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Merge remote-tracking branch 'origin/5.14' into 5.15

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Change-Id: I4d7f0e35f4a6ccb6d5494f947fd82fc276feadd3
This commit is contained in:
Qt Forward Merge Bot 2019-09-17 01:00:14 +02:00
commit 73bce0411d
21 changed files with 560 additions and 605 deletions
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8
src/corelib/io/qtldurl.cpp
View File

@ -125,10 +125,10 @@ Q_CORE_EXPORT bool qIsEffectiveTLD(const QStringRef &domain)
return true;
const int dot = domain.indexOf(QLatin1Char('.'));
if (dot >= 0) {
if (containsTLDEntry(domain.mid(dot), SuffixMatch)) // 2
return !containsTLDEntry(domain, ExceptionMatch); // 3
}
if (dot < 0) // Actual TLD: may be effective if the subject of a wildcard rule:
return containsTLDEntry(QString(QLatin1Char('.') + domain), SuffixMatch);
if (containsTLDEntry(domain.mid(dot), SuffixMatch)) // 2
return !containsTLDEntry(domain, ExceptionMatch); // 3
return false;
}

12
src/corelib/thread/qbasicatomic.h
View File

@ -99,8 +99,10 @@ public:
typename Ops::Type _q_value;
// Everything below is either implemented in ../arch/qatomic_XXX.h or (as fallback) in qgenericatomic.h
T load() const noexcept { return loadRelaxed(); }
void store(T newValue) noexcept { storeRelaxed(newValue); }
#if QT_DEPRECATED_SINCE(5, 14)
QT_DEPRECATED_VERSION_X_5_14("Use loadRelaxed") T load() const noexcept { return loadRelaxed(); }
QT_DEPRECATED_VERSION_X_5_14("Use storeRelaxed") void store(T newValue) noexcept { storeRelaxed(newValue); }
#endif
T loadRelaxed() const noexcept { return Ops::loadRelaxed(_q_value); }
void storeRelaxed(T newValue) noexcept { Ops::storeRelaxed(_q_value, newValue); }
@ -238,8 +240,10 @@ public:
AtomicType _q_value;
Type load() const noexcept { return loadRelaxed(); }
void store(Type newValue) noexcept { storeRelaxed(newValue); }
#if QT_DEPRECATED_SINCE(5, 14)
QT_DEPRECATED_VERSION_X_5_14("Use loadRelaxed") Type load() const noexcept { return loadRelaxed(); }
QT_DEPRECATED_VERSION_X_5_14("Use storeRelaxed") void store(Type newValue) noexcept { storeRelaxed(newValue); }
#endif
Type loadRelaxed() const noexcept { return Ops::loadRelaxed(_q_value); }
void storeRelaxed(Type newValue) noexcept { Ops::storeRelaxed(_q_value, newValue); }

