QTimer::singleShot is optimized for zero timeouts when using the API
taking a string method name. This optimization was not used for the API
taking a PMF or functor. This patch adds it, making the various API
calls behave similarly from a performance point of view.
The approach taken here requires a QObject context object. If none is
available, e.g. a nullptr was passed explicitly, or the
QTimer::singleShot(O, Functor) API was used, the optimization could
not easily be applied. This is not only bad from a performance POV,
but also poses as a potential source for heisenbugs: Using the
different API versions of QTimer::singleShot would use different code
paths internally, which then would not ensure the expected slot call
order. This problem actually existed already when mixing the
string-based slot syntax with PMF/functors in the QTimer::singleShot
API.
This patch overcomes this hurdle and fixes all of the above: When we
encounter a 0ms single shot timer, and no QObject context object is
available, we fall back to the main thread, or create a temporary
QObject for any other thread. The updated and extended benchmark
shows that this is still a significant performance improvement
over using a timer:
********* Start testing of qtimer_vs_qmetaobject *********
Config: Using QtTest library 5.14.0, Qt 5.14.0 (x86_64-little_endian-lp64 shared (dynamic) release build; by GCC 8.2.1 20181127)
PASS : qtimer_vs_qmetaobject::initTestCase()
PASS : qtimer_vs_qmetaobject::bench(singleShot_slot)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_slot":
7.48 msecs per iteration (total: 748, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_pmf":
7.20 msecs per iteration (total: 720, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor":
6.79 msecs per iteration (total: 679, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor_noctx)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor_noctx":
6.92 msecs per iteration (total: 693, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_string)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_string":
7.34 msecs per iteration (total: 735, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_pmf":
6.90 msecs per iteration (total: 690, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_functor)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_functor":
6.62 msecs per iteration (total: 662, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_slot)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_slot":
7.45 msecs per iteration (total: 745, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_pmf)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_pmf":
7.46 msecs per iteration (total: 747, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_functor)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_functor":
6.70 msecs per iteration (total: 671, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_functor_noctx)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_functor_noctx":
13.75 msecs per iteration (total: 1,376, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_string)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_string":
7.05 msecs per iteration (total: 706, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_pmf)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_pmf":
6.70 msecs per iteration (total: 670, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_functor)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_functor":
6.58 msecs per iteration (total: 658, iterations: 100)
PASS : qtimer_vs_qmetaobject::cleanupTestCase()
Totals: 16 passed, 0 failed, 0 skipped, 0 blacklisted, 20977ms
********* Finished testing of qtimer_vs_qmetaobject *********
Without the change to qtimer.cpp, the results are:
********* Start testing of qtimer_vs_qmetaobject *********
Config: Using QtTest library 5.14.0, Qt 5.14.0 (x86_64-little_endian-lp64 shared (dynamic) release build; by GCC 8.2.1 20181127)
PASS : qtimer_vs_qmetaobject::initTestCase()
PASS : qtimer_vs_qmetaobject::bench(singleShot_slot)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_slot":
7.45 msecs per iteration (total: 745, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_pmf":
112.84 msecs per iteration (total: 11,285, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor":
115.62 msecs per iteration (total: 11,563, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor_noctx)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor_noctx":
110.81 msecs per iteration (total: 11,082, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_string)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_string":
7.04 msecs per iteration (total: 704, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_pmf":
6.62 msecs per iteration (total: 662, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_functor)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_functor":
6.62 msecs per iteration (total: 662, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_slot)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_slot":
7.45 msecs per iteration (total: 746, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_pmf)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_pmf":
118.42 msecs per iteration (total: 11,842, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_functor)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_functor":
119.35 msecs per iteration (total: 11,936, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(singleShot_functor_noctx)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"singleShot_functor_noctx":
130.96 msecs per iteration (total: 13,096, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_string)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_string":
8.08 msecs per iteration (total: 808, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_pmf)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_pmf":
6.79 msecs per iteration (total: 680, iterations: 100)
PASS : qtimer_vs_qmetaobject::benchBackgroundThread(invokeMethod_functor)
RESULT : qtimer_vs_qmetaobject::benchBackgroundThread():"invokeMethod_functor":
7.49 msecs per iteration (total: 749, iterations: 100)
PASS : qtimer_vs_qmetaobject::cleanupTestCase()
Totals: 16 passed, 0 failed, 0 skipped, 0 blacklisted, 153995ms
********* Finished testing of qtimer_vs_qmetaobject *********
Additionally, this patch adds a unit test to verify that the slot call
order for 0ms single shot timers is followed while mixing the various
API versions. It fails without this patch but passes now.
