/**************************************************************************** ** ** Copyright (C) 2013 John Layt ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qtimezone.h" #include "qtimezoneprivate_p.h" #include #include #include #include QT_BEGIN_NAMESPACE // Create default time zone using appropriate backend static QTimeZonePrivate *newBackendTimeZone() { #ifdef QT_NO_SYSTEMLOCALE #if QT_CONFIG(icu) return new QIcuTimeZonePrivate(); #else return new QUtcTimeZonePrivate(); #endif #else #if defined Q_OS_MAC return new QMacTimeZonePrivate(); #elif defined Q_OS_ANDROID return new QAndroidTimeZonePrivate(); #elif defined Q_OS_UNIX return new QTzTimeZonePrivate(); // Registry based timezone backend not available on WinRT #elif defined Q_OS_WIN return new QWinTimeZonePrivate(); #elif QT_CONFIG(icu) return new QIcuTimeZonePrivate(); #else return new QUtcTimeZonePrivate(); #endif // System Locales #endif // QT_NO_SYSTEMLOCALE } // Create named time zone using appropriate backend static QTimeZonePrivate *newBackendTimeZone(const QByteArray &ianaId) { #ifdef QT_NO_SYSTEMLOCALE #if QT_CONFIG(icu) return new QIcuTimeZonePrivate(ianaId); #else return new QUtcTimeZonePrivate(ianaId); #endif #else #if defined Q_OS_MAC return new QMacTimeZonePrivate(ianaId); #elif defined Q_OS_ANDROID return new QAndroidTimeZonePrivate(ianaId); #elif defined Q_OS_UNIX return new QTzTimeZonePrivate(ianaId); // Registry based timezone backend not available on WinRT #elif defined Q_OS_WIN return new QWinTimeZonePrivate(ianaId); #elif QT_CONFIG(icu) return new QIcuTimeZonePrivate(ianaId); #else return new QUtcTimeZonePrivate(ianaId); #endif // System Locales #endif // QT_NO_SYSTEMLOCALE } class QTimeZoneSingleton { public: QTimeZoneSingleton() : backend(newBackendTimeZone()) {} // The backend_tz is the tz to use in static methods such as availableTimeZoneIds() and // isTimeZoneIdAvailable() and to create named IANA time zones. This is usually the host // system, but may be different if the host resources are insufficient or if // QT_NO_SYSTEMLOCALE is set. A simple UTC backend is used if no alternative is available. QSharedDataPointer backend; }; Q_GLOBAL_STATIC(QTimeZoneSingleton, global_tz); /*! \class QTimeZone \inmodule QtCore \since 5.2 \brief The QTimeZone class converts between UTC and local time in a specific time zone. \threadsafe This class provides a stateless calculator for time zone conversions between UTC and the local time in a specific time zone. By default it uses the host system time zone data to perform these conversions. This class is primarily designed for use in QDateTime; most applications will not need to access this class directly and should instead use QDateTime with a Qt::TimeSpec of Qt::TimeZone. \note For consistency with QDateTime, QTimeZone does not account for leap seconds. \section1 \section2 IANA Time Zone IDs QTimeZone uses the IANA time zone IDs as defined in the IANA Time Zone Database (http://www.iana.org/time-zones). This is to ensure a standard ID across all supported platforms. Most platforms support the IANA IDs and the IANA Database natively, but for Windows a mapping is required to the native IDs. See below for more details. The IANA IDs can and do change on a regular basis, and can vary depending on how recently the host system data was updated. As such you cannot rely on any given ID existing on any host system. You must use availableTimeZoneIds() to determine what IANA IDs are available. The IANA IDs and database are also know as the Olson IDs and database, named after their creator. \section2 UTC Offset Time Zones A default UTC time zone backend is provided which is always guaranteed to be available. This provides a set of generic Offset From UTC time zones in the range UTC-14:00 to UTC+14:00. These time zones can be created using either the standard ISO format names "UTC+00:00" as listed by availableTimeZoneIds(), or using the number of offset seconds. \section2 Windows Time Zones Windows native time zone support is severely limited compared to the standard IANA TZ Database. Windows time zones cover larger geographic areas and are thus less accurate in their conversions. They also do not support as much historic conversion data and so may only be accurate for the current year. QTimeZone uses a conversion table derived form the Unicode