441
src/corelib/time/qcalendar.cpp
View File

@ -201,7 +201,7 @@ QCalendar::System QCalendarBackend::calendarSystem() const
}
/*!
The primary name of this calendar.
The primary name of this calendar.
*/
QString QCalendar::name() const
{
@ -440,101 +440,104 @@ int QCalendarBackend::dayOfWeek(qint64 jd) const
// Month and week-day name look-ups (implemented in qlocale.cpp):
/*!
\fn QString QCalendarBackend::monthName(const QLocale &locale, int month, int year,
QLocale::FormatType format) const
Returns the name of the specified \a month in the given \a year for the chosen
\a locale, using the given \a format to determine how complete the name is.
If \a year is Unspecified, return the name for the month that usually has this
number within a typical year. Calendars with a leap month that isn't always
the last may need to take account of the year to map the month number to the
particular year's month with that number.
\note Backends for which CLDR provides data can configure the default
implementation of the two month name look-up methods by arranging for
localeMonthIndexData() and localeMonthData() to provide access to the CLDR
data (see cldr2qlocalexml.py, qlocalexml2cpp.py and existing backends).
Conversely, backends that override both month name look-up methods need not
return anything meaningful from localeMonthIndexData() or localeMonthData().
\sa standaloneMonthName(), QLocale::monthName()
*/
/*!
\fn QString QCalendarBackend::standaloneMonthName(const QLocale &locale, int month, int year
QLocale::FormatType format) const
Returns the standalone name of the specified \a month in the chosen \a locale,
using the specified \a format to determine how complete the name is.
If \a year is Unspecified, return the standalone name for the month that
usually has this number within a typical year. Calendars with a leap month
that isn't always the last may need to take account of the year to map the
month number to the particular year's month with that number.
\sa monthName(), QLocale::standaloneMonthName()
*/
/*!
\fn QString QCalendarBackend::weekDayName(const QLocale &locale, int day,
\fn QString QCalendarBackend::monthName(const QLocale &locale, int month, int year,
QLocale::FormatType format) const
Returns the name of the specified \a day of the week in the chosen \a locale,
using the specified \a format to determine how complete the name is.
Returns the name of the specified \a month in the given \a year for the
chosen \a locale, using the given \a format to determine how complete the
name is.
The base implementation handles \a day values from 1 to 7 using the day names
CLDR provides, which are suitable for calendards that use the same
(Hebrew-derived) week as the Gregorian calendar.
If \a year is Unspecified, return the name for the month that usually has
this number within a typical year. Calendars with a leap month that isn't
always the last may need to take account of the year to map the month number
to the particular year's month with that number.
Calendars whose dayOfWeek() returns a value outside the range from 1 to 7 need
to reimplement this method to handle such extra week-day values. They can
assume that \a day is a value returned by the same calendar's dayOfWeek().
\note Backends for which CLDR provides data can configure the default
implementation of the two month name look-up methods by arranging for
localeMonthIndexData() and localeMonthData() to provide access to the CLDR
data (see cldr2qlocalexml.py, qlocalexml2cpp.py and existing backends).
Conversely, backends that override both month name look-up methods need not
return anything meaningful from localeMonthIndexData() or localeMonthData().
\sa dayOfWeek(), standaloneWeekDayName(), QLocale::dayName()
\sa standaloneMonthName(), QLocale::monthName()
*/
/*!
\fn QString QCalendarBackend::standaloneWeekDayName(const QLocale &locale, int day,
\fn QString QCalendarBackend::standaloneMonthName(const QLocale &locale, int month, int year
QLocale::FormatType format) const
Returns the standalone name of the specified \a day of the week in the chosen
\a locale, using the specified \a format to determine how complete the name
is.
Returns the standalone name of the specified \a month in the chosen \a
locale, using the specified \a format to determine how complete the name is.
The base implementation handles \a day values from 1 to 7 using the standalone
day names CLDR provides, which are suitable for calendards that use the same
(Hebrew-derived) week as the Gregorian calendar.
If \a year is Unspecified, return the standalone name for the month that
usually has this number within a typical year. Calendars with a leap month
that isn't always the last may need to take account of the year to map the
month number to the particular year's month with that number.
Calendars whose dayOfWeek() returns a value outside the range from 1 to 7 need
to reimplement this method to handle such extra week-day values. They can
assume that \a day is a value returned by the same calendar's dayOfWeek().
\sa dayOfWeek(), weekDayName(), QLocale::standaloneDayName()
\sa monthName(), QLocale::standaloneMonthName()
*/
/*!
\fn QString QCalendarBackend::dateTimeToString(QStringView format, const QDateTime &datetime,
const QDate &dateOnly, const QTime &timeOnly,
const QLocale &locale) const
\fn QString QCalendarBackend::weekDayName(const QLocale &locale, int day,
QLocale::FormatType format) const
Returns a string representing a given date, time or date-time.
Returns the name of the specified \a day of the week in the chosen \a
locale, using the specified \a format to determine how complete the name is.
If \a datetime is specified and valid, it is used and both date and time
format tokens are converted to appropriate representations of the parts of the