Finally, another test is added to verify that using QTimer::singleShot
before a QCoreApplication was constructed is still working properly.
Change-Id: I0d6211554b6198cb3e527be9ec3adc572b1b54ee
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
Until now, QEasingCurve was not streaming all it's internal state.
Therefore, doing store/reload operation through QDataStream would not
yield the same curve as the original. This patch fixes it.
[ChangeLog][QtCore][QEasingCurve] QEasingCurve now properly streams all
the data needed to QDataStream.
Change-Id: I1619501f5b4237983c8c68e148745a5e58863f55
Fixes: QTBUG-68181
Reviewed-by: Jan Arve Sæther <jan-arve.saether@qt.io>
Removes handling of missing Q_COMPILER_NULLPTR, Q_COMPILER_AUTODECL,
Q_COMPILER_LAMBDA, Q_COMPILER_VARIADIC_MACROS and
Q_COMPILER_AUTO_FUNCTION.
We haven't supported any compilers without these for a long time.
Change-Id: I3df88206516a25763e2c28b083733780f35a8764
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
Enum class are serialized using the declared size.
[ChangeLog][QtCore][QDataStream] Enumerations can now
be serialized through QDataStream without the need of
manually defining streaming operators.
Change-Id: Iae9a63eb62b5a5615b657766a3c4c66ba4d98d0e
Reviewed-by: Olivier Goffart (Woboq GmbH) <ogoffart@woboq.com>
Reviewed-by: Paolo Dastoli <paolo.dastoli@gmail.com>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
In Korean text, they typically can use both the "Western" style of
word wrapping, i.e. breaking on spaces, as well as the East-Asian
style of potentially breaking between all syllables. However,
the Unicode Line Breaking Algorithm, TR14 defaults to breaks on
syllables and specifies a possible tailoring where Hangul is
mapped to the AL class instead:
"When Korean uses SPACE for line breaking, the classes in rule
LB26, as well as characters of class ID, are often tailored to AL"
When using Qt, the user would expect the WordWrap wrap mode to
break between words in Korean. If you want the syllable-based
text layout, you would use WrapAnywhere, probably accompanied
by line justification.
To avoid breaking QTextBoundaryFinder and other potential clients
of QUnicodeTools which depend on getting the precise Unicode
data from the algorithm, we do this by passing a flag from
QTextEngine when initializing the attributes. This way, it
can also be made optional later on, if we decide there is
a reason to add an additional wrap mode specifically to
handle cases like this.
[ChangeLog][Important Behavioral Change] WrapWord now
correctly prefers line breaks between words in Korean text.
WrapAnywhere can still be used to get breaks between syllables
instead.
Done-with: Alexey Turitsyn <alexey.turitsyn@lge.com>
Task-number: QTBUG-47644
Change-Id: I37b45cea2995db7fc2b61e3a0cc681bbdc334678
Reviewed-by: Lars Knoll <lars.knoll@qt.io>
- Remove unused dummyWidget and thus empty slots initTestCase(),
cleanupTestCase().
- Add slot cleanup() checking for an empty top level widgets list
and introduce QScopedPointer to ensure it passes.
- Use QTRY_VERIFY in hideAndShowOnWindowStateChange().
