No surprises, as char16_t is transparently handled by QChar overloads.
Ok, one surprise: we seem to have QChar <> QByteArray relational
operators, but they don't work for char16_t. Probably members of
QChar, so LHS implicit conversions are disabled. Didn't investigate,
because it needs to be fixed at some point anyway, but that point is
not now.
Change-Id: I74e1c9bdd168e6480e18d7d86c1f13412e718a32
Reviewed-by: Volker Hilsheimer <volker.hilsheimer@qt.io>
... to not fold QChar tests into QString ones.
This is needed for adding char16_t tests.
Change-Id: I2507d7d68a39ff96cf033eadde10e383dc976dda
Reviewed-by: Volker Hilsheimer <volker.hilsheimer@qt.io>
In QByteArray, they were just not marked as such.
In QString and QStringRef, the implicit conversion from QChar to
QString would destroy it. Add a QChar overload, delegating to
QStringView.
Added docs for the new overloads, copying from the nearest neighbor so
as to not look out of place. All string classes use different wording
for these functions. A cleanup of this state of affairs is out of the
scope of this patch.
Change-Id: I0b7b1d037aa229bcaf29b793841a18caf977d66b
Reviewed-by: Volker Hilsheimer <volker.hilsheimer@qt.io>
Reviewed-by: Lars Knoll <lars.knoll@qt.io>
This is a follow-up to commit 895939c7f9
to fix deprecation warnings it added.
Change-Id: I3d86655ec2c84c1bdcac9c70436075fc78f2f781
Reviewed-by: Volker Hilsheimer <volker.hilsheimer@qt.io>
The Qt version was added in 5.14 "for use as eventual replacement for
QString::SplitBehavior." Move another step closer to that goal.
Change-Id: I446f9ddc8f8de4a0b79b09edb44f7c1496fbc33f
Reviewed-by: Volker Hilsheimer <volker.hilsheimer@qt.io>
Extract the character in its proper unicode form and encode it in a
new single_character_data table of locale data. Record each entry as
the range within that table that encodes it. Also added an assertion
in the generator script to check that the digits CLDR gives us are a
contiguous sequence in increasing order, as has been assumed by the
C++ code for some time. Lots of number-formatting code now has to take
account of how wide the digits are.
This leaves nowhere for updateSystemPrivate() to record values read
from sys_locale->query(), so we must always consult that function when
accessing these members of the systemData() object. Various internal
users of these single-character fields need the system-or-CLDR value
rather than the raw CLDR value, so move QLocalePrivate's methods to
supply them down to QLocaleData and ensure they check for system
values, where appropriate first.
This allows us to finally support the Chakma language and script, for
whose number system UTF-16 needs surrogate pairs.
Costs 10.8 kB in added data, much of it due to adding two new locales
that need surrogates to represent digits.
[ChangeLog][QtCore][QLocale] Various QLocale methods that returned
single QChar values now return QString values to accommodate those
locales which need a surrogate pair to represent the (single
character) return value.
Fixes: QTBUG-69324
Fixes: QTBUG-81053
Change-Id: I481722d6f5ee266164f09031679a851dfa6e7839
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
QUtf32::convertToUnicode() was forgetting to set headerdone when it
dealt with the header (for contrast, Utf16::convertToUnicode() does).
Fixes: QTBUG-62011
Change-Id: Ia254782ce0967a6cf9ce0e81eb06d41521150eed
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
Reviewed-by: Lars Knoll <lars.knoll@qt.io>
Conflicts:
tests/manual/rhi/hellominimalcrossgfxtriangle/CMakeLists.txt
Hopefully final merge from wip/cmake, and then all cmake changes
should target dev directly.
Change-Id: I29b04c9b0284e97334877c77a32ffdf887dbf95b
Conflicts:
examples/widgets/graphicsview/boxes/scene.h
src/corelib/Qt5CoreMacros.cmake
src/corelib/Qt6CoreMacros.cmake
src/network/ssl/qsslsocket.cpp
src/network/ssl/qsslsocket.h
src/platformsupport/fontdatabases/windows/qwindowsfontenginedirectwrite.cpp
src/testlib/CMakeLists.txt
src/testlib/.prev_CMakeLists.txt
tests/auto/corelib/tools/qscopeguard/tst_qscopeguard.cpp
Disabled building manual tests with CMake for now, because qmake
doesn't do it, and it confuses people.