datetime. Otherwise, if \a dateOnly is valid, only date format tokens are
converted; else, if \a timeOnly is valid, only time format tokens are
converted. If none are valid, an empty string is returned.
The base implementation handles \a day values from 1 to 7 using the day
names CLDR provides, which are suitable for calendards that use the same
(Hebrew-derived) week as the Gregorian calendar.
The specified \a locale influences how some format tokens are converted; for
example, when substituting day and month names and their short-forms. For the
supported formatting tokens, see QDate::toString() and QTime::toString(). As
described above, the provided date, time and date-time determine which of
these tokens are recognized: where these appear in \a format they are replaced
by data. Any text in \a format not recognized as a format token is copied
verbatim into the result string.
Calendars whose dayOfWeek() returns a value outside the range from 1 to 7
need to reimplement this method to handle such extra week-day values. They
can assume that \a day is a value returned by the same calendar's
dayOfWeek().
\sa QDate::toString(), QTime::toString(), QDateTime::toString()
\sa dayOfWeek(), standaloneWeekDayName(), QLocale::dayName()
*/
/*!
\fn QString QCalendarBackend::standaloneWeekDayName(const QLocale &locale, int day,
QLocale::FormatType format) const
Returns the standalone name of the specified \a day of the week in the
chosen \a locale, using the specified \a format to determine how complete
the name is.
The base implementation handles \a day values from 1 to 7 using the
standalone day names CLDR provides, which are suitable for calendards that
use the same (Hebrew-derived) week as the Gregorian calendar.
Calendars whose dayOfWeek() returns a value outside the range from 1 to 7
need to reimplement this method to handle such extra week-day values. They
can assume that \a day is a value returned by the same calendar's
dayOfWeek().
\sa dayOfWeek(), weekDayName(), QLocale::standaloneDayName()
*/
/*!
\fn QString QCalendarBackend::dateTimeToString(QStringView format, const QDateTime &datetime,
const QDate &dateOnly, const QTime &timeOnly,
const QLocale &locale) const
Returns a string representing a given date, time or date-time.
If \a datetime is specified and valid, it is used and both date and time
format tokens are converted to appropriate representations of the parts of
the datetime. Otherwise, if \a dateOnly is valid, only date format tokens
are converted; else, if \a timeOnly is valid, only time format tokens are
converted. If none are valid, an empty string is returned.
The specified \a locale influences how some format tokens are converted; for
example, when substituting day and month names and their short-forms. For
the supported formatting tokens, see QDate::toString() and
QTime::toString(). As described above, the provided date, time and date-time
determine which of these tokens are recognized: where these appear in \a
format they are replaced by data. Any text in \a format not recognized as a
format token is copied verbatim into the result string.
\sa QDate::toString(), QTime::toString(), QDateTime::toString()
*/
// End of methods implemented in qlocale.cpp
@ -571,16 +574,16 @@ bool QCalendarBackend::registerAlias(const QString &name)
}
/*!
Returns a pointer to a named calendar backend.
Returns a pointer to a named calendar backend.
If the given \a name is present in availableCalendars(), the backend matching
it is returned; otherwise, \c nullptr is returned. Matching of names ignores
case. Note that this won't provoke construction of a calendar backend, it will
only return ones that have been instantiated (and not yet destroyed) by some
other means. However, calendars available via the QCalendar::System enum are
always registered when this is called.
If the given \a name is present in availableCalendars(), the backend
matching it is returned; otherwise, \c nullptr is returned. Matching of
names ignores case. Note that this won't provoke construction of a calendar
backend, it will only return ones that have been instantiated (and not yet
destroyed) by some other means. However, calendars available via the
QCalendar::System enum are always registered when this is called.
\sa availableCalendars(), registerAlias(), fromEnum()
\sa availableCalendars(), registerAlias(), fromEnum()
*/
const QCalendarBackend *QCalendarBackend::fromName(QStringView name)
{
@ -592,7 +595,7 @@ const QCalendarBackend *QCalendarBackend::fromName(QStringView name)
}
/*!
\overload
\overload
*/
const QCalendarBackend *QCalendarBackend::fromName(QLatin1String name)
{
@ -604,11 +607,11 @@ const QCalendarBackend *QCalendarBackend::fromName(QLatin1String name)
}
/*!
Returns a pointer to a calendar backend, specified by enum.
Returns a pointer to a calendar backend, specified by enum.
This will instantiate the indicated calendar (which will enable fromName() to
return it subsequently), but only for the Qt-supported calendars for which
(where relevant) the appropriate feature has been enabled.
This will instantiate the indicated calendar (which will enable fromName()
to return it subsequently), but only for the Qt-supported calendars for
which (where relevant) the appropriate feature has been enabled.
*/
const QCalendarBackend *QCalendarBackend::fromEnum(QCalendar::System system)
{
@ -643,28 +646,29 @@ const QCalendarBackend *QCalendarBackend::fromEnum(QCalendar::System system)
}
/*!
\since 5.14
\since 5.14
\class QCalendar
\inmodule QtCore
\reentrant
\brief The QCalendar class describes calendar systems.
\class QCalendar
\inmodule QtCore
\reentrant
\brief The QCalendar class describes calendar systems.
A QCalendar object maps a year, month, and day-number to a specific day