CLDR data to map between IANA IDs and Windows IDs. Depending on your version of Windows and Qt, this table may not be able to provide a valid conversion, in which "UTC" will be returned. QTimeZone provides a public API to use this conversion table. The Windows ID used is the Windows Registry Key for the time zone which is also the MS Exchange EWS ID as well, but is different to the Time Zone Name (TZID) and COD code used by MS Exchange in versions before 2007. \section2 System Time Zone QTimeZone does not support any concept of a system or default time zone. If you require a QDateTime that uses the current system time zone at any given moment then you should use a Qt::TimeSpec of Qt::LocalTime. The method systemTimeZoneId() returns the current system IANA time zone ID which on Unix-like systems will always be correct. On Windows this ID is translated from the Windows system ID using an internal translation table and the user's selected country. As a consequence there is a small chance any Windows install may have IDs not known by Qt, in which case "UTC" will be returned. Creating a new QTimeZone instance using the system time zone ID will only produce a fixed named copy of the time zone, it will not change if the system time zone changes. \section2 Time Zone Offsets The difference between UTC and the local time in a time zone is expressed as an offset in seconds from UTC, i.e. the number of seconds to add to UTC to obtain the local time. The total offset is comprised of two component parts, the standard time offset and the daylight-saving time offset. The standard time offset is the number of seconds to add to UTC to obtain standard time in the time zone. The daylight-saving time offset is the number of seconds to add to the standard time offset to obtain daylight-saving time (abbreviated DST and sometimes called "daylight time" or "summer time") in the time zone. Note that the standard and DST offsets for a time zone may change over time as countries have changed DST laws or even their standard time offset. \section2 License This class includes data obtained from the CLDR data files under the terms of the Unicode Data Files and Software License. See \l{Unicode CLDR (Unicode Common Locale Data Repository)} for the details. \sa QDateTime */ /*! \enum QTimeZone::TimeType The type of time zone time, for example when requesting the name. In time zones that do not apply DST, all three values may return the same result. \value StandardTime The standard time in a time zone, i.e. when Daylight-Saving is not in effect. For example when formatting a display name this will show something like "Pacific Standard Time". \value DaylightTime A time when Daylight-Saving is in effect. For example when formatting a display name this will show something like "Pacific daylight-saving time". \value GenericTime A time which is not specifically Standard or Daylight-Saving time, either an unknown time or a neutral form. For example when formatting a display name this will show something like "Pacific Time". */ /*! \enum QTimeZone::NameType The type of time zone name. \value DefaultName The default form of the time zone name, e.g. LongName, ShortName or OffsetName \value LongName The long form of the time zone name, e.g. "Central European Time" \value ShortName The short form of the time zone name, usually an abbreviation, e.g. "CET" \value OffsetName The standard ISO offset form of the time zone name, e.g. "UTC+01:00" */ /*! \class QTimeZone::OffsetData \inmodule QtCore The time zone offset data for a given moment in time, i.e. the time zone offsets and abbreviation to use at that moment in time. \list \li OffsetData::atUtc The datetime of the offset data in UTC time. \li OffsetData::offsetFromUtc The total offset from UTC in effect at the datetime. \li OffsetData::standardTimeOffset The standard time offset component of the total offset. \li OffsetData::daylightTimeOffset The DST offset component of the total offset. \li OffsetData::abbreviation The abbreviation in effect at the datetime. \endlist For example, for time zone "Europe/Berlin" the OffsetDate in standard and DST might be: \list \li atUtc = QDateTime(QDate(2013, 1, 1), QTime(0, 0, 0), Qt::UTC) \li offsetFromUtc = 3600 \li standardTimeOffset = 3600 \li daylightTimeOffset = 0 \li abbreviation = "CET" \endlist \list \li atUtc = QDateTime(QDate(2013, 6, 1), QTime(0, 0, 0), Qt::UTC) \li offsetFromUtc = 7200 \li standardTimeOffset = 3600 \li daylightTimeOffset = 3600 \li abbreviation = "CEST" \endlist */ /*! \typedef QTimeZone::OffsetDataList Synonym for QVector. */ /*! Create a null/invalid time zone instance. */ QTimeZone::QTimeZone() Q_DECL_NOTHROW : d(0) { } /*! Creates an instance of the requested time zone \a ianaId. The ID must be one of the available system IDs otherwise an invalid time zone will be returned. \sa availableTimeZoneIds() */ QTimeZone::QTimeZone(const QByteArray &ianaId) { // Try and see if it's a valid UTC offset ID, just as quick to try create as look-up d = new QUtcTimeZonePrivate(ianaId); // If not a valid UTC offset ID then try create it with the system backend // Relies on backend not creating valid tz with invalid name if (!d->isValid()) d = newBackendTimeZone(ianaId); } /*! Creates an instance of a time zone with the requested Offset from UTC of \a offsetSeconds. The \a offsetSeconds from UTC must be in the range -14 hours to +14 hours otherwise an invalid time zone will be returned. */ QTimeZone::QTimeZone(int offsetSeconds) : d((offsetSeconds >= MinUtcOffsetSecs && offsetSeconds <= MaxUtcOffsetSecs) ? new QUtcTimeZonePrivate(offsetSeconds) : nullptr) { } /*! Creates a custom time zone with an ID of \a ianaId and an offset from UTC of \a offsetSeconds. The \a name will be the name used by displayName() for the LongName, the \a abbreviation will be used by displayName() for the ShortName and by abbreviation(), and the optional \a country will be used by country(). The \a comment is an optional note that may be displayed in a GUI to assist users in selecting a time zone. The \a ianaId must not be one of the available system IDs returned by availableTimeZoneIds(). The \a offsetSeconds from UTC must be in the range -14 hours to +14 hours. If the custom time zone does not have a specific country then set it to the default value of QLocale::AnyCountry. */ QTimeZone::QTimeZone(const QByteArray &ianaId, int offsetSeconds, const QString &name, const QString &abbreviation, QLocale::Country country, const QString &comment) : d() { if (!isTimeZoneIdAvailable(ianaId)) d = new QUtcTimeZonePrivate(ianaId, offsetSeconds, name, abbreviation, country, comment); } /*! \internal Private. Create time zone with given private backend */ QTimeZone::QTimeZone(QTimeZonePrivate &dd) : d(&dd) { } /*! Copy constructor, copy \a other to this. */ QTimeZone::QTimeZone(const QTimeZone &other) : d(other.d) { } /*! Destroys the time zone. */ QTimeZone::~QTimeZone() { } /*! \fn QTimeZone::swap(QTimeZone &other) Swaps this time zone instance with \a other. This function is very fast and never fails. */ /*! Assignment operator, assign \a other to this. */ QTimeZone &QTimeZone::operator=(const QTimeZone &other) { d = other.d; return *this; } /* \fn void QTimeZone::swap(QTimeZone &other) Swaps this timezone with \a other. This function is very fast and never fails. */ /*! \fn QTimeZone &QTimeZone::operator=(QTimeZone &&other) Move-assigns \a other to this QTimeZone instance, transferring the ownership of the managed pointer to this instance. */ /*! Returns \c true if this time zone is equal to the \a other time zone. */ bool QTimeZone::operator==(const QTimeZone &other) const { if (d && other.d) return (*d == *other.d); else return (d == other.d); } /*! Returns \c true if this time zone is not equal to the \a other time zone. */ bool QTimeZone::operator!=(const QTimeZone &other) const { if (d && other.d) return (*d != *other.d); else return (d != other.d); } /*! Returns \c true if this time zone is valid. */ bool QTimeZone::isValid() const { if (d) return d->isValid(); else return false; } /*! Returns the IANA ID for the time zone. IANA IDs are used on all platforms. On Windows these are translated from the Windows ID into the closest IANA ID for the time zone and country. */ QByteArray QTimeZone::id() const { if (d) return d->id(); else return QByteArray(); } /*! Returns the country for the time zone. */ QLocale::Country QTimeZone::country() const { if (isValid()) return d->country(); else return QLocale::AnyCountry; } /*! Returns any comment for the time zone. A comment may be provided by the host platform to assist users in choosing the correct time zone. Depending on the