/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 3 of the License, or * (at your option) 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 . * */ #if defined(WIN32) #define WIN32_LEAN_AND_MEAN #include #endif #define TRANSLATIONS_DAT_VER 4 #include "common/translation.h" #include "common/config-manager.h" #include "common/file.h" #include "common/fs.h" #include "common/system.h" #include "common/textconsole.h" #include "common/unicode-bidi.h" #ifdef USE_TRANSLATION namespace Common { DECLARE_SINGLETON(MainTranslationManager); bool operator<(const TLanguage &l, const TLanguage &r) { return l.name < r.name; } TranslationManager::TranslationManager(const Common::String &fileName) : _currentLang(-1) { loadTranslationsInfoDat(fileName); // Set the default language setLanguage(""); } TranslationManager::~TranslationManager() { } int32 TranslationManager::findMatchingLanguage(const String &lang) { uint langLength = lang.size(); uint numLangs = _langs.size(); // Try to match languages of the same length or longer ones // that can be cut at the length of the given one. for (uint i = 0; i < numLangs; ++i) { uint iLength = _langs[i].size(); if (iLength >= langLength) { // Found a candidate; compare the full string by default. String cmpLang = _langs[i]; if ((iLength > langLength) && (_langs[i][langLength] == '_')) { // It has a separation mark at the length of the // requested language, so we can cut it. cmpLang = String(_langs[i].c_str(), langLength); } if (lang.equalsIgnoreCase(cmpLang)) return i; } } // Couldn't find a matching language. return -1; } void TranslationManager::setLanguage(const String &lang) { // Get lang index. int langIndex = -1; String langStr(lang); if (langStr.empty()) langStr = g_system->getSystemLanguage(); // Search for the given language or a variant of it. langIndex = findMatchingLanguage(langStr); // Try to find a partial match taking away parts of the original language. const char *lastSep; String langCut(langStr); while ((langIndex == -1) && (lastSep = strrchr(langCut.c_str(), '_'))) { langCut = String(langCut.c_str(), lastSep); langIndex = findMatchingLanguage(langCut); } // Load messages for that language. // Call it even if the index is -1 to unload previously loaded translations. if (langIndex != _currentLang) { loadLanguageDat(langIndex); _currentLang = langIndex; } } U32String TranslationManager::getTranslation(const char *message) const { return getTranslation(message, nullptr); } U32String TranslationManager::getTranslation(const char *message, const char *context) const { // If no language is set or message is empty, return msgid as is if (_currentTranslationMessages.empty() || *message == '\0') return U32String(message); // Binary-search for the msgid int leftIndex = 0; int rightIndex = _currentTranslationMessages.size() - 1; while (rightIndex >= leftIndex) { const int midIndex = (leftIndex + rightIndex) / 2; const PoMessageEntry *const m = &_currentTranslationMessages[midIndex]; int compareResult = strcmp(message, _messageIds[m->msgid].c_str()); if (compareResult == 0) { // Get the range of messages with the same ID (but different context) leftIndex = rightIndex = midIndex; while ( leftIndex > 0 && _currentTranslationMessages[leftIndex - 1].msgid == m->msgid ) { --leftIndex; } while ( rightIndex < (int)_currentTranslationMessages.size() - 1 && _currentTranslationMessages[rightIndex + 1].msgid == m->msgid ) { ++rightIndex; } // Find the context we want if (context == nullptr || *context == '\0' || leftIndex == rightIndex) return _currentTranslationMessages[leftIndex].msgstr; // We could use again binary search, but there should be only a small number of contexts. while (rightIndex > leftIndex) { compareResult = strcmp(context, _currentTranslationMessages[rightIndex].msgctxt.c_str()); if (compareResult == 0) return _currentTranslationMessages[rightIndex].msgstr; else if (compareResult > 0) break; --rightIndex; } return _currentTranslationMessages[leftIndex].msgstr; } else if (compareResult < 0) rightIndex = midIndex - 1; else leftIndex = midIndex + 1; } return U32String(message); } String TranslationManager::getCurrentLanguage() const { if (_currentLang == -1) return "en"; return _langs[_currentLang]; } bool TranslationManager::currentIsBuiltinLanguage() const { return (_currentLang == -1); } U32String TranslationManager::getTranslation(const String &message) const { return getTranslation(message.c_str()); } U32String TranslationManager::getTranslation(const String &message, const String &context) const { return getTranslation(message.c_str(), context.c_str()); } const TLangArray TranslationManager::getSupportedLanguageNames() const { TLangArray languages; for (unsigned int i = 0; i < _langNames.size(); i++) { TLanguage lng(_langNames[i], i + 1); languages.push_back(lng); } sort(languages.begin(), languages.end()); return languages; } int TranslationManager::parseLanguage(const String &lang) const { for (unsigned int i = 0; i < _langs.size(); i++) { if (lang == _langs[i]) return i + 1; } return kTranslationBuiltinId; } String TranslationManager::getLangById(int id) const { switch (id) { case kTranslationAutodetectId: return ""; case kTranslationBuiltinId: return "en"; default: if (id >= 0 && id - 1 < (int)_langs.size()) return _langs[id - 1]; } // In case an invalid ID was specified, we will output