(ultimately identified by its Julian day number), using the rules of a
particular system.
A QCalendar object maps a year, month, and day-number to a specific day
(ultimately identified by its Julian day number), using the rules of a
particular system.
The default QCalendar() is a proleptic Gregorian calendar, which has no year
zero. Other calendars may be supported by enabling suitable features or
loading plugins. Calendars supported as features can be constructed by passing
the QCalendar::System enumeration to the constructor. All supported calendars
may be constructed by name, once they have been constructed. (Thus plugins
instantiate their calendar backend to register it.) Built-in backends,
accessible via QCalendar::System, are also always available by name.
The default QCalendar() is a proleptic Gregorian calendar, which has no year
zero. Other calendars may be supported by enabling suitable features or
loading plugins. Calendars supported as features can be constructed by
passing the QCalendar::System enumeration to the constructor. All supported
calendars may be constructed by name, once they have been constructed. (Thus
plugins instantiate their calendar backend to register it.) Built-in
backends, accessible via QCalendar::System, are also always available by
name.
A QCalendar value is immutable.
A QCalendar value is immutable.
\sa QDate, QDateTime
\sa QDate, QDateTime
*/
/*!
@ -684,20 +688,20 @@ const QCalendarBackend *QCalendarBackend::fromEnum(QCalendar::System system)
*/
/*!
\fn QCalendar::QCalendar()
\fn QCalendar::QCalendar(QCalendar::System system)
\fn QCalendar::QCalendar(QLatin1String name)
\fn QCalendar::QCalendar(QStringView name)
\fn QCalendar::QCalendar()
\fn QCalendar::QCalendar(QCalendar::System system)
\fn QCalendar::QCalendar(QLatin1String name)
\fn QCalendar::QCalendar(QStringView name)
Constructs a calendar object.
Constructs a calendar object.
The choice of calendar to use may be indicated as \a system, using the
enumeration QCalendar::System, or by \a name, using a string (either Unicode
or Latin 1). Construction by name may depend on an instance of the given
calendar being constructed by other means first. With no argument, the default
constructor returns the Gregorian calendar.
The choice of calendar to use may be indicated as \a system, using the
enumeration QCalendar::System, or by \a name, using a string (either Unicode
or Latin 1). Construction by name may depend on an instance of the given
calendar being constructed by other means first. With no argument, the
default constructor returns the Gregorian calendar.
\sa QCalendar, System
\sa QCalendar, System
*/
QCalendar::QCalendar()
@ -722,13 +726,13 @@ QCalendar::QCalendar(QStringView name)
// Date queries:
/*!
Returns the number of days in the given \a month of the given \a year.
Returns the number of days in the given \a month of the given \a year.
Months are numbered consecutively, starting with 1 for the first month of each
year. If \a year is \c Unspecified (its default, if not passed), the month's
length in a normal year is returned.
Months are numbered consecutively, starting with 1 for the first month of
each year. If \a year is \c Unspecified (its default, if not passed), the
month's length in a normal year is returned.
\sa maximumDaysInMonth(), minimumDaysInMonth()
\sa maximumDaysInMonth(), minimumDaysInMonth()
*/
int QCalendar::daysInMonth(int month, int year) const
{
@ -736,7 +740,7 @@ int QCalendar::daysInMonth(int month, int year) const
}
/*!
Returns the number of days in the given \a year.
Returns the number of days in the given \a year.
*/
int QCalendar::daysInYear(int year) const
{
@ -752,12 +756,12 @@ int QCalendar::monthsInYear(int year) const
}
/*!
Returns \c true precisely if the given \a year, \a month, and \a day specify a
valid date in this calendar.
Returns \c true precisely if the given \a year, \a month, and \a day specify
a valid date in this calendar.
Usually this means 1 <= month <= monthsInYear(year) and 1 <= day <=
daysInMonth(month, year). However, calendars with intercallary days or months
may complicate that.
Usually this means 1 <= month <= monthsInYear(year) and 1 <= day <=
daysInMonth(month, year). However, calendars with intercallary days or
months may complicate that.
*/
bool QCalendar::isDateValid(int year, int month, int day) const
{
@ -777,13 +781,13 @@ bool QCalendar::isGregorian() const
}
/*!
Returns \c true if the given \a year is a leap year.
Returns \c true if the given \a year is a leap year.
Since the year is not a whole number of days long, some years are longer than
others. The difference may be a whole month or just a single day; the details
vary between calendars.
Since the year is not a whole number of days long, some years are longer
than others. The difference may be a whole month or just a single day; the
details vary between calendars.
\sa isDateValid()
\sa isDateValid()
*/
bool QCalendar::isLeapYear(int year) const
{
@ -791,9 +795,9 @@ bool QCalendar::isLeapYear(int year) const
}
/*!
Returns \c true if this calendar is a lunar calendar.
Returns \c true if this calendar is a lunar calendar.
A lunar calendar is one based primarily on the phases of the moon.
A lunar calendar is one based primarily on the phases of the moon.
*/
bool QCalendar::isLunar() const
{
@ -801,11 +805,11 @@ bool QCalendar::isLunar() const
}
/*!
Returns \c true if this calendar is luni-solar.
Returns \c true if this calendar is luni-solar.
A luni-solar calendar expresses the phases of the moon but adapts itself to
also keep track of the Sun's varying position in the sky, relative to the
fixed stars.
A luni-solar calendar expresses the phases of the moon but adapts itself to