Done-With: Alexandru Croitor <alexandru.croitor@qt.io>
Done-With: Volker Hilsheimer <volker.hilsheimer@qt.io>
Change-Id: I865ae347bd01f4e59f16d007b66d175a52f1f152
There were a few surprises:
- QByteArray::compare() are missing noexcept (will add)
- ibid., called with non-ascii content and CaseInsensitive fails
(this was discussed on the ML, with tentative agreement that
it's a feature, not a bug; waiting for QUtf8String(View) for a
fix, then).
- As was the case when we did this exercise with the relational
operators, QString(Ref)/QChar is not noexcept (will fix)
These have been QEXPECT_FAIL'ed.
Not much of the cartesian product is implemented at all, yet. These
have been #ifdef'ed with NOT_YET_IMPLEMENTED to see what's still
missing.
Change-Id: I7d9b21e292b98f980aacdc6248e88188f7472ba2
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
In tst_QLocale::windowsDefaultLocale(), we configure the long and
short date formats and the short time format eccentrically, then
verify that QLocale::system() does actually get these eccentric
formats. However, we did not configure the long time format (whose
MS-API name doesn't match that of the other formats), so had to rely
on a guess at the system locale's format. That, however, is not
robust; so now configure the long time format, too.
Removed a duplicated test, at the same time.
Fixes: QTBUG-36306
Change-Id: I04dc22c7eb1b58af55412b598873868f79e9c74f
Reviewed-by: Friedemann Kleint <Friedemann.Kleint@qt.io>
Back-ends need to catch NULL data so as not to call system APIs with
invalid pointers.
[ChangeLog][QtCore][QCollator] Fixed a regression introduced in 5.14.0
that caused QCollator not to operate with default-constructed QStrings
and print a warning on Windows.
Fixes: QTBUG-81673
Change-Id: I2eafe1e188b436afcca3cf2ecdf98bba707c44c9
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
This pulls the CMake port, which not only adds CMake files but also
modifies existing code. A brief summary of "seemingly unrelated" changes:
* configure.json was re-formatted to not use multi-line strings. That
is an extension of the Qt JSON parser but not JSON compliant, which
is needed for the configure.json-to-cmake conversion script (python).
* Some moc inclusions were added due to CMake's slightly different way
of handling moc. With the changes the files build with qmake and cmake.
* Since CMake just grep's for the Q_OBJECT macro to determine whether to
call moc (instead of doing pre-processing like qmake), the existing use
of "Q_OBJECT" in our documentation was changed to \Q_OBJECT, which cmake
doesn't see and which is now a qdoc macro.
* QTestLib's qFindTestData was extended to also search in the source
directory known at build time.
What this change also brings is a new way of building modules in Coin by using
YAML configuration files that describe the steps of building and testing in Coin
specific terms. The platform configuration files in qt5 are instructed to use the
old Coin built-in way of testing ("UseLegacyInstructions" feature) but for any
configurations that do not have this, these yaml files in the coin/ sub-directory
are used and shared across repositories.
Change-Id: I1d832c3400e8d6945ad787024ba60e7440225c08
On macOS it's possible to configure the system locale to not do digit
grouping (separating "thousands", in most western locales); it then
returns an empty string when asked for the grouping character, which
QLocale's system-configuration then ignored, falling back on using the
base UI locale's grouping separator. This could lead to the same
separator being used for decimal and grouping, which should never
happen, least of all when configured to not group at all.
In order to notice when this happens, query() must take care to return
an empty QString (as a QVariant, which is then non-null) when it *has*
a value for the locale property, and that value is empty, as opposed
to a null QVariant when it doesn't find a configured value. The caller
can then distinguish the two cases.
Furthermore, the group and decimal separators need to be distinct, so
we need to take care to avoid cases where the system overrides one
with what the CLDR has given for the other and doesn't over-ride that
other.
Only presently implemented for macOS and MS-Win, since the (other)
Unix implementation of the system locale returns single QChar values
for the numeric tokens - see QTBUG-69324, QTBUG-81053.
