QTimeZone#
QTimeZone
identifies how a time representation relates to UTC. More…
Synopsis#
Functions#
def
abbreviation
(atDateTime)def
asBackendZone
()def
comment
()def
country
()def
daylightTimeOffset
(atDateTime)def
displayName
(timeType[, nameType=QTimeZone.DefaultName[, locale=QLocale()]])def
displayName
(atDateTime[, nameType=QTimeZone.DefaultName[, locale=QLocale()]])def
fixedSecondsAheadOfUtc
()def
hasDaylightTime
()def
hasTransitions
()def
id
()def
isDaylightTime
(atDateTime)def
isUtcOrFixedOffset
()def
isValid
()def
nextTransition
(afterDateTime)def
offsetData
(forDateTime)def
offsetFromUtc
(atDateTime)def
__ne__
(other)def
__eq__
(other)def
previousTransition
(beforeDateTime)def
standardTimeOffset
(atDateTime)def
swap
(other)def
territory
()def
timeSpec
()def
transitions
(fromDateTime, toDateTime)
Static functions#
def
availableTimeZoneIds
(territory)def
availableTimeZoneIds
(offsetSeconds)def
availableTimeZoneIds
()def
fromSecondsAheadOfUtc
(offset)def
ianaIdToWindowsId
(ianaId)def
isTimeZoneIdAvailable
(ianaId)def
isUtcOrFixedOffset
(spec)def
systemTimeZone
()def
systemTimeZoneId
()def
utc
()def
windowsIdToDefaultIanaId
(windowsId)def
windowsIdToDefaultIanaId
(windowsId, territory)def
windowsIdToIanaIds
(windowsId)def
windowsIdToIanaIds
(windowsId, territory)
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
When dates and times are combined, the meaning of the result depends on how time is being represented. There are various international standards for representing time; one of these, UTC, corresponds to the traditional standard of solar mean time at Greenwich (a.k.a. GMT). All other time systems supported by Qt are ultimately specified in relation to UTC. An instance of this class provides a stateless calculator for conversions between UTC and other time representations.
Some time representations are simply defined at a fixed offset to UTC. Others are defined by governments for use within their jurisdictions. The latter are properly known as time zones, but QTimeZone
(since Qt 6.5) is unifies their representation with that of general time systems. One time zone generally supported on most operating systems is designated local time; this is presumed to correspond to the time zone within which the user is living.
For time zones other than local time, UTC and those at fixed offsets from UTC, Qt can only provide support when the operating system provides some way to access that information. When Qt is built, the timezone
feature controls whether such information is available. When it is not, some constructors and methods of QTimeZone
are excluded from its API; these are documented as depending on feature timezone
. Note that, even when Qt is built with this feature enabled, it may be unavailable to users whose systems are misconfigured, or where some standard packages (for example, the tzdata
package on Linux) are not installed. This feature is enabled by default when time zone information is available.
This class is primarily designed for use in QDateTime
; most applications will not need to access this class directly and should instead use an instance of it when constructing a QDateTime
.
Remarks#
QTimeZone
, like QDateTime
, measures offsets from UTC in seconds. This contrasts with their measurement of time generally, which they do in milliseconds. Real-world time zones generally have UTC offsets that are whole-number multiples of five minutes (300 seconds), at least since well before 1970. A positive offset from UTC gives a time representation puts noon on any given day before UTC noon on that day; a negative offset puts noon after UTC noon on the same day.
Lightweight Time Representations#
QTimeZone
can represent UTC, local time and fixed offsets from UTC even when feature timezone
is disabled. The form in which it does so is also available when the feature is enabled; it is a more lightweight form and processing using it will typically be more efficient, unless methods only available when feature timezone
is enabled are being exercised. See Initialization
and fromSecondsAheadOfUtc(int)
for how to construct these representations.
This documentation distinguishes between “time zone”, used to describe a time representation described by system-supplied or standard information, and time representations more generally, which include these lightweight forms. The methods available only when feature timezone
is enabled are apt to be cheaper for time zones than for lightweight time representations, for which these methods may construct a suitable transient time zone object to which to forward the query.
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 the original compiler of the database.
UTC Offset Time Zones#
A default UTC time zone backend is provided which is always available when feature timezone
is enabled. 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, such as “UTC+00:00”, as listed by availableTimeZoneIds()
, or using a name of similar form in combination with the number of offset seconds.
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 historical data and so may only be accurate for the current year. In particular, when MS’s zone data claims that DST was observed prior to 1900 (this is historically known to be untrue), the claim is ignored and the standard time (allegedly) in force in 1900 is taken to have always been in effect.
QTimeZone
uses a conversion table derived from 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.
Note
When Qt is built with the ICU library, it is used in preference to the Windows system APIs, bypassing all problems with those APIs using different names.
