// Copyright 2017 Dolphin Emulator Project // SPDX-License-Identifier: GPL-2.0-or-later #include "DolphinQt/Translation.h" #include #include #include #include #include #include #include #include #include "Common/FileUtil.h" #include "Common/IOFile.h" #include "Common/Logging/Log.h" #include "Common/MsgHandler.h" #include "Common/StringUtil.h" #include "Core/Config/MainSettings.h" #include "DolphinQt/QtUtils/ModalMessageBox.h" #include "UICommon/UICommon.h" constexpr u32 MO_MAGIC_NUMBER = 0x950412de; static u16 ReadU16(const char* data) { u16 value; std::memcpy(&value, data, sizeof(value)); return value; } static u32 ReadU32(const char* data) { u32 value; std::memcpy(&value, data, sizeof(value)); return value; } class MoIterator { public: using iterator_category = std::random_access_iterator_tag; using value_type = const char*; using difference_type = s64; using pointer = value_type; using reference = value_type; explicit MoIterator(const char* data, u32 table_offset, u32 index = 0) : m_data{data}, m_table_offset{table_offset}, m_index{index} { } // This is the actual underlying logic of accessing a Mo file. Patterned after the // boost::iterator_facade library, which nicely separates out application logic from // iterator-concept logic. void advance(difference_type n) { m_index += n; } difference_type distance_to(const MoIterator& other) const { return static_cast(other.m_index) - m_index; } reference dereference() const { u32 offset = ReadU32(&m_data[m_table_offset + m_index * 8 + 4]); return &m_data[offset]; } // Needed for Iterator concept reference operator*() const { return dereference(); } MoIterator& operator++() { advance(1); return *this; } // Needed for InputIterator concept bool operator==(const MoIterator& other) const { return distance_to(other) == 0; } pointer operator->() const { return dereference(); } MoIterator operator++(int) { MoIterator tmp(*this); advance(1); return tmp; } // Needed for BidirectionalIterator concept MoIterator& operator--() { advance(-1); return *this; } MoIterator operator--(int) { MoIterator tmp(*this); advance(-1); return tmp; } // Needed for RandomAccessIterator concept bool operator<(const MoIterator& other) const { return distance_to(other) > 0; } bool operator<=(const MoIterator& other) const { return distance_to(other) >= 0; } bool operator>(const MoIterator& other) const { return distance_to(other) < 0; } bool operator>=(const MoIterator& other) const { return distance_to(other) <= 0; } reference operator[](difference_type n) const { return *(*this + n); } MoIterator& operator+=(difference_type n) { advance(n); return *this; } MoIterator& operator-=(difference_type n) { advance(-n); return *this; } friend MoIterator operator+(difference_type n, const MoIterator& it) { return it + n; } friend MoIterator operator+(const MoIterator& it, difference_type n) { MoIterator tmp(it); tmp += n; return tmp; } difference_type operator-(const MoIterator& other) const { return other.distance_to(*this); } friend MoIterator operator-(difference_type n, const MoIterator& it) { return it - n; } friend MoIterator operator-(const MoIterator& it, difference_type n) { MoIterator tmp(it); tmp -= n; return tmp; } private: const char* m_data; u32 m_table_offset; u32 m_index; }; class MoFile { public: MoFile() = default; explicit MoFile(const std::string& filename) { File::IOFile file(filename, "rb"); m_data.resize(file.GetSize()); file.ReadBytes(m_data.data(), m_data.size()); if (!file) { WARN_LOG_FMT(COMMON, "Error reading MO file '{}'", filename); m_data = {}; return; } const u32 magic = ReadU32(&m_data[0]); if (magic != MO_MAGIC_NUMBER) { ERROR_LOG_FMT(COMMON, "MO file '{}' has bad magic number {:x}\n", filename, magic); m_data = {}; return; } const u16 version_major = ReadU16(&m_data[4]); if (version_major > 1) { ERROR_LOG_FMT(COMMON, "MO file '{}' has unsupported version number {}", filename, version_major); m_data = {}; return; } m_number_of_strings = ReadU32(&m_data[8]); m_offset_original_table = ReadU32(&m_data[12]); m_offset_translation_table = ReadU32(&m_data[16]); } u32 GetNumberOfStrings() const { return m_number_of_strings; } const char* Translate(const char* original_string) const { const MoIterator begin(m_data.data(), m_offset_original_table); const MoIterator