also keep track of the Sun's varying position in the sky, relative to the
fixed stars.
*/
bool QCalendar::isLuniSolar() const
{
@ -813,10 +817,10 @@ bool QCalendar::isLuniSolar() const
}
/*!
Returns \c true if this calendar is solar.
Returns \c true if this calendar is solar.
A solar calendar is based primarily on the Sun's varying position in the sky,
relative to the fixed stars.
A solar calendar is based primarily on the Sun's varying position in the
sky, relative to the fixed stars.
*/
bool QCalendar::isSolar() const
{
@ -824,13 +828,13 @@ bool QCalendar::isSolar() const
}
/*!
Returns \c true if this calendar is proleptic.
Returns \c true if this calendar is proleptic.
A proleptic calendar is able to describe years arbitrarily long before its
first. These are represented by negative year numbers and possibly by a year
zero.
A proleptic calendar is able to describe years arbitrarily long before its
first. These are represented by negative year numbers and possibly by a year
zero.
\sa hasYearZero()
\sa hasYearZero()
*/
bool QCalendar::isProleptic() const
{
@ -868,9 +872,9 @@ bool QCalendar::hasYearZero() const
}
/*!
Returns the number of days in the longest month in the calendar, in any year.
Returns the number of days in the longest month in the calendar, in any year.
\sa daysInMonth(), minimumDaysInMonth()
\sa daysInMonth(), minimumDaysInMonth()
*/
int QCalendar::maximumDaysInMonth() const
{
@ -878,9 +882,9 @@ int QCalendar::maximumDaysInMonth() const
}
/*!
Returns the number of days in the shortest month in the calendar, in any year.
Returns the number of days in the shortest month in the calendar, in any year.
\sa daysInMonth(), maximumDaysInMonth()
\sa daysInMonth(), maximumDaysInMonth()
*/
int QCalendar::minimumDaysInMonth() const
{
@ -888,9 +892,9 @@ int QCalendar::minimumDaysInMonth() const
}
/*!
Returns the largest number of months that any year may contain.
Returns the largest number of months that any year may contain.
\sa monthName(), standaloneMonthName(), monthsInYear()
\sa monthName(), standaloneMonthName(), monthsInYear()
*/
int QCalendar::maximumMonthsInYear() const
{
@ -940,13 +944,13 @@ QCalendar::YearMonthDay QCalendar::partsFromDate(QDate date) const
}
/*!
Returns the day of the week number for the given \a date.
Returns the day of the week number for the given \a date.
Returns zero if the calendar is unable to represent the indicated date.
Returns 1 for Monday through 7 for Sunday. Calendars with intercallary days
may use other numbers to represent these.
Returns zero if the calendar is unable to represent the indicated date.
Returns 1 for Monday through 7 for Sunday. Calendars with intercallary days
may use other numbers to represent these.
\sa partsFromDate(), Qt::DayOfWeek
\sa partsFromDate(), Qt::DayOfWeek
*/
int QCalendar::dayOfWeek(QDate date) const
{
@ -956,23 +960,23 @@ int QCalendar::dayOfWeek(QDate date) const
// Locale data access
/*!
Returns a suitably localised name for a month.
Returns a suitably localised name for a month.
The month is indicated by a number, with \a month = 1 meaning the first month
of the year and subsequent months numbered accordingly. Returns an empty
string if the \a month number is unrecognized.
The month is indicated by a number, with \a month = 1 meaning the first
month of the year and subsequent months numbered accordingly. Returns an
empty string if the \a month number is unrecognized.
The \a year may be Unspecified, in which case the mapping from numbers to
names for a typical year's months should be used. Some calendars have leap
months that aren't always at the end of the year; their mapping of month
numbers to names may then depend on the placement of a leap month. Thus the
year should normally be specified, if known.
The \a year may be Unspecified, in which case the mapping from numbers to
names for a typical year's months should be used. Some calendars have leap
months that aren't always at the end of the year; their mapping of month
numbers to names may then depend on the placement of a leap month. Thus the
year should normally be specified, if known.
The name is returned in the form that would normally be used in a full date,
in the specified \a locale; the \a format determines how fully it shall be
expressed (i.e. to what extent it is abbreviated).
The name is returned in the form that would normally be used in a full date,
in the specified \a locale; the \a format determines how fully it shall be
expressed (i.e. to what extent it is abbreviated).
\sa standaloneMonthName(), maximumMonthsInYear(), dateTimeToString()
\sa standaloneMonthName(), maximumMonthsInYear(), dateTimeToString()
*/
QString QCalendar::monthName(const QLocale &locale, int month, int year,
QLocale::FormatType format) const
@ -985,23 +989,23 @@ QString QCalendar::monthName(const QLocale &locale, int month, int year,
}
/*!
Returns a suitably localised standalone name for a month.
Returns a suitably localised standalone name for a month.
The month is indicated by a number, with \a month = 1 meaning the first month
of the year and subsequent months numbered accordingly. Returns an empty
string if the \a month number is unrecognized.
The month is indicated by a number, with \a month = 1 meaning the first
month of the year and subsequent months numbered accordingly. Returns an
empty string if the \a month number is unrecognized.
The \a year may be Unspecified, in which case the mapping from numbers to
names for a typical year's months should be used. Some calendars have leap
months that aren't always at the end of the year; their mapping of month
numbers to names may then depend on the placement of a leap month. Thus the
year should normally be specified, if known.
The \a year may be Unspecified, in which case the mapping from numbers to
