/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include "qtranslator.h" #ifndef QT_NO_TRANSLATION #include "qfileinfo.h" #include "qstring.h" #include "qcoreapplication.h" #include "qcoreapplication_p.h" #include "qdatastream.h" #include "qfile.h" #include "qmap.h" #include "qalgorithms.h" #include "qhash.h" #include "qtranslator_p.h" #if defined(Q_OS_UNIX) && !defined(Q_OS_SYMBIAN) #define QT_USE_MMAP #include "private/qcore_unix_p.h" #endif // most of the headers below are already included in qplatformdefs.h // also this lacks Large File support but that's probably irrelevant #if defined(QT_USE_MMAP) // for mmap #include #include #endif #include #include "qobject_p.h" QT_BEGIN_NAMESPACE enum Tag { Tag_End = 1, Tag_SourceText16, Tag_Translation, Tag_Context16, Tag_Obsolete1, Tag_SourceText, Tag_Context, Tag_Comment, Tag_Obsolete2 }; /* $ mcookie 3cb86418caef9c95cd211cbf60a1bddd $ */ // magic number for the file static const int MagicLength = 16; static const uchar magic[MagicLength] = { 0x3c, 0xb8, 0x64, 0x18, 0xca, 0xef, 0x9c, 0x95, 0xcd, 0x21, 0x1c, 0xbf, 0x60, 0xa1, 0xbd, 0xdd }; static bool match(const uchar* found, const char* target, uint len) { // catch the case if \a found has a zero-terminating symbol and \a len includes it. // (normalize it to be without the zero-terminating symbol) if (len > 0 && found[len-1] == '\0') --len; return (memcmp(found, target, len) == 0 && target[len] == '\0'); } static uint elfHash(const char *name) { const uchar *k; uint h = 0; uint g; if (name) { k = (const uchar *) name; while (*k) { h = (h << 4) + *k++; if ((g = (h & 0xf0000000)) != 0) h ^= g >> 24; h &= ~g; } } if (!h) h = 1; return h; } static int numerusHelper(int n, const uchar *rules, int rulesSize) { #define CHECK_RANGE \ do { \ if (i >= rulesSize) \ return -1; \ } while (0) int result = 0; int i = 0; if (rulesSize == 0) return 0; for (;;) { bool orExprTruthValue = false; for (;;) { bool andExprTruthValue = true; for (;;) { bool truthValue = true; CHECK_RANGE; int opcode = rules[i++]; int leftOperand = n; if (opcode & Q_MOD_10) { leftOperand %= 10; } else if (opcode & Q_MOD_100) { leftOperand %= 100; } else if (opcode & Q_LEAD_1000) { while (leftOperand >= 1000) leftOperand /= 1000; } int op = opcode & Q_OP_MASK; CHECK_RANGE; int rightOperand = rules[i++]; switch (op) { default: return -1; case Q_EQ: truthValue = (leftOperand == rightOperand); break; case Q_LT: truthValue = (leftOperand < rightOperand); break; case Q_LEQ: truthValue = (leftOperand <= rightOperand); break; case Q_BETWEEN: int bottom = rightOperand; CHECK_RANGE; int top = rules[i++]; truthValue = (leftOperand >= bottom && leftOperand <= top); } if (opcode & Q_NOT) truthValue = !truthValue; andExprTruthValue = andExprTruthValue && truthValue; if (i == rulesSize || rules[i] != Q_AND) break; ++i; } orExprTruthValue = orExprTruthValue || andExprTruthValue; if (i == rulesSize || rules[i] != Q_OR) break; ++i; } if (orExprTruthValue) return result; ++result; if (i == rulesSize) return result; if (rules[i++] != Q_NEWRULE) break; } return -1; } class QTranslatorPrivate : public QObjectPrivate { Q_DECLARE_PUBLIC(QTranslator) public: enum { Contexts = 0x2f, Hashes = 0x42, Messages = 0x69, NumerusRules = 0x88 }; QTranslatorPrivate() : used_mmap(0), unmapPointer(0), unmapLength(0), messageArray(0), offsetArray(0), contextArray(0), numerusRulesArray(0), messageLength(0), offsetLength(0), contextLength(0), numerusRulesLength(0) {} // for mmap'ed files, this is what needs to be unmapped. bool used_mmap : 1; char *unmapPointer; unsigned int unmapLength; // for squeezed but non-file data, this is what needs to be deleted const uchar *messageArray; const uchar *offsetArray; const uchar *contextArray; const uchar *numerusRulesArray; uint messageLength; uint offsetLength; uint contextLength; uint numerusRulesLength; bool do_load(const uchar *data, int len); QString do_translate(const char *context, const char *sourceText, const char *comment, int n) const; void clear(); }; /*! \class QTranslator \brief The QTranslator class provides internationalization support for text output. \ingroup i18n An object of this class contains a set of translations from a source language to a target language. QTranslator provides functions to look up translations in a translation file. Translation files are created using \l{Qt Linguist}. The most common use of QTranslator is to: load a translation file, install it using QApplication::installTranslator(), and