end(m_data.data(), m_offset_original_table, m_number_of_strings); auto iter = std::lower_bound(begin, end, original_string, [](const char* a, const char* b) { return strcmp(a, b) < 0; }); if (iter == end || strcmp(*iter, original_string) != 0) return nullptr; u32 offset = ReadU32(&m_data[m_offset_translation_table + std::distance(begin, iter) * 8 + 4]); return &m_data[offset]; } private: std::vector m_data; u32 m_number_of_strings = 0; u32 m_offset_original_table = 0; u32 m_offset_translation_table = 0; }; class MoTranslator : public QTranslator { public: using QTranslator::QTranslator; bool isEmpty() const override { return m_mo_file.GetNumberOfStrings() == 0; } bool load(const std::string& filename) { m_mo_file = MoFile(filename); return !isEmpty(); } QString translate(const char* context, const char* source_text, const char* disambiguation = nullptr, int n = -1) const override { const char* translated_text; if (disambiguation) { std::string combined_string = disambiguation; combined_string += '\4'; combined_string += source_text; translated_text = m_mo_file.Translate(combined_string.c_str()); } else { translated_text = m_mo_file.Translate(source_text); } return QString::fromUtf8(translated_text ? translated_text : source_text); } private: MoFile m_mo_file; }; static QStringList FindPossibleLanguageCodes(const QString& exact_language_code) { QStringList possible_language_codes; possible_language_codes << exact_language_code; // Qt likes to separate language, script, and country by hyphen, but on disk they're separated by // underscores. possible_language_codes.replaceInStrings(QStringLiteral("-"), QStringLiteral("_")); // Try successively dropping subtags (like the stock QTranslator, and as specified by RFC 4647 // "Matching of Language Tags"). // Example: fr_Latn_CA -> fr_Latn -> fr for (auto lang : QStringList(possible_language_codes)) { while (lang.contains(QLatin1Char('_'))) { lang = lang.left(lang.lastIndexOf(QLatin1Char('_'))); possible_language_codes << lang; } } // On macOS, Chinese (Simplified) and Chinese (Traditional) are represented as zh-Hans and // zh-Hant, but on Linux they're represented as zh-CN and zh-TW. Qt should probably include the // script subtags on Linux, but it doesn't. const int hans_index = possible_language_codes.indexOf(QStringLiteral("zh_Hans")); if (hans_index != -1) possible_language_codes.insert(hans_index + 1, QStringLiteral("zh_CN")); const int hant_index = possible_language_codes.indexOf(QStringLiteral("zh_Hant")); if (hant_index != -1) possible_language_codes.insert(hant_index + 1, QStringLiteral("zh_TW")); return possible_language_codes; } static bool TryInstallTranslator(const QString& exact_language_code) { for (const auto& qlang : FindPossibleLanguageCodes(exact_language_code)) { std::string lang = qlang.toStdString(); auto filename = #if defined _WIN32 fmt::format("{}/Languages/{}.mo", File::GetExeDirectory(), lang) #elif defined __APPLE__ fmt::format("{}/Contents/Resources/{}.lproj/dolphin-emu.mo", File::GetBundleDirectory(), lang) #elif defined LINUX_LOCAL_DEV fmt::format("{}/../Source/Core/DolphinQt/{}/dolphin-emu.mo", File::GetExeDirectory(), lang) #else fmt::format("{}/../locale/{}/LC_MESSAGES/dolphin-emu.mo", DATA_DIR, lang) #endif ; auto* translator = new MoTranslator(QApplication::instance()); if (translator->load(filename)) { QApplication::instance()->installTranslator(translator); QLocale::setDefault(QLocale(exact_language_code)); UICommon::SetLocale(exact_language_code.toStdString()); return true; } translator->deleteLater(); } ERROR_LOG_FMT(COMMON, "No suitable translation file found"); return false; } void Translation::Initialize() { // Hook up Dolphin internal translation Common::RegisterStringTranslator( [](const char* text) { return QObject::tr(text).toStdString(); }); // Hook up Qt translations std::string configured_language = Config::Get(Config::MAIN_INTERFACE_LANGUAGE); if (!configured_language.empty()) { if (TryInstallTranslator(QString::fromStdString(configured_language))) return; ModalMessageBox::warning( nullptr, QObject::tr("Error"), QObject::tr("Error loading selected language. Falling back to system default.")); Config::SetBase(Config::MAIN_INTERFACE_LANGUAGE, ""); } for (const auto& lang : QLocale::system().uiLanguages()) { if (TryInstallTranslator(lang)) break; } }