platform this may not be localized. */ QString QTimeZone::comment() const { if (isValid()) return d->comment(); else return QString(); } /*! Returns the localized time zone display name at the given \a atDateTime for the given \a nameType in the given \a locale. The \a nameType and \a locale requested may not be supported on all platforms, in which case the best available option will be returned. If the \a locale is not provided then the application default locale will be used. The display name may change depending on DST or historical events. \sa abbreviation() */ QString QTimeZone::displayName(const QDateTime &atDateTime, NameType nameType, const QLocale &locale) const { if (isValid()) return d->displayName(atDateTime.toMSecsSinceEpoch(), nameType, locale); else return QString(); } /*! Returns the localized time zone display name for the given \a timeType and \a nameType in the given \a locale. The \a nameType and \a locale requested may not be supported on all platforms, in which case the best available option will be returned. If the \a locale is not provided then the application default locale will be used. Where the time zone display names have changed over time then the most recent names will be used. \sa abbreviation() */ QString QTimeZone::displayName(TimeType timeType, NameType nameType, const QLocale &locale) const { if (isValid()) return d->displayName(timeType, nameType, locale); else return QString(); } /*! Returns the time zone abbreviation at the given \a atDateTime. The abbreviation may change depending on DST or even historical events. Note that the abbreviation is not guaranteed to be unique to this time zone and should not be used in place of the ID or display name. \sa displayName() */ QString QTimeZone::abbreviation(const QDateTime &atDateTime) const { if (isValid()) return d->abbreviation(atDateTime.toMSecsSinceEpoch()); else return QString(); } /*! Returns the total effective offset at the given \a atDateTime, i.e. the number of seconds to add to UTC to obtain the local time. This includes any DST offset that may be in effect, i.e. it is the sum of standardTimeOffset() and daylightTimeOffset() for the given datetime. For example, for the time zone "Europe/Berlin" the standard time offset is +3600 seconds and the DST offset is +3600 seconds. During standard time offsetFromUtc() will return +3600 (UTC+01:00), and during DST it will return +7200 (UTC+02:00). \sa standardTimeOffset(), daylightTimeOffset() */ int QTimeZone::offsetFromUtc(const QDateTime &atDateTime) const { if (isValid()) return d->offsetFromUtc(atDateTime.toMSecsSinceEpoch()); else return 0; } /*! Returns the standard time offset at the given \a atDateTime, i.e. the number of seconds to add to UTC to obtain the local Standard Time. This excludes any DST offset that may be in effect. For example, for the time zone "Europe/Berlin" the standard time offset is +3600 seconds. During both standard and DST offsetFromUtc() will return +3600 (UTC+01:00). \sa offsetFromUtc(), daylightTimeOffset() */ int QTimeZone::standardTimeOffset(const QDateTime &atDateTime) const { if (isValid()) return d->standardTimeOffset(atDateTime.toMSecsSinceEpoch()); else return 0; } /*! Returns the daylight-saving time offset at the given \a atDateTime, i.e. the number of seconds to add to the standard time offset to obtain the local daylight-saving time. For example, for the time zone "Europe/Berlin" the DST offset is +3600 seconds. During standard time daylightTimeOffset() will return 0, and when daylight-saving is in effect it will return +3600. \sa offsetFromUtc(), standardTimeOffset() */ int QTimeZone::daylightTimeOffset(const QDateTime &atDateTime) const { if (hasDaylightTime()) return d->daylightTimeOffset(atDateTime.toMSecsSinceEpoch()); else return 0; } /*! Returns \c true if the time zone has practiced daylight-saving at any time. \sa isDaylightTime(), daylightTimeOffset() */ bool QTimeZone::hasDaylightTime() const { if (isValid()) return d->hasDaylightTime(); else return false; } /*! Returns \c true if daylight-saving was in effect at the given \a atDateTime. \sa hasDaylightTime(), daylightTimeOffset() */ bool QTimeZone::isDaylightTime(const QDateTime &atDateTime) const { if (hasDaylightTime()) return d->isDaylightTime(atDateTime.toMSecsSinceEpoch()); else return false; } /*! Returns