a warning // and return the same value as the auto detection id. warning("Invalid language id %d passed to TranslationManager::getLangById", id); return ""; } bool TranslationManager::openTranslationsFile(File &inFile) { // First look in the Themepath if we can find the file. if (ConfMan.hasKey("themepath") && openTranslationsFile(FSNode(ConfMan.get("themepath")), inFile)) return true; // Then try to open it using the SearchMan. ArchiveMemberList fileList; SearchMan.listMatchingMembers(fileList, _translationsFileName); for (ArchiveMemberList::iterator it = fileList.begin(); it != fileList.end(); ++it) { ArchiveMember const &m = **it; SeekableReadStream *const stream = m.createReadStream(); if (stream && inFile.open(stream, m.getName())) { if (checkHeader(inFile)) return true; inFile.close(); } } return false; } bool TranslationManager::openTranslationsFile(const FSNode &node, File &inFile, int depth) { if (!node.exists() || !node.isReadable() || !node.isDirectory()) return false; // Check if we can find the file in this directory // Since File::open(FSNode) makes all the needed tests, it is not really // necessary to make them here. But it avoid printing warnings. FSNode fileNode = node.getChild(_translationsFileName); if (fileNode.exists() && fileNode.isReadable() && !fileNode.isDirectory()) { if (inFile.open(fileNode)) { if (checkHeader(inFile)) return true; inFile.close(); } } // Check if we exceeded the given recursion depth if (depth - 1 == -1) return false; // Otherwise look for it in sub-directories FSList fileList; if (!node.getChildren(fileList, FSNode::kListDirectoriesOnly)) return false; for (FSList::iterator i = fileList.begin(); i != fileList.end(); ++i) { if (openTranslationsFile(*i, inFile, depth == -1 ? - 1 : depth - 1)) return true; } // Not found in this directory or its sub-directories return false; } void TranslationManager::loadTranslationsInfoDat(const Common::String &name) { File in; _translationsFileName = name; if (!openTranslationsFile(in)) { warning("You are missing a valid '%s' file. GUI translation will not be available", name.c_str()); return; } char buf[256]; int len; // Get number of translations int nbTranslations = in.readUint16BE(); // Skip translation description & size for the original language (english) block // Also skip size of each translation block. Each block is written in Uint32BE. for (int i = 0; i < nbTranslations + 2; i++) { in.readUint32BE(); } // Read list of languages _langs.resize(nbTranslations); _langNames.resize(nbTranslations); for (int i = 0; i < nbTranslations; ++i) { len = in.readUint16BE(); in.read(buf, len); _langs[i] = String(buf, len - 1); len = in.readUint16BE(); in.read(buf, len); _langNames[i] = String(buf, len - 1).decode(); } // Read messages int numMessages = in.readUint16BE(); _messageIds.resize(numMessages); for (int i = 0; i < numMessages; ++i) { len = in.readUint16BE(); String msg; while (len > 0) { in.read(buf, len > 256 ? 256 : len); msg += String(buf, len > 256 ? 256 : len - 1); len -= 256; } _messageIds[i] = msg; } } void TranslationManager::loadLanguageDat(int index) { _currentTranslationMessages.clear(); _currentCharset.clear(); // Sanity check if (index < 0 || index >= (int)_langs.size()) { if (index != -1) warning("Invalid language index %d passed to TranslationManager::loadLanguageDat", index); return; } File in; if (!openTranslationsFile(in)) return; char buf[1024]; int len; // Get number of translations int nbTranslations = in.readUint16BE(); if (nbTranslations != (int)_langs.size()) { warning("The 'translations.dat' file has changed since starting ScummVM. GUI translation will not be available"); return; } // Get size of blocks to skip. int skipSize = 0; // Skip translation description & size for the original language (english) block // Also skip size of each translation block. All block sizes are written in Uint32BE. for (int i = 0; i < index + 2; ++i) skipSize += in.readUint32BE(); // We also need to skip the remaining block sizes skipSize += 4 * (nbTranslations - index); // 4 because block sizes are written in Uint32BE in the .dat file. // Seek to start of block we want to read in.seek(skipSize, SEEK_CUR); // Read number of translated messages int nbMessages = in.readUint16BE(); _currentTranslationMessages.resize(nbMessages); _currentCharset = "UTF-32"; // Read messages for (int i = 0; i < nbMessages; ++i) { _currentTranslationMessages[i].msgid = in.readUint16BE(); len = in.readUint16BE(); String msg; while (len > 0) { in.read(buf, len > 256 ? 256 : len); msg += String(buf, len > 256 ? 256 : len - 1); len -= 256; } _currentTranslationMessages[i].msgstr = msg.decode(); len = in.readUint16BE(); if (len > 0) { in.read(buf, len); _currentTranslationMessages[i].msgctxt = String(buf, len - 1); } } } bool TranslationManager::checkHeader(File &in) { char buf[13]; int ver; in.read(buf, 12); buf[12] = '\0'; // Check header if (strcmp(buf, "TRANSLATIONS") != 0) { warning("File '%s' is not a valid translations data file. Skipping this file", in.getName()); return false; } // Check version ver = in.readByte(); if (ver != TRANSLATIONS_DAT_VER) { warning("File '%s' has a mismatching version, expected was %d but you got %d. Skipping this file", in.getName(), TRANSLATIONS_DAT_VER, ver); return false; } return true; } } // End of namespace Common #endif // USE_TRANSLATION