System Time Zone#
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. systemTimeZone()
will return an instance representing the zone named by this system ID. Note that constructing a QDateTime
using this system zone may behave differently than constructing a QDateTime
that uses LocalTime
as its TimeSpec
, as the latter directly uses system APIs for accessing local time information, which may behave differently (and, in particular, might adapt if the user adjusts the system zone setting).
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. The usual case for DST (using standard time in winter, DST in summer) has a positive daylight-saving time offset. However, some zones have negative DST offsets, used in winter, with summer using standard time.
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.
License#
This class includes data obtained from the CLDR data files under the terms of the Unicode Data Files and Software License. See Unicode Common Locale Data Repository (CLDR) for details.
- class PySide6.QtCore.QTimeZone#
PySide6.QtCore.QTimeZone(spec)
PySide6.QtCore.QTimeZone(ianaId)
PySide6.QtCore.QTimeZone(zoneId, offsetSeconds, name, abbreviation[, territory=QLocale.AnyTerritory[, comment=””]])
PySide6.QtCore.QTimeZone(other)
PySide6.QtCore.QTimeZone(offsetSeconds)
- Parameters:
offsetSeconds – int
name – str
other –
PySide6.QtCore.QTimeZone
abbreviation – str
ianaId –
PySide6.QtCore.QByteArray
spec –
Initialization
comment – str
zoneId –
PySide6.QtCore.QByteArray
territory –
Country
Create a null/invalid time zone instance.
Creates a lightweight instance describing UTC or local time.
Creates a time zone instance with the requested IANA ID ianaId
.
The ID must be one of the available system IDs or a valid UTC-with-offset ID, otherwise an invalid time zone will be returned.
This constructor is only available when feature timezone
is enabled.
See also
Creates a custom time zone instance at fixed offset from UTC.
The returned time zone has an ID of ianaId
and an offset from UTC of offsetSeconds
. The name
will be the name used by displayName()
for the LongName
, the abbreviation
will be used by displayName()
for the ShortName
and by abbreviation()
, and the optional territory
will be used by territory()
. The comment
is an optional note that may be displayed in a GUI to assist users in selecting a time zone.
The ianaId
must not be one of the available system IDs returned by availableTimeZoneIds()
. The offsetSeconds
from UTC must be in the range -14 hours to +14 hours.
If the custom time zone does not have a specific territory then set it to the default value of AnyTerritory
.
This constructor is only available when feature timezone
is enabled.
Copy constructor: copy other
to this.
Creates a time zone instance with the given offset, offsetSeconds
, from UTC.
The offsetSeconds
from UTC must be in the range -14 hours to +14 hours otherwise an invalid time zone will be returned.
This constructor is only available when feature timezone
is enabled. The returned instance is equivalent to the lightweight time representation QTimeZone::fromSecondsAfterUtc(offsetSeconds)
, albeit implemented as a time zone.
- PySide6.QtCore.QTimeZone.Initialization#
The type of the simplest lightweight time representations.
This enumeration identifies a type of lightweight time representation to pass to a QTimeZone
constructor, where no further data are required. They correspond to the like-named members of TimeSpec
.
Constant
Description
QTimeZone.LocalTime
This time representation corresponds to the one implicitly used by system functions using
time_t
andstruct tm
value to map between local time and UTC time.QTimeZone.UTC
This time representation, Coordinated Universal Time, is the base representation to which civil time is referred in all supported time representations. It is defined by the International Telecommunication Union.
New in version 6.5.
- PySide6.QtCore.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.
Constant
Description
QTimeZone.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”.
QTimeZone.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”.
QTimeZone.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”.
This type is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.NameType#
The type of time zone name.
Constant
Description
QTimeZone.DefaultName
The default form of the time zone name, e.g. LongName, ShortName or OffsetName
QTimeZone.LongName
The long form of the time zone name, e.g. “Central European Time”
QTimeZone.ShortName
The short form of the time zone name, usually an abbreviation, e.g. “CET”
QTimeZone.OffsetName
The standard ISO offset form of the time zone name, e.g. “UTC+01:00”
This type is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.abbreviation(atDateTime)#
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
- Return type:
str
Returns the time zone abbreviation at the given 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.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.asBackendZone()#
- Return type:
Converts this QTimeZone
to one whose timeSpec()
is TimeZone
.
In all cases, the result’s timeSpec()
is TimeZone
. When this QTimeZone
‘s timeSpec()
is TimeZone
, this QTimeZone
itself is returned.
If timeSpec()
is UTC
, utc()
is returned. If it is OffsetFromUTC
then QTimeZone
(int) is passed its offset and the result is returned.
If timeSpec()
is LocalTime
then an instance of the current system time zone will be returned. This will not change to reflect any subsequent change to the system time zone. It represents the local time that was in effect when asBackendZone() was called.