Flakyness has been observed on openSUSE:
FAIL! : tst_QSizeGrip::hideAndShowOnWindowStateChange(Qt::Window) '!sizeGrip->isVisible()' returned FALSE. ()
Loc: [tst_qsizegrip.cpp(126)]
Change-Id: I340fc1892dc00bcff1985e5a8a1e535975736484
Reviewed-by: Christian Ehrlicher <ch.ehrlicher@gmx.de>
The test was never used or compiled, it has to be fine to add it :-)
Change-Id: If210c19515a545a6dbaef18a16dc018c0348070d
Reviewed-by: Mårten Nordheim <marten.nordheim@qt.io>
More specifically, for masks and rotated images.
Add tests for it, also add tests that image metadata is
forwarded for converted and copied images.
Fixes: QTBUG-49259
Change-Id: I05d4a468b17f53a2625500b871c01b2c53b981a1
Reviewed-by: Morten Johan Sørvig <morten.sorvig@qt.io>
Also add a test checking that devicePixelRatio is forwarded to
derivatives of QPixmap.
Change-Id: Idb2b3f033ccc0fd49bf54b11f5dffbce5a19b006
Reviewed-by: Morten Johan Sørvig <morten.sorvig@qt.io>
A string can parse as a non-zero double that's smaller than the
smallest float yet be a faithful representation of the smallest float.
So rather than testing for non-zero doubles less than the smallest
float, test for non-zero doubles that cast to float zero; these
underflow. This means small values close below the smallest float
shall round up to it, rather than down to zero, requiring a tweak to
an existing test. Added a test for the boundary case (and tidied the
test data).
Fixes: QTBUG-74833
Change-Id: I4cb30b3c0e54683574b98253505607caaf88fbfb
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
Various patterns seem to have been copied, notably counting time from
QTime(0, 0) rather than using QTime::msecsSinceStartOfDay() and its
setter. Unsuitable value types also put in an appearance, and
QTime()'s parameters after the first two default to 0 anyway.
Corrected a lie in QTime()'s default constructor doc; it does not work
the same as QTime(0, 0) at all.
Change-Id: Icf1a10052a049e68fd0f665958f36dbe75ac46d5
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
This is done by adding a QWindowPrivate::allowsClickThrough() function,
so this could easily be adapted later on if desired for other
platforms.
Fixes: QTBUG-41126
Change-Id: I1157e5e7e7667ff11d1a5d21b3ce8c4b13202272
Reviewed-by: Morten Johan Sørvig <morten.sorvig@qt.io>
The QBrush constructor taking a QGradient would assert or crash if
passed a null (NoGradient) gradient. But it is not necessary for the
API to be as brittle as that: instead the result can simply be a null
QBrush object, i.e. the same as the default QBrush() constructor
creates (style == NoBrush).
This issue comes up now since with the recent introduction of
QGradient presets, the API opens for using QGradient directly, whereas
earlier, only the subclasses QLinearGradient etc. were to be used.
Fixes: QTBUG-74648
Change-Id: I1a9b1c4654e4375aa6684700a262cc0946851448
Reviewed-by: Allan Sandfeld Jensen <allan.jensen@qt.io>
Reviewed-by: Tor Arne Vestbø <tor.arne.vestbo@qt.io>
For applications that set VERSION the installation targets of pdb
files were wrong in qmake's nmake Makefile generator.
Replace code that tries to reconstruct that target's versioned
extension with TARGET_EXT which already contains the fully resolved
target extension.
Fixes: QTBUG-74265
Change-Id: I9553a5f70170e077a59c866079ae51647ae80bef
Reviewed-by: Oliver Wolff <oliver.wolff@qt.io>
TestMethods::invokeTest() has an outer loop on global data (albeit
with a comment that said otherwise). On its first cycle, we run the
test function's *_data() method, if it has one; there is an inner loop
on the rows this created. If the *_data() QSKIP()s, we need to skip
the whole test; otherwise, a QSKIP() in one sub-test should not lead
to skipping the remaining sub-tests.