the effective offset details at the given \a forDateTime. This is the equivalent of calling offsetFromUtc(), abbreviation(), etc individually but is more efficient. \sa offsetFromUtc(), standardTimeOffset(), daylightTimeOffset(), abbreviation() */ QTimeZone::OffsetData QTimeZone::offsetData(const QDateTime &forDateTime) const { if (hasTransitions()) return QTimeZonePrivate::toOffsetData(d->data(forDateTime.toMSecsSinceEpoch())); else return QTimeZonePrivate::invalidOffsetData(); } /*! Returns \c true if the system backend supports obtaining transitions. Transitions are changes in the time-zone: these happen when DST turns on or off and when authorities alter the offsets for the time-zone. \sa nextTransition(), previousTransition(), transitions() */ bool QTimeZone::hasTransitions() const { if (isValid()) return d->hasTransitions(); else return false; } /*! Returns the first time zone Transition after the given \a afterDateTime. This is most useful when you have a Transition time and wish to find the Transition after it. If there is no transition after the given \a afterDateTime then an invalid OffsetData will be returned with an invalid QDateTime. The given \a afterDateTime is exclusive. \sa hasTransitions(), previousTransition(), transitions() */ QTimeZone::OffsetData QTimeZone::nextTransition(const QDateTime &afterDateTime) const { if (hasTransitions()) return QTimeZonePrivate::toOffsetData(d->nextTransition(afterDateTime.toMSecsSinceEpoch())); else return QTimeZonePrivate::invalidOffsetData(); } /*! Returns the first time zone Transition before the given \a beforeDateTime. This is most useful when you have a Transition time and wish to find the Transition before it. If there is no transition before the given \a beforeDateTime then an invalid OffsetData will be returned with an invalid QDateTime. The given \a beforeDateTime is exclusive. \sa hasTransitions(), nextTransition(), transitions() */ QTimeZone::OffsetData QTimeZone::previousTransition(const QDateTime &beforeDateTime) const { if (hasTransitions()) return QTimeZonePrivate::toOffsetData(d->previousTransition(beforeDateTime.toMSecsSinceEpoch())); else return QTimeZonePrivate::invalidOffsetData(); } /*! Returns a list of all time zone transitions between the given datetimes. The given \a fromDateTime and \a toDateTime are inclusive. \sa hasTransitions(), nextTransition(), previousTransition() */ QTimeZone::OffsetDataList QTimeZone::transitions(const QDateTime &fromDateTime, const QDateTime &toDateTime) const { OffsetDataList list; if (hasTransitions()) { const QTimeZonePrivate::DataList plist = d->transitions(fromDateTime.toMSecsSinceEpoch(), toDateTime.toMSecsSinceEpoch()); list.reserve(plist.count()); for (const QTimeZonePrivate::Data &pdata : plist) list.append(QTimeZonePrivate::toOffsetData(pdata)); } return list; } // Static methods /*! Returns the current system time zone IANA ID. On Windows this ID is translated from the Windows ID using an internal translation table and the user's selected country. As a consequence there is a small chance any Windows install may have IDs not known by Qt, in which case "UTC" will be returned. */ QByteArray QTimeZone::systemTimeZoneId() { return global_tz->backend->systemTimeZoneId(); } /*! \since 5.5 Returns a QTimeZone object that refers to the local system time, as specified by systemTimeZoneId(). \sa utc() */ QTimeZone QTimeZone::systemTimeZone() { return QTimeZone(QTimeZone::systemTimeZoneId()); } /*! \since 5.5 Returns a QTimeZone object that refers to UTC (Universal Time Coordinated). \sa systemTimeZone() */ QTimeZone QTimeZone::utc() { return QTimeZone(QTimeZonePrivate::utcQByteArray()); } /*! Returns \c true if a given time zone \a ianaId is available on this system. \sa availableTimeZoneIds() */ bool QTimeZone::isTimeZoneIdAvailable(const QByteArray &ianaId) { // isValidId is not strictly required, but faster to weed out invalid // IDs as availableTimeZoneIds() may be slow if (!QTimeZonePrivate::isValidId(ianaId)) return false; const QList tzIds = availableTimeZoneIds(); return std::binary_search(tzIds.begin(), tzIds.end(), ianaId); } static QList set_union(const QList &l1, const QList &l2) { QList result; result.reserve(l1.size() + l2.size()); std::set_union(l1.begin(), l1.end(), l2.begin(), l2.end(), std::back_inserter(result)); return result; } /*! Returns