use it via QObject::tr(). Here's the \c main() function from the \l{linguist/hellotr}{Hello tr()} example: \snippet examples/linguist/hellotr/main.cpp 2 Note that the translator must be created \e before the application's widgets. Most applications will never need to do anything else with this class. The other functions provided by this class are useful for applications that work on translator files. \section1 Looking up Translations It is possible to look up a translation using translate() (as tr() and QApplication::translate() do). The translate() function takes up to three parameters: \list \o The \e context - usually the class name for the tr() caller. \o The \e {source text} - usually the argument to tr(). \o The \e disambiguation - an optional string that helps disambiguate different uses of the same text in the same context. \endlist For example, the "Cancel" in a dialog might have "Anuluj" when the program runs in Polish (in this case the source text would be "Cancel"). The context would (normally) be the dialog's class name; there would normally be no comment, and the translated text would be "Anuluj". But it's not always so simple. The Spanish version of a printer dialog with settings for two-sided printing and binding would probably require both "Activado" and "Activada" as translations for "Enabled". In this case the source text would be "Enabled" in both cases, and the context would be the dialog's class name, but the two items would have disambiguations such as "two-sided printing" for one and "binding" for the other. The disambiguation enables the translator to choose the appropriate gender for the Spanish version, and enables Qt to distinguish between translations. \section1 Using Multiple Translations Multiple translation files can be installed in an application. Translations are searched for in the reverse order in which they were installed, so the most recently installed translation file is searched for translations first and the earliest translation file is searched last. The search stops as soon as a translation containing a matching string is found. This mechanism makes it possible for a specific translation to be "selected" or given priority over the others; simply uninstall the translator from the application by passing it to the QApplication::removeTranslator() function and reinstall it with QApplication::installTranslator(). It will then be the first translation to be searched for matching strings. \sa QApplication::installTranslator(), QApplication::removeTranslator(), QObject::tr(), QApplication::translate(), {I18N Example}, {Hello tr() Example}, {Arrow Pad Example}, {Troll Print Example} */ /*! Constructs an empty message file object with parent \a parent that is not connected to any file. */ QTranslator::QTranslator(QObject * parent) : QObject(*new QTranslatorPrivate, parent) { } #ifdef QT3_SUPPORT /*! \overload QTranslator() \obsolete */ QTranslator::QTranslator(QObject * parent, const char * name) : QObject(*new QTranslatorPrivate, parent) { setObjectName(QString::fromAscii(name)); } #endif /*! Destroys the object and frees any allocated resources. */ QTranslator::~QTranslator() { if (QCoreApplication::instance()) QCoreApplication::removeTranslator(this); Q_D(QTranslator); d->clear(); } /*! Loads \a filename + \a suffix (".qm" if the \a suffix is not specified), which may be an absolute file name or relative to \a directory. Returns true if the translation is successfully loaded; otherwise returns false. The previous contents of this translator object are discarded. If the file name does not exist, other file names are tried in the following order: \list 1 \o File name without \a suffix appended. \o File name with text after a character in \a search_delimiters stripped ("_." is the default for \a search_delimiters if it is an empty string) and \a suffix. \o File name stripped without \a suffix appended. \o File name stripped further, etc. \endlist For example, an application running in the fr_CA locale (French-speaking Canada) might call load("foo.fr_ca", "/opt/foolib"). load() would then try to open the first existing readable file from this list: \list 1 \o \c /opt/foolib/foo.fr_ca.qm \o \c /opt/foolib/foo.fr_ca \o \c /opt/foolib/foo.fr.qm \o \c /opt/foolib/foo.fr \o \c /opt/foolib/foo.qm \o \c /opt/foolib/foo \endlist */ bool QTranslator::load(const QString & filename, const QString & directory, const QString & search_delimiters, const QString & suffix) { Q_D(QTranslator); d->clear(); QString prefix; if (QFileInfo(filename).isRelative()) { prefix = directory; if (prefix.length() && !prefix.endsWith(QLatin1Char('/'))) prefix += QLatin1Char('/'); } QString fname = filename; QString realname; QString delims; delims = search_delimiters.isNull() ? QString::fromLatin1("_.") : search_delimiters; for (;;) { QFileInfo fi; realname = prefix + fname + (suffix.isNull() ? QString::fromLatin1(".qm") : suffix); fi.setFile(realname); if (fi.isReadable() && fi.isFile()) break; realname = prefix + fname; fi.setFile(realname); if (fi.isReadable() && fi.isFile()) break; int rightmost = 0; for (int i = 0; i < (int)delims.length(); i++) { int k = fname.lastIndexOf(delims[i]); if (k > rightmost) rightmost = k; } // no truncations? fail if (rightmost == 0) return false; fname.truncate(rightmost); } // realname is now the fully qualified name of a readable file. bool ok = false; #ifdef QT_USE_MMAP #ifndef MAP_FILE #define MAP_FILE 0 #endif #ifndef MAP_FAILED #define MAP_FAILED -1 #endif int fd = -1; if (!realname.startsWith(QLatin1Char(':'))) fd = QT_OPEN(QFile::encodeName(realname), O_RDONLY, #if defined(Q_OS_WIN) _S_IREAD | _S_IWRITE #else 0666 #endif ); if (fd >= 0) { QT_STATBUF st; if (!QT_FSTAT(fd, &st)) { char *ptr; ptr = reinterpret_cast( mmap(0, st.st_size, // any address, whole file PROT_READ, // read-only memory MAP_FILE | MAP_PRIVATE, // swap-backed map from file fd, 0)); // from offset 0 of fd if (ptr && ptr != reinterpret_cast(MAP_FAILED)) { d->used_mmap = true; d->unmapPointer = ptr; d->unmapLength = st.st_size; ok = true; } } ::close(fd); } #endif // QT_USE_MMAP if (!ok) { QFile file(realname); d->unmapLength = file.size(); if (!d->unmapLength) return false; d->unmapPointer = new char[d->unmapLength]; if (file.open(QIODevice::ReadOnly)) ok = (d->unmapLength == (uint)file.read(d->unmapPointer, d->unmapLength)); if (!ok) { delete [] d->unmapPointer; d->unmapPointer = 0; d->unmapLength = 0; return false; } } return d->do_load(reinterpret_cast(d->unmapPointer), d->unmapLength); } /*! \overload load() \fn bool QTranslator::load(const uchar *data, int len) Loads the QM file data \a data of length \a len into the translator. The data is not copied. The caller must be able to guarantee that \a data will not be deleted or modified. */ bool QTranslator::load(const uchar *data, int len) { Q_D(QTranslator); d->clear(); return d->do_load(data, len); } static quint8 read8(const uchar *data) { return *data; } static quint16 read16(const uchar *data) { return (data[0] << 8) | (data[1]); } static quint32 read32(const uchar *data) { return (data[0] << 24) | (data[1] << 16) | (data[2] << 8) | (data[3]); } bool QTranslatorPrivate::do_load(const uchar *data, int len) { if (!data || len < MagicLength || memcmp(data, magic, MagicLength)) return false; bool ok = true; const uchar *end = data + len; data += MagicLength; while (data < end - 4) { quint8 tag = read8(data++); quint32 blockLen = read32(data); data += 4; if (!tag || !blockLen) break; if (data + blockLen > end) { ok = false; break; } if (tag == QTranslatorPrivate::Contexts) { contextArray = data; contextLength = blockLen; } else if (tag == QTranslatorPrivate::Hashes) { offsetArray = data; offsetLength = blockLen; } else if (tag == QTranslatorPrivate::Messages) { messageArray = data; messageLength = blockLen; } else if (tag == QTranslatorPrivate::NumerusRules) { numerusRulesArray = data; numerusRulesLength = blockLen; } data += blockLen; } return ok; } static QString getMessage(const uchar *m, const uchar *end, const char *context, const char *sourceText, const char *comment, int numerus) { const uchar *tn = 0; uint tn_length = 0; int currentNumerus = -1; for (;;) { uchar tag = 0; if (m < end) tag = read8(m++); switch((Tag)tag) { case Tag_End: goto end; case Tag_Translation: { int len = read32(m); if (len % 1) return QString(); m += 4; if (++currentNumerus == numerus) { tn_length = len; tn = m; } m += len; break; } case Tag_Obsolete1: m += 4; break; case Tag_SourceText: { quint32 len = read32(m); m += 4; if (!match(m, sourceText, len)) return QString(); m += len; } break; case Tag_Context: { quint32 len = read32(m); m += 4; if (!match(m, context, len)) return QString(); m += len; } break; case Tag_Comment: { quint32 len = read32(m); m += 4; if (*m && !match(m, comment, len)) return QString(); m += len; } break; default: return QString(); } } end: if (!tn) return