Fixes: QTBUG-80459
Change-Id: Ic3fbb0fb86e974604a60781378b09abc13bab15d
Reviewed-by: Ulf Hermann <ulf.hermann@qt.io>
It was more complex than it needed to be and was a test of QString,
not of QLocale. This leaves tst_QLocale::negativeZero() available to
now test how QLocale handles negative zero.
Change-Id: Ic9aae250c29f579e6d60fba8404b38673a3b489f
Reviewed-by: Lars Knoll <lars.knoll@qt.io>
We have long (since 4.5.1) coerced it to lower-case, for no readily
apparent, much less documented, reason. CLDR says most locales use an
upper-case E for this - let's actually use what CLDR says we should
use.
The code that matches the exponent separator was doing so
case-insensitively in any case; that needed adaptation now that the
separator's case isn't pre-determined; and, in any case, should have
been done using case-folding rather than upper-casing. In the process,
removed some spurious checks for "'e' or 'E'" in the result, since the
exponent separator is always represented by 'e' (and an 'e' might also
be present for the separate reason of its use as a beyond-decimal
digit representing fourteen).
[ChangeLog][QtCore][QLocale] QLocale::exponential() now preserves the
case of the CLDR source, where previously it was lower-cased.
Change-Id: Ic9ac02136cff79cb9f136d72141b5dbf54d9e0a6
Reviewed-by: Lars Knoll <lars.knoll@qt.io>
Use QStringIterator rather than indexed loops. This fixes handling of
non-BMP code points (which may be lower or uppercase, see the test).
Change also the semantics of the functions, adopting Unicode §3.13
definitions: a string is lowercase/uppercase if it's equal to its
own toLower/toUpper folding.
As a side effect, empty strings are now correctly reported to be
lowercase AND uppercase.
[ChangeLog][Important Behavior Changes] The semantics of
QString::isLower() and QString::isUpper() have been changed to match the
Unicode specification. Now lowercase (resp. uppercase) strings are
allowed to contain any character; a string is considered lowercase
(resp. uppercase) if it's equal to its own toLower() (resp. toUpper())
folding. Previously, a non-letter character would make the string not
lowercase nor uppercase, and the mere presence of an uppercase (resp.
lowercase) letter would make isLower() (resp. isUpper()) return false,
even if the letter wouldn't change under case folding. As a
consequence, now empty strings are lowercase and uppercase.
[ChangeLog][QtCore][QString] Fixed a number of bugs of
QString::isLower() and QString::isUpper(). Empty strings are now
correctly reported to be lowercase (resp. uppercase), and strings
containing code points outside the BMP are now correctly handled.
Note that the behavior of these functions has also been changed.
Change-Id: Iba1398279a072399a9f21295fe75f6e414f3f813
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
In the presence of multiple overloads of a function taking either
QString or QStringView, QStringView should always be preferred.
The rationale is that the QStringView overload may have been
added "later" (read: the function was written when QStringView
was not available yet, so it took QString), and the fact that
a function with the _same name_ offers a QStringView overload
implies the function never needed to store/own the string in
the first place.
Add a (compile-time) test for this preference. This is in
preparation for a future QString(char16_t*) constructor
(in Qt 5.15 / Qt 6).
Change-Id: I60a435e494b653548f8f8d52c5d7e7cac2cc875a
Reviewed-by: Friedemann Kleint <Friedemann.Kleint@qt.io>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
Conflicts:
src/corelib/tools/qvector.h
Make QVector(DataPointer dd) public to be able to properly merge
5b4b437b30 from 5.15 into dev.
src/widgets/kernel/qapplication.cpp
tests/auto/tools/moc/allmocs_baseline_in.json
Done-With: Christian Ehrlicher <ch.ehrlicher@gmx.de>
Change-Id: I929ba7c036d570382d0454c2c75f6f0d96ddbc01
When QLocale::Country is set to QLocale::India numbers are written so that
after first three from the right and then after every second will be comma.