Moved the check for *_data() QSKIP()ping to right after *_data()
returns, inside the "first global cycle" block that runs it.
Previously, this check was done before entering the loop on local data
rows, but outside that "first global cycle" block: consequently, later
global cycles would fall foul of this check (even though the *_data()
hasn't been run in this cycle, much less QSKIP()ped in it) if the last
sub-test of the previous global cycle had QSKIP()ped.
When running a single test for one specific data row, if the test's
*_data() QSKIP()ped, this misplaced check would also have lead to a
misleading "Unknown testdata" warning.
Changed testlib/selftests' tst_globaldata::skipSingle() to trigger the
bug (by having its last local row of first global row skip, which
caused the second global row to be omitted) to verify this is also
fixed; and amended one of its comments to reflect what's now to be
expected. Updated the test's expected output files.
Task-number: QTBUG-61774
Change-Id: I99596b595c6d1184038f23383844c6ff51a0cd91
Reviewed-by: Jędrzej Nowacki <jedrzej.nowacki@qt.io>
Put all connections that get disconnected into a singly
linked orphaned list.
Whenever the refcount on the connectionData drops down to
one, this list can safely be cleared, even with the planned
removal of locking in activate().
Use an id integer in the connection to acoid activating newly
added connections.
Fixes: QTBUG-72649
Change-Id: Ide3d116ae7fc9ca497598c1c2b71d43b4339c92d
Reviewed-by: Olivier Goffart (Woboq GmbH) <ogoffart@woboq.com>
The DNS entry for the host has changed, dig answers with dns.google,
not with google-public-dns-a.google.com. While developing a proper
fix to the test, blacklisting this particular lookup allows
integrations to pass in the meantime.
Change-Id: Id37da6b24554803bf4e2c84be5b949ded40566e8
Reviewed-by: Kari Oikarinen <kari.oikarinen@qt.io>
Reviewed-by: Timur Pocheptsov <timur.pocheptsov@qt.io>
The test was added as commented in 2012, before it was not even
mentioned in the pro file. I guess it was never run.
Change-Id: Ib787c7811ab4f7f32a99869167cde2e12dbe3156
It is constantly passing according to grafana.
Change-Id: I4953cd54e27adde8dad79e9a0f025960802e6c7a
Reviewed-by: Friedemann Kleint <Friedemann.Kleint@qt.io>
Reviewed-by: Timur Pocheptsov <timur.pocheptsov@qt.io>
Fixed the other tests that used the methods, so that they now get the
data from QLocale instead; and added the missing feature #if-ery, as
these are textdate methods.
Change-Id: I896f356bdf88037db23590c71d0aeb0b8722bfa7
Reviewed-by: Mitch Curtis <mitch.curtis@qt.io>
The code had min and max of an integral type and tested min + min / 2,
which naturally overflowed, provoking a compiler warning. The test
was meant to be testing min - min / 2; but min is even, so this is
just min / 2; and doubling that won't overflow (which is what the test
is about). As it happens, min + min / 2 is in fact max - max / 2,
which *would* be a good value to test, since max is odd. So add a
test for that and remove the broken test.
Change-Id: Iec34acbf0d5d7993d41ff844875dc10480b8eb1f
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
In particular, document the mis-behavior it takes for granted in one
test. Renamed some variables so that they're visually distinct from
one another and actually mean something intelligible. Renamed the
sub-tests to say what's actually happening. Reading the test output
now at least makes it possible to see what's wrong. I'll fix that in
a later commit.
Task-number: QTBUG-61774
Change-Id: I3e5f83b8baa3c6afbca9231b5bbc89d17f3e57e2
Reviewed-by: Jędrzej Nowacki <jedrzej.nowacki@qt.io>
Don't just wait for 300ms for the thread to finish, this can
lead to faling tests esp. on slow hardware.
Also fix a mem leak.