When using a lightweight time representation - local time, UTC time or time at a fixed offset from UTC - using methods only supported when feature timezone
is enabled may be more expensive than using a corresponding time zone. This method maps a lightweight time representation to a corresponding time zone - that is, an instance based on system-supplied or standard data.
This method is only available when feature timezone
is enabled.
See also
Initialization)
fromSecondsAheadOfUtc()
- static PySide6.QtCore.QTimeZone.availableTimeZoneIds(offsetSeconds)
- Parameters:
offsetSeconds – int
Returns a list of all available IANA time zone IDs with a given standard time offset of offsetSeconds
.
This method is only available when feature timezone
is enabled.
See also
- static PySide6.QtCore.QTimeZone.availableTimeZoneIds()
Returns a list of all available IANA time zone IDs on this system.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.comment()#
- Return type:
str
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.
This method is only available when feature timezone
is enabled.
Use territory()
instead.
Returns the territory for the time zone.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.daylightTimeOffset(atDateTime)#
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
- Return type:
int
Returns the daylight-saving time offset at the given 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.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.displayName(timeType[, nameType=QTimeZone.DefaultName[, locale=QLocale()]])#
- Parameters:
timeType –
TimeType
nameType –
NameType
locale –
PySide6.QtCore.QLocale
- Return type:
str
Returns the localized time zone display name for the given timeType
and nameType
in the given locale
. The nameType
and locale
requested may not be supported on all platforms, in which case the best available option will be returned.
If the 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.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.displayName(atDateTime[, nameType=QTimeZone.DefaultName[, locale=QLocale()]])
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
nameType –
NameType
locale –
PySide6.QtCore.QLocale
- Return type:
str
Returns the localized time zone display name at the given atDateTime
for the given nameType
in the given locale
. The nameType
and locale
requested may not be supported on all platforms, in which case the best available option will be returned.
If the locale
is not provided then the application default locale will be used.
The display name may change depending on DST or historical events.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.fixedSecondsAheadOfUtc()#
- Return type:
int
For a lightweight time representation whose timeSpec()
is OffsetFromUTC
, this returns the fixed offset from UTC that it describes. For any other time representation it returns 0, even if that time representation does have a constant offset from UTC.
- static PySide6.QtCore.QTimeZone.fromSecondsAheadOfUtc(offset)#
- Parameters:
offset – int
- Return type:
- PySide6.QtCore.QTimeZone.hasDaylightTime()#
- Return type:
bool
Returns true
if the time zone has practiced daylight-saving at any time.
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.hasTransitions()#
- Return type:
bool
Returns 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.
This method is only available when feature timezone
is enabled.
- static PySide6.QtCore.QTimeZone.ianaIdToWindowsId(ianaId)#
- Parameters:
ianaId –
PySide6.QtCore.QByteArray
- Return type:
Returns the Windows ID equivalent to the given ianaId
.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.id()#
- Return type:
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 best match IANA ID for the time zone and territory.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.isDaylightTime(atDateTime)#
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
- Return type:
bool
Returns true
if daylight-saving was in effect at the given atDateTime
.
This method is only available when feature timezone
is enabled.
See also
- static PySide6.QtCore.QTimeZone.isTimeZoneIdAvailable(ianaId)#
- Parameters:
ianaId –
PySide6.QtCore.QByteArray
- Return type:
bool
Returns true
if a given time zone ianaId
is available on this system.
This method is only available when feature timezone
is enabled.
See also
- static PySide6.QtCore.QTimeZone.isUtcOrFixedOffset(spec)#
- Parameters:
spec –
TimeSpec
- Return type:
bool
Returns true
if spec
is UTC
or OffsetFromUTC
.
- PySide6.QtCore.QTimeZone.isUtcOrFixedOffset()
- Return type:
bool
Returns true
if timeSpec()
is UTC
or OffsetFromUTC
.
When it is true, the time description does not change over time, such as having seasonal daylight-saving changes, as may happen for local time or a time zone. Knowing this may save the calling code to need for various other checks.
- PySide6.QtCore.QTimeZone.isValid()#
- Return type:
bool
Returns true
if this time zone is valid.
- PySide6.QtCore.QTimeZone.nextTransition(afterDateTime)#
- Parameters:
afterDateTime –
PySide6.QtCore.QDateTime
- Return type:
Returns the first time zone Transition after the given 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 afterDateTime
then an invalid OffsetData
will be returned with an invalid QDateTime
.
The given afterDateTime
is exclusive.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.offsetData(forDateTime)#
- Parameters:
forDateTime –
PySide6.QtCore.QDateTime
- Return type:
Returns the effective offset details at the given forDateTime
. This is the equivalent of calling offsetFromUtc()
, abbreviation()
, etc individually but is more efficient.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.offsetFromUtc(atDateTime)#
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
- Return type:
int
Returns the total effective offset at the given 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).
