dir() { return g_data_dir; } // borrowed from LVVM lib/Support/Windows/Path.inc int rename_file(const std::string &from, const std::string &to) { int ec = 0; #ifdef _WIN32 // Convert to utf-16. std::wstring wide_from = boost::nowide::widen(from); std::wstring wide_to = boost::nowide::widen(to); // Retry while we see recoverable errors. // System scanners (eg. indexer) might open the source file when it is written // and closed. bool TryReplace = true; // This loop may take more than 2000 x 1ms to finish. for (int i = 0; i < 2000; ++ i) { if (i > 0) // Sleep 1ms ::Sleep(1); if (TryReplace) { // Try ReplaceFile first, as it is able to associate a new data stream // with the destination even if the destination file is currently open. if (::ReplaceFileW(wide_to.data(), wide_from.data(), NULL, 0, NULL, NULL)) return 0; DWORD ReplaceError = ::GetLastError(); ec = -1; // ReplaceError // If ReplaceFileW returned ERROR_UNABLE_TO_MOVE_REPLACEMENT or // ERROR_UNABLE_TO_MOVE_REPLACEMENT_2, retry but only use MoveFileExW(). if (ReplaceError == ERROR_UNABLE_TO_MOVE_REPLACEMENT || ReplaceError == ERROR_UNABLE_TO_MOVE_REPLACEMENT_2) { TryReplace = false; continue; } // If ReplaceFileW returned ERROR_UNABLE_TO_REMOVE_REPLACED, retry // using ReplaceFileW(). if (ReplaceError == ERROR_UNABLE_TO_REMOVE_REPLACED) continue; // We get ERROR_FILE_NOT_FOUND if the destination file is missing. // MoveFileEx can handle this case. if (ReplaceError != ERROR_ACCESS_DENIED && ReplaceError != ERROR_FILE_NOT_FOUND && ReplaceError != ERROR_SHARING_VIOLATION) break; } if (::MoveFileExW(wide_from.c_str(), wide_to.c_str(), MOVEFILE_COPY_ALLOWED | MOVEFILE_REPLACE_EXISTING)) return 0; DWORD MoveError = ::GetLastError(); ec = -1; // MoveError if (MoveError != ERROR_ACCESS_DENIED && MoveError != ERROR_SHARING_VIOLATION) break; } #else boost::nowide::remove(to.c_str()); ec = boost::nowide::rename(from.c_str(), to.c_str()); #endif return ec; } int copy_file(const std::string &from, const std::string &to) { const boost::filesystem::path source(from); const boost::filesystem::path target(to); static const auto perms = boost::filesystem::owner_read | boost::filesystem::owner_write | boost::filesystem::group_read | boost::filesystem::others_read; // aka 644 // Make sure the file has correct permission both before and after we copy over it. try { if (boost::filesystem::exists(target)) boost::filesystem::permissions(target, perms); boost::filesystem::copy_file(source, target, boost::filesystem::copy_option::overwrite_if_exists); boost::filesystem::permissions(target, perms); } catch (std::exception & /* ex */) { return -1; } return 0; } } // namespace Slic3r #ifdef WIN32 #ifndef NOMINMAX # define NOMINMAX #endif #include #endif /* WIN32 */ namespace Slic3r { // Encode an UTF-8 string to the local code page. std::string encode_path(const char *src) { #ifdef WIN32 // Convert the source utf8 encoded string to a wide string. std::wstring wstr_src = boost::nowide::widen(src); if (wstr_src.length() == 0) return std::string(); // Convert a wide string to a local code page. int size_needed = ::WideCharToMultiByte(0, 0, wstr_src.data(), (int)wstr_src.size(), nullptr, 0, nullptr, nullptr); std::string str_dst(size_needed, 0); ::WideCharToMultiByte(0, 0, wstr_src.data(), (int)wstr_src.size(), const_cast(str_dst.data()), size_needed, nullptr, nullptr); return str_dst; #else /* WIN32 */ return src; #endif /* WIN32 */ } // Encode an 8-bit string from a local code page to UTF-8. std::string decode_path(const char *src) { #ifdef WIN32 int len = int(strlen(src)); if (len == 0) return std::string(); // Convert the string encoded using the local code page to a wide string. int size_needed = ::MultiByteToWideChar(0, 0, src, len, nullptr, 0); std::wstring wstr_dst(size_needed, 0); ::MultiByteToWideChar(0, 0, src, len, const_cast(wstr_dst.data()), size_needed); // Convert a wide string to utf8. return boost::nowide::narrow(wstr_dst.c_str()); #else /* WIN32 */ return src; #endif /* WIN32 */ } std::string normalize_utf8_nfc(const char *src) { static std::locale locale_utf8(boost::locale::generator().generate("")); return boost::locale::normalize(src, boost::locale::norm_nfc, locale_utf8); } namespace PerlUtils { // Get a file name including the extension. std::string path_to_filename(const char *src) { return boost::filesystem::path(src).filename().string(); } // Get a file name without the extension. std::string path_to_stem(const char *src) { return boost::filesystem::path(src).stem().string(); } // Get just the extension. std::string path_to_extension(const char *src) { return boost::filesystem::path(src).extension().string(); } // Get a directory without the trailing slash. std::string path_to_parent_path(const char *src) { return boost::filesystem::path(src).parent_path().string(); } }; std::string string_printf(const char *format, ...) { va_list args1; va_start(args1, format); va_list args2; va_copy(args2, args1); size_t needed_size = ::vsnprintf(nullptr, 0, format, args1) + 1; va_end(args1); std::string res(needed_size, '\0'); ::vsnprintf(&res.front(), res.size(), format, args2); va_end(args2); return res; } std::string timestamp_str() { const auto now = boost::posix_time::second_clock::local_time(); char buf[2048]; sprintf(buf, "on %04d-%02d-%02d at %02d:%02d:%02d", // Local date in an ANSII format. int(now.date().year()), int(now.date().month()), int(now.date().day()), int(now.time_of_day().hours()), int(now.time_of_day().minutes()), int(now.time_of_day().seconds())); return buf; } unsigned get_current_pid() { #ifdef WIN32 return GetCurrentProcessId(); #else return ::getpid(); #endif } std::string xml_escape(std::string text) { std::string::size_type pos = 0; for (;;) { pos = text.find_first_of("\"\'&<>", pos); if (pos == std::string::npos) break; std::string replacement; switch (text[pos]) { case '\"': replacement = """; break; case '\'': replacement = "'"; break; case '&': replacement = "&"; break; case '<': replacement = "<"; break; case '>': replacement = ">"; break; default: break; } text.replace(pos, 1, replacement); pos += replacement.size(); } return text; } }; // namespace Slic3r