a list of all available IANA time zone IDs on this system. \sa isTimeZoneIdAvailable() */ QList QTimeZone::availableTimeZoneIds() { return set_union(QUtcTimeZonePrivate().availableTimeZoneIds(), global_tz->backend->availableTimeZoneIds()); } /*! Returns a list of all available IANA time zone IDs for a given \a country. As a special case, a \a country of Qt::AnyCountry returns those time zones that do not have any country related to them, such as UTC. If you require a list of all time zone IDs for all countries then use the standard availableTimeZoneIds() method. \sa isTimeZoneIdAvailable() */ QList QTimeZone::availableTimeZoneIds(QLocale::Country country) { return set_union(QUtcTimeZonePrivate().availableTimeZoneIds(country), global_tz->backend->availableTimeZoneIds(country)); } /*! Returns a list of all available IANA time zone IDs with a given standard time offset of \a offsetSeconds. \sa isTimeZoneIdAvailable() */ QList QTimeZone::availableTimeZoneIds(int offsetSeconds) { return set_union(QUtcTimeZonePrivate().availableTimeZoneIds(offsetSeconds), global_tz->backend->availableTimeZoneIds(offsetSeconds)); } /*! Returns the Windows ID equivalent to the given \a ianaId. \sa windowsIdToDefaultIanaId(), windowsIdToIanaIds() */ QByteArray QTimeZone::ianaIdToWindowsId(const QByteArray &ianaId) { return QTimeZonePrivate::ianaIdToWindowsId(ianaId); } /*! Returns the default IANA ID for a given \a windowsId. Because a Windows ID can cover several IANA IDs in several different countries, this function returns the most frequently used IANA ID with no regard for the country and should thus be used with care. It is usually best to request the default for a specific country. \sa ianaIdToWindowsId(), windowsIdToIanaIds() */ QByteArray QTimeZone::windowsIdToDefaultIanaId(const QByteArray &windowsId) { return QTimeZonePrivate::windowsIdToDefaultIanaId(windowsId); } /*! Returns the default IANA ID for a given \a windowsId and \a country. Because a Windows ID can cover several IANA IDs within a given country, the most frequently used IANA ID in that country is returned. As a special case, QLocale::AnyCountry returns the default of those IANA IDs that do not have any specific country. \sa ianaIdToWindowsId(), windowsIdToIanaIds() */ QByteArray QTimeZone::windowsIdToDefaultIanaId(const QByteArray &windowsId, QLocale::Country country) { return QTimeZonePrivate::windowsIdToDefaultIanaId(windowsId, country); } /*! Returns all the IANA IDs for a given \a windowsId. The returned list is sorted alphabetically. \sa ianaIdToWindowsId(), windowsIdToDefaultIanaId() */ QList QTimeZone::windowsIdToIanaIds(const QByteArray &windowsId) { return QTimeZonePrivate::windowsIdToIanaIds(windowsId); } /*! Returns all the IANA IDs for a given \a windowsId and \a country. As a special case QLocale::AnyCountry returns those IANA IDs that do not have any specific country. The returned list is in order of frequency of usage, i.e. larger zones within a country are listed first. \sa ianaIdToWindowsId(), windowsIdToDefaultIanaId() */ QList QTimeZone::windowsIdToIanaIds(const QByteArray &windowsId, QLocale::Country country) { return QTimeZonePrivate::windowsIdToIanaIds(windowsId, country); } #ifndef QT_NO_DATASTREAM QDataStream &operator<<(QDataStream &ds, const QTimeZone &tz) { tz.d->serialize(ds); return ds; } QDataStream &operator>>(QDataStream &ds, QTimeZone &tz) { QString ianaId; ds >> ianaId; if (ianaId == QLatin1String("OffsetFromUtc")) { int utcOffset; QString name; QString abbreviation; int country; QString comment; ds >> ianaId >> utcOffset >> name >> abbreviation >> country >> comment; // Try creating as a system timezone, which succeeds (producing a valid // zone) iff ianaId is valid; we can then ignore the other data. tz = QTimeZone(ianaId.toUtf8()); // If not, then construct a custom timezone using all the saved values: if (!tz.isValid()) tz = QTimeZone(ianaId.toUtf8(), utcOffset, name, abbreviation, QLocale::Country(country), comment); } else { tz = QTimeZone(ianaId.toUtf8()); } return ds; } #endif // QT_NO_DATASTREAM #ifndef QT_NO_DEBUG_STREAM QDebug operator<<(QDebug dbg, const QTimeZone &tz) { QDebugStateSaver saver(dbg); //TODO Include backend and data version details? dbg.nospace() << "QTimeZone(" << QString::fromUtf8(tz.id()) << ')'; return dbg; } #endif QT_END_NAMESPACE