E.g. 10000000 is written as 1,00,00,000
Task-number: QTBUG-24301
Change-Id: Ic06241c127b0af1824104f94f7e2ce6e2058a070
Reviewed-by: Venugopal Shivashankar <Venugopal.Shivashankar@qt.io>
Reviewed-by: Teemu Holappa <teemu.holappa@qt.io>
QString(View)s can be built or manipulated in ways that make them
contain/refer to improperly encoded UTF-16 data. Problem is,
we don't have public APIs to check whether a string contains
valid UTF-16. This knowledge is precious if the string is to be fed in
algorithms, regular expressions, etc. that expect validated input
(e.g. QRegularExpression can be faster if it can assume valid UTF-16,
otherwise it has to employ extra checks).
Add a function that does the validation.
[ChangeLog][QtCore][QStringView] Added QStringView::isValidUtf16.
[ChangeLog][QtCore][QString] Added QString::isValidUtf16.
Change-Id: Idd699183f6ec08013046c76c6a5a7c524b6c6fbc
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
We're now using the same infrastructure for QVector,
QString and QByteArray.
This should also make it easier to remove the shared null
in a follow-up change.
Change-Id: I3aae9cf7912845cfca8e8150e9e82aa3673e3756
Reviewed-by: Mårten Nordheim <marten.nordheim@qt.io>
Reviewed-by: Vitaly Fanaskov <vitaly.fanaskov@qt.io>
Preparations to move QString over to use QArrayDataPointer instead
of it's own private struct.
Change-Id: I7796a595393394083f6a85863e3c710ebbdea149
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
The goal here is to move things over to QArrayDataPointer. This prepares
for it.
Change-Id: I32f54a47594274799600c618f7341c200ceaa306
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
We already detach immediately since change
c2d2757bcc. That basically removes
the main purpose of having QChar/ByteRef, and we can just as well
get rid of those classes for Qt 6.
Change-Id: I8dc566a1948ddc29c0cb8a77ec7310654a7219a4
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
I'd have preferred to use QArrayDataPointer<ushort> for QString, but
that option wasn't the best one. QArrayDataPointer try to do some
operations using QArrayDataOps and that would expand to unnecessary
code. What's more, the existing code expected to be able to modify and
access the d pointer.
Instead, this commit introduces QStringPrivate (named differently from
QStringData to catch potential users), which contains the three
members. This POD class is also used in QJsonValue to store the
"inlined" QString. QHashedString in qtdeclarative will need a similar
solution.
Change-Id: I33f072158e6e2cd031d4d2ffc81f4a8dbaf4e616
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The next change will stop using some values in the reference counter as
settings from the data.
Change-Id: I94df1fe643896373fac2f000fff55bc7708fc807
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The Mutable flag now contains the information on whether the data this
QArrayData points to is mutable. This decouples the mutability /
immutability setting from the allocation and from the type of data,
opening the way for mutable raw or foreign data.
There are still plenty of places in the source code that check the
size of the allocation when it actually wants d->isMutable(). Fixing
this will require reviewing all the code, so is left for later.
The needsDetach() function is moved to QArrayData and
de-constified. It returns true when a reallocation is necessary if the
data is to be modified.
Change-Id: I17e2bc5a3f6ef1f3eba8a205acd9852b95524f57
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
The test passed mostly by accident so far, as the created QByteArray
was shorter than what the test assumed.
Change-Id: I06858801d83a504eadc73ec2be281c88f8ffad5d
Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
Reviewed-by: Mårten Nordheim <marten.nordheim@qt.io>
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
QByteArray::fromBase64 was liberal in its input, simply skipping
over invalid characters. As a side-effect of this, it had
no error reporting, meaning it could not be used to convert
fromBase64 _and_ validate the input in one go.
Add more option flags to make fromBase64 strictly validate
its input. Since we want to know whether it has succeeded
or not, and the existing fromBase64 overloads do not
allow for that, introduce a new function that returns
an optional-like datatype.
While at it: base64 decoding can be done in-place; add an
rvalue overload to enable this use case.
[ChangeLog][QtCore][QByteArray] Added the new fromBase64Encoding
function.
[ChangeLog][QtCore][QByteArray] Added new flags to make
fromBase64 / fromBase64Encoding strictly validate their input,
instead of skipping over invalid characters.
Change-Id: I99cd5f2230f3d62970b28b4cb102913301da6ccd
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