names for a typical year's months should be used. Some calendars have leap
months that aren't always at the end of the year; their mapping of month
numbers to names may then depend on the placement of a leap month. Thus the
year should normally be specified, if known.
The name is returned in the form that would be used in isolation in the
specified \a locale; the \a format determines how fully it shall be expressed
(i.e. to what extent it is abbreviated).
The name is returned in the form that would be used in isolation in the
specified \a locale; the \a format determines how fully it shall be
expressed (i.e. to what extent it is abbreviated).
\sa monthName(), maximumMonthsInYear(), dateTimeToString()
\sa monthName(), maximumMonthsInYear(), dateTimeToString()
*/
QString QCalendar::standaloneMonthName(const QLocale &locale, int month, int year,
QLocale::FormatType format) const
@ -1014,18 +1018,18 @@ QString QCalendar::standaloneMonthName(const QLocale &locale, int month, int yea
}
/*!
Returns a suitably localised name for a day of the week.
Returns a suitably localised name for a day of the week.
The days of the week are numbered from 1 for Monday through 7 for Sunday. Some
calendars may support higher numbers for other days (e.g. intercallary days,
that are not part of any week). Returns an empty string if the \a day number
is unrecognized.
The days of the week are numbered from 1 for Monday through 7 for
Sunday. Some calendars may support higher numbers for other days
(e.g. intercallary days, that are not part of any week). Returns an empty
string if the \a day number is unrecognized.
The name is returned in the form that would normally be used in a full date,
in the specified \a locale; the \a format determines how fully it shall be
expressed (i.e. to what extent it is abbreviated).
The name is returned in the form that would normally be used in a full date,
in the specified \a locale; the \a format determines how fully it shall be
expressed (i.e. to what extent it is abbreviated).
\sa standaloneWeekDayName(), dayOfWeek()
\sa standaloneWeekDayName(), dayOfWeek()
*/
QString QCalendar::weekDayName(const QLocale &locale, int day,
QLocale::FormatType format) const
@ -1034,19 +1038,20 @@ QString QCalendar::weekDayName(const QLocale &locale, int day,
}
/*!
Returns a suitably localised standalone name for a day of the week.
Returns a suitably localised standalone name for a day of the week.
The days of the week are numbered from 1 for Monday through 7 for Sunday. Some
calendars may support higher numbers for other days (e.g. intercallary days,
that are not part of any week). Returns an empty string if the \a day number
is unrecognized.
The days of the week are numbered from 1 for Monday through 7 for
Sunday. Some calendars may support higher numbers for other days
(e.g. intercallary days, that are not part of any week). Returns an empty
string if the \a day number is unrecognized.
The name is returned in the form that would be used in isolation (for example
as a column heading in a calendar's tabular display of a month with successive
weeks as rows) in the specified \a locale; the \a format determines how fully
it shall be expressed (i.e. to what extent it is abbreviated).
The name is returned in the form that would be used in isolation (for
example as a column heading in a calendar's tabular display of a month with
successive weeks as rows) in the specified \a locale; the \a format
determines how fully it shall be expressed (i.e. to what extent it is
abbreviated).
\sa weekDayName(), dayOfWeek()
\sa weekDayName(), dayOfWeek()
*/
QString QCalendar::standaloneWeekDayName(const QLocale &locale, int day,
QLocale::FormatType format) const
@ -1055,23 +1060,23 @@ QString QCalendar::standaloneWeekDayName(const QLocale &locale, int day,
}
/*!
Returns a string representing a given date, time or date-time.
Returns a string representing a given date, time or date-time.
If \a datetime is valid, it is represented and format specifiers for both date
and time fields are recognized; otherwise, if \a dateOnly is valid, it is
represented and only format specifiers for date fields are recognized;
finally, if \a timeOnly is valid, it is represented and only format specifiers
for time fields are recognized. If none of these is valid, an empty string is
returned.
If \a datetime is valid, it is represented and format specifiers for both
date and time fields are recognized; otherwise, if \a dateOnly is valid, it
is represented and only format specifiers for date fields are recognized;
finally, if \a timeOnly is valid, it is represented and only format
specifiers for time fields are recognized. If none of these is valid, an
empty string is returned.
See QDate::toString and QTime::toString() for the supported field specifiers.
Characters in \a format that are recognized as field specifiers are replaced
by text representing appropriate data from the date and/or time being
represented. The texts to represent them may depend on the \a locale
specified. Other charagers in \a format are copied verbatim into the returned
string.
See QDate::toString and QTime::toString() for the supported field
specifiers. Characters in \a format that are recognized as field specifiers
are replaced by text representing appropriate data from the date and/or time
being represented. The texts to represent them may depend on the \a locale
specified. Other charagers in \a format are copied verbatim into the
returned string.
\sa monthName(), weekDayName(), QDate::toString(), QTime::toString()
\sa monthName(), weekDayName(), QDate::toString(), QTime::toString()
*/
QString QCalendar::dateTimeToString(QStringView format, const QDateTime &datetime,
const QDate &dateOnly, const QTime &timeOnly,