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.__ne__(other)#
- Parameters:
other –
PySide6.QtCore.QTimeZone
- Return type:
bool
Returns true
if this time zone is not equal to the other
time zone.
Two representations are different if they are internally described differently, even if they agree in their representation of all moments of time. In particular, a lightweight time representation may coincide with a time zone but the two will not be equal.
- PySide6.QtCore.QTimeZone.__eq__(other)#
- Parameters:
other –
PySide6.QtCore.QTimeZone
- Return type:
bool
Returns true
if this time representation is equal to the other
.
Two representations are different if they are internally described differently, even if they agree in their representation of all moments of time. In particular, a lightweight time representation may coincide with a time zone but the two will not be equal.
- PySide6.QtCore.QTimeZone.previousTransition(beforeDateTime)#
- Parameters:
beforeDateTime –
PySide6.QtCore.QDateTime
- Return type:
Returns the first time zone Transition before the given 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 beforeDateTime
then an invalid OffsetData
will be returned with an invalid QDateTime
.
The given beforeDateTime
is exclusive.
This method is only available when feature timezone
is enabled.
- PySide6.QtCore.QTimeZone.standardTimeOffset(atDateTime)#
- Parameters:
atDateTime –
PySide6.QtCore.QDateTime
- Return type:
int
Returns the standard time offset at the given 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).
This method is only available when feature timezone
is enabled.
See also
- PySide6.QtCore.QTimeZone.swap(other)#
- Parameters:
other –
PySide6.QtCore.QTimeZone
Swaps this time zone instance with other
. This function is very fast and never fails.
- static PySide6.QtCore.QTimeZone.systemTimeZone()#
- Return type:
Returns a QTimeZone
object that describes local system time.
This method is only available when feature timezone
is enabled. The returned instance is usually equivalent to the lightweight time representation QTimeZone(QTimeZone::LocalTime)
, albeit implemented as a time zone.
See also
utc()
Initialization
asBackendZone()
- static PySide6.QtCore.QTimeZone.systemTimeZoneId()#
- Return type:
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.
This method is only available when feature timezone
is enabled.
See also
Returns the territory for the time zone.
This method is only available when feature timezone
is enabled.
Returns a TimeSpec
identifying the type of time representation.
If the result is TimeZone
, this time description is a time zone (backed by system-supplied or standard data); otherwise, it is a lightweight time representation. If the result is LocalTime
it describes local time: see TimeSpec
for details.
See also
- PySide6.QtCore.QTimeZone.transitions(fromDateTime, toDateTime)#
- Parameters:
fromDateTime –
PySide6.QtCore.QDateTime
toDateTime –
PySide6.QtCore.QDateTime
Returns a list of all time zone transitions between the given datetimes.
The given fromDateTime
and toDateTime
are inclusive.
This method is only available when feature timezone
is enabled.
- static PySide6.QtCore.QTimeZone.utc()#
- Return type:
Returns a QTimeZone
object that describes UTC as a time zone.
This method is only available when feature timezone
is enabled. It is equivalent to passing 0 to QTimeZone
(int offsetSeconds) and to the lightweight time representation QTimeZone
( UTC
), albeit implemented as a time zone, unlike the latter.
See also
systemTimeZone()
Initialization
asBackendZone()
- static PySide6.QtCore.QTimeZone.windowsIdToDefaultIanaId(windowsId)#
- Parameters:
windowsId –
PySide6.QtCore.QByteArray
- Return type:
Returns the default IANA ID for a given 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.
This method is only available when feature timezone
is enabled.
See also
- static PySide6.QtCore.QTimeZone.windowsIdToDefaultIanaId(windowsId, territory)
- Parameters:
windowsId –
PySide6.QtCore.QByteArray
territory –
Country
- Return type:
Returns the default IANA ID for a given windowsId
and territory
.
Because a Windows ID can cover several IANA IDs within a given territory, the most frequently used IANA ID in that territory is returned.
As a special case, AnyTerritory
returns the default of those IANA IDs that do not have any specific territory.
This method is only available when feature timezone
is enabled.
See also
- static PySide6.QtCore.QTimeZone.windowsIdToIanaIds(windowsId)#
- Parameters:
windowsId –
PySide6.QtCore.QByteArray
Returns all the IANA IDs for a given windowsId
.
The returned list is sorted alphabetically.
This method is only available when feature timezone
is enabled.
- static PySide6.QtCore.QTimeZone.windowsIdToIanaIds(windowsId, territory)
- Parameters:
windowsId –
PySide6.QtCore.QByteArray
territory –
Country
Returns all the IANA IDs for a given windowsId
and territory
.
As a special case AnyTerritory
returns those IANA IDs that do not have any specific territory.
The returned list is in order of frequency of usage, i.e. larger zones within a territory are listed first.
This method is only available when feature timezone
is enabled.