Change-Id: Ifa90da5507fc6d65ef77e368d7c238271623ff53
Reviewed-by: Olivier Goffart (Woboq GmbH) <ogoffart@woboq.com>
Reviewed-by: Mårten Nordheim <marten.nordheim@qt.io>
Reviewed-by: Jędrzej Nowacki <jedrzej.nowacki@qt.io>
It has been completely untested for a while and saw some breakage.
So let's add a selftest for it. ('-vs' when running tests)
Change-Id: Ibfb5ac0a2d741de7c3f519d91202d4977996045e
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
Reviewed-by: Edward Welbourne <edward.welbourne@qt.io>
Use move on the existing value as well so the constructor makes more
of a difference.
Change-Id: Iee2080da7b7d2d88eb108f0448c61423c7256979
Reviewed-by: Richard Moe Gustavsen <richard.gustavsen@qt.io>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
This benchmark was not compiled, and it only covered some parts of the
API. Enable it, and also measure the performance of PMF and Functor API
variants, for both QTimer::singleShot and QMetaObject::invokeMethod.
This uncovers that the zero-timeout optimization for the singleShot is
not applied to the PMF and Functor API variants:
********* Start testing of qtimer_vs_qmetaobject *********
Config: Using QtTest library 5.11.0, Qt 5.11.0 (x86_64-little_endian-lp64 shared (dynamic) release build; by GCC 7.2.1 20171224)
PASS : qtimer_vs_qmetaobject::initTestCase()
PASS : qtimer_vs_qmetaobject::bench(singleShot_slot)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_slot":
5.20 msecs per iteration (total: 520, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_pmf":
75.93 msecs per iteration (total: 7,594, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor":
77.90 msecs per iteration (total: 7,790, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(singleShot_functor_noctx)
RESULT : qtimer_vs_qmetaobject::bench():"singleShot_functor_noctx":
76.23 msecs per iteration (total: 7,624, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_string)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_string":
4.99 msecs per iteration (total: 499, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_pmf)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_pmf":
5.37 msecs per iteration (total: 538, iterations: 100)
PASS : qtimer_vs_qmetaobject::bench(invokeMethod_functor)
RESULT : qtimer_vs_qmetaobject::bench():"invokeMethod_functor":
4.74 msecs per iteration (total: 474, iterations: 100)
PASS : qtimer_vs_qmetaobject::cleanupTestCase()
Totals: 9 passed, 0 failed, 0 skipped, 0 blacklisted, 50220ms
********* Finished testing of qtimer_vs_qmetaobject *********
Change-Id: I46336613188317124804638627f07eb135dc0286
Reviewed-by: Olivier Goffart (Woboq GmbH) <ogoffart@woboq.com>
QDoubleSpinBox did not resize when setPrefix() was called because the
cached size hint was not reset.
Fix it by resetting the cached size hints and update the geometry the
same way it's done for QSpinBox::setPrefix().
Fixes: QTBUG-74520
Change-Id: I6f42a24ab0a4ce987ecbe1505a634d929474436b
Reviewed-by: André Hartmann <aha_1980@gmx.de>
Reviewed-by: Friedemann Kleint <Friedemann.Kleint@qt.io>
Reviewed-by: Richard Moe Gustavsen <richard.gustavsen@qt.io>
In this threaded setup the server can sometimes have the data before it
calls "waitForReadyRead", what happens then is that we fail the wait and
as a result the test fails overall.
Let's check if we actually got some data after all and then continue if
we did. Since both the client and the server currently wait the same
amount of time (2s) the max timeout for the client was increased by
0.5s so it has some time to notice that the server got the message.
Change-Id: Ib5915958853413047aa5a7574712585bcae28f79
Reviewed-by: Edward Welbourne <edward.welbourne@qt.io>
Reviewed-by: Timur Pocheptsov <timur.pocheptsov@qt.io>
And export the required symbols in OpenSSL so we can run the test there
as well even if it's not needed for any functionality.
Change-Id: I4246d2b0bbdd42079d255f97f3c66ce8bb37390b
Reviewed-by: Timur Pocheptsov <timur.pocheptsov@qt.io>