48
src/corelib/time/qhijricalendar.cpp
View File

@ -44,37 +44,37 @@
QT_BEGIN_NAMESPACE
/*!
\since 5.14
\internal
\since 5.14
\internal
\class QHijriCalendar
\inmodule QtCore
\brief The QHijriCalendar class supports Islamic (Hijri) calendar implementations.
\class QHijriCalendar
\inmodule QtCore
\brief The QHijriCalendar class supports Islamic (Hijri) calendar implementations.
\section1 Islamic Calendar System
\section1 Islamic Calendar System
The Islamic, Muslim, or Hijri calendar is a lunar calendar consisting of 12
months in a year of 354 or 355 days. It is used (often alongside the
Gregorian calendar) to date events in many Muslim countries. It is also used
by Muslims to determine the proper days of Islamic holidays and rituals,
such as the annual period of fasting and the proper time for the pilgrimage
to Mecca.
The Islamic, Muslim, or Hijri calendar is a lunar calendar consisting of 12
months in a year of 354 or 355 days. It is used (often alongside the
Gregorian calendar) to date events in many Muslim countries. It is also used
by Muslims to determine the proper days of Islamic holidays and rituals,
such as the annual period of fasting and the proper time for the pilgrimage
to Mecca.
Source: \l {https://en.wikipedia.org/wiki/Islamic_calendar}{Wikipedia page on
Hijri Calendar}
Source: \l {https://en.wikipedia.org/wiki/Islamic_calendar}{Wikipedia page
on Hijri Calendar}
\section1 Support for variants
\section1 Support for variants
This base class provides the common details shared by all variants on the
Islamic calendar. Each year comprises 12 months of 29 or 30 days each; most
years have as many of 29 as of 30, but leap years extend one 29-day month to
30 days. In tabular versions of the calendar (where mathematical rules are
used to determine the details), odd-numbered months have 30 days, as does the
last (twelfth) month of a leap year; all other months have 29 days. Other
versions are based on actual astronomical observations of the moon's phase at
sunset, which vary from place to place.
This base class provides the common details shared by all variants on the
Islamic calendar. Each year comprises 12 months of 29 or 30 days each; most
years have as many of 29 as of 30, but leap years extend one 29-day month to
30 days. In tabular versions of the calendar (where mathematical rules are
used to determine the details), odd-numbered months have 30 days, as does
the last (twelfth) month of a leap year; all other months have 29
days. Other versions are based on actual astronomical observations of the
moon's phase at sunset, which vary from place to place.
\sa QIslamicCivilCalendar, QCalendar
\sa QIslamicCivilCalendar, QCalendar
*/
bool QHijriCalendar::isLunar() const

33
src/corelib/time/qislamiccivilcalendar.cpp
View File

@ -47,28 +47,29 @@ QT_BEGIN_NAMESPACE
using namespace QRoundingDown;
/*!
\since 5.14
\internal
\since 5.14
\internal
\class QIslamicCivilCalendar
\inmodule QtCore
\brief Implements a commonly-used computed version of the Islamic calendar.
\class QIslamicCivilCalendar
\inmodule QtCore
\brief Implements a commonly-used computed version of the Islamic calendar.
\section1 Civil Islamic Calendar
\section1 Civil Islamic Calendar
QIslamicCivilCalendar implements a tabular version of the Hijri calendar which
is known as the Islamic Civil Calendar. It has the same numbering of years and
months, but the months are determined by arithmetical rules rather than by
observation or astronomical calculations.
QIslamicCivilCalendar implements a tabular version of the Hijri calendar
which is known as the Islamic Civil Calendar. It has the same numbering of
years and months, but the months are determined by arithmetical rules rather
than by observation or astronomical calculations.
\section2 Calendar Organization
\section2 Calendar Organization
The civil calendar follows the usual tabular scheme of odd-numbered months and
the last month of each leap year being 30 days long, the rest being 29 days
long. Its determination of leap years follows a 30-year cycle, in each of
which the years 2, 5, 7, 10, 13, 16, 18, 21, 24, 26 and 29 are leap years.
The civil calendar follows the usual tabular scheme of odd-numbered months
and the last month of each leap year being 30 days long, the rest being 29
days long. Its determination of leap years follows a 30-year cycle, in each
of which the years 2, 5, 7, 10, 13, 16, 18, 21, 24, 26 and 29 are leap
years.
\sa QHijriCalendar, QCalendar
\sa QHijriCalendar, QCalendar
*/
QIslamicCivilCalendar::QIslamicCivilCalendar()