QString(); QString str = QString((const QChar *)tn, tn_length/2); if (QSysInfo::ByteOrder == QSysInfo::LittleEndian) { for (int i = 0; i < str.length(); ++i) str[i] = QChar((str.at(i).unicode() >> 8) + ((str.at(i).unicode() << 8) & 0xff00)); } return str; } QString QTranslatorPrivate::do_translate(const char *context, const char *sourceText, const char *comment, int n) const { if (context == 0) context = ""; if (sourceText == 0) sourceText = ""; if (comment == 0) comment = ""; if (!offsetLength) return QString(); /* Check if the context belongs to this QTranslator. If many translators are installed, this step is necessary. */ if (contextLength) { quint16 hTableSize = read16(contextArray); uint g = elfHash(context) % hTableSize; const uchar *c = contextArray + 2 + (g << 1); quint16 off = read16(c); c += 2; if (off == 0) return QString(); c = contextArray + (2 + (hTableSize << 1) + (off << 1)); for (;;) { quint8 len = read8(c++); if (len == 0) return QString(); if (match(c, context, len)) break; c += len; } } size_t numItems = offsetLength / (2 * sizeof(quint32)); if (!numItems) return QString(); int numerus = 0; if (n >= 0) numerus = numerusHelper(n, numerusRulesArray, numerusRulesLength); for (;;) { quint32 h = elfHash(QByteArray(sourceText) + comment); const uchar *start = offsetArray; const uchar *end = start + ((numItems-1) << 3); while (start <= end) { const uchar *middle = start + (((end - start) >> 4) << 3); uint hash = read32(middle); if (h == hash) { start = middle; break; } else if (hash < h) { start = middle + 8; } else { end = middle - 8; } } if (start <= end) { // go back on equal key while (start != offsetArray && read32(start) == read32(start-8)) start -= 8; while (start < offsetArray + offsetLength) { quint32 rh = read32(start); start += 4; if (rh != h) break; quint32 ro = read32(start); start += 4; QString tn = getMessage(messageArray + ro, messageArray + messageLength, context, sourceText, comment, numerus); if (!tn.isNull()) return tn; } } if (!comment[0]) break; comment = ""; } return QString(); } /*! Empties this translator of all contents. This function works with stripped translator files. */ void QTranslatorPrivate::clear() { Q_Q(QTranslator); if (unmapPointer && unmapLength) { #if defined(QT_USE_MMAP) if (used_mmap) munmap(unmapPointer, unmapLength); else #endif delete [] unmapPointer; } unmapPointer = 0; unmapLength = 0; messageArray = 0; contextArray = 0; offsetArray = 0; numerusRulesArray = 0; messageLength = 0; contextLength = 0; offsetLength = 0; numerusRulesLength = 0; if (QCoreApplicationPrivate::isTranslatorInstalled(q)) QCoreApplication::postEvent(QCoreApplication::instance(), new QEvent(QEvent::LanguageChange)); } /*! Returns the translation for the key (\a context, \a sourceText, \a disambiguation). If none is found, also tries (\a context, \a sourceText, ""). If that still fails, returns an empty string. If you need to programatically insert translations in to a QTranslator, this function can be reimplemented. \sa load() */ QString QTranslator::translate(const char *context, const char *sourceText, const char *disambiguation) const { Q_D(const QTranslator); return d->do_translate(context, sourceText, disambiguation, -1); } /*! \overload translate() Returns the translation for the key (\a context, \a sourceText, \a disambiguation). If none is found, also tries (\a context, \a sourceText, ""). If that still fails, returns an empty string. If \a n is not -1, it is used to choose an appropriate form for the translation (e.g. "%n file found" vs. "%n files found"). \sa load() */ QString QTranslator::translate(const char *context, const char *sourceText, const char *disambiguation, int n) const { Q_D(const QTranslator); // this step is necessary because the 3-parameter translate() overload is virtual if (n == -1) return translate(context, sourceText, disambiguation); return d->do_translate(context, sourceText, disambiguation, n); } /*! Returns true if this translator is empty, otherwise returns false. This function works with stripped and unstripped translation files. */ bool QTranslator::isEmpty() const { Q_D(const QTranslator); return !d->unmapPointer && !d->unmapLength && !d->messageArray && !d->offsetArray && !d->contextArray; } /*! \fn QString QTranslator::find(const char *context, const char *sourceText, const char * comment = 0) const Use translate(\a context, \a sourceText, \a comment) instead. */ QT_END_NAMESPACE #endif // QT_NO_TRANSLATION