20
src/corelib/time/qromancalendar.cpp
View File

@ -44,20 +44,20 @@
QT_BEGIN_NAMESPACE
/*!
\since 5.14
\since 5.14
\class QRomanCalendar
\inmodule QtCore
\brief The QRomanCalendar class is a shared base for calendars based on the
ancient Roman calendar.
\class QRomanCalendar
\inmodule QtCore
\brief The QRomanCalendar class is a shared base for calendars based on the
ancient Roman calendar.
\section1
\section1
Calendars based on the ancient Roman calendar share the names of months, whose
lengths depend in a common way on whether the year is a leap year. They differ
in how they determine which years are leap years.
Calendars based on the ancient Roman calendar share the names of months,
whose lengths depend in a common way on whether the year is a leap
year. They differ in how they determine which years are leap years.
\sa QGregorianCalendar, QJulianCalendar, QMilankovicCalendar
\sa QGregorianCalendar, QJulianCalendar, QMilankovicCalendar
*/
int QRomanCalendar::daysInMonth(int month, int year) const

4
src/corelib/tools/qcontainertools_impl.h
View File

@ -49,8 +49,6 @@
#include <QtCore/qglobal.h>
#include <iterator>
#ifndef Q_QDOC
QT_BEGIN_NAMESPACE
namespace QtPrivate
@ -131,6 +129,4 @@ using IfAssociativeIteratorHasFirstAndSecond =
QT_END_NAMESPACE
#endif // Q_QDOC
#endif // QCONTAINERTOOLS_IMPL_H

199
src/platformsupport/fontdatabases/mac/qcoretextfontdatabase.mm
View File

@ -100,20 +100,6 @@ static const char *languageForWritingSystem[] = {
};
enum { LanguageCount = sizeof(languageForWritingSystem) / sizeof(const char *) };
#ifdef Q_OS_OSX
static NSInteger languageMapSort(id obj1, id obj2, void *context)
{
NSArray<NSString *> *map1 = reinterpret_cast<NSArray<NSString *> *>(obj1);
NSArray<NSString *> *map2 = reinterpret_cast<NSArray<NSString *> *>(obj2);
NSArray<NSString *> *languages = reinterpret_cast<NSArray<NSString *> *>(context);
NSString *lang1 = [map1 objectAtIndex:0];
NSString *lang2 = [map2 objectAtIndex:0];
return [languages indexOfObject:lang1] - [languages indexOfObject:lang2];
}
#endif
QCoreTextFontDatabase::QCoreTextFontDatabase()
: m_hasPopulatedAliases(false)
{
@ -406,142 +392,99 @@ template class QCoreTextFontDatabaseEngineFactory<QCoreTextFontEngine>;
template class QCoreTextFontDatabaseEngineFactory<QFontEngineFT>;
#endif
QFont::StyleHint styleHintFromNSString(NSString *style)
QStringList QCoreTextFontDatabase::fallbacksForFamily(const QString &family)
{
if ([style isEqual: @"sans-serif"])
return QFont::SansSerif;
else if ([style isEqual: @"monospace"])
return QFont::Monospace;
else if ([style isEqual: @"cursive"])
return QFont::Cursive;
else if ([style isEqual: @"serif"])
return QFont::Serif;
else if ([style isEqual: @"fantasy"])
return QFont::Fantasy;
else // if ([style isEqual: @"default"])
return QFont::AnyStyle;
}
if (family.isEmpty())
return QStringList();
#ifdef Q_OS_OSX
static QString familyNameFromPostScriptName(NSString *psName)
{
QCFType<CTFontDescriptorRef> fontDescriptor = (CTFontDescriptorRef) CTFontDescriptorCreateWithNameAndSize((CFStringRef)psName, 12.0);
QCFString familyName = (CFStringRef) CTFontDescriptorCopyAttribute(fontDescriptor, kCTFontFamilyNameAttribute);
QString name = QString::fromCFString(familyName);
if (name.isEmpty())
qWarning() << "QCoreTextFontDatabase: Failed to resolve family name for PostScript name " << QString::fromCFString((CFStringRef)psName);
auto attributes = @{ id(kCTFontFamilyNameAttribute): family.toNSString() };
QCFType<CTFontDescriptorRef> fontDescriptor = CTFontDescriptorCreateWithAttributes(CFDictionaryRef(attributes));
if (!fontDescriptor) {
qWarning() << "Failed to create fallback font descriptor for" << family;
return QStringList();
}
return name;
}
#endif
QCFType<CTFontRef> font = CTFontCreateWithFontDescriptor(fontDescriptor, 12.0, 0);
if (!font) {
qWarning() << "Failed to create fallback font for" << family;
return QStringList();
}
static void addExtraFallbacks(QStringList *fallbackList)
{
#if defined(Q_OS_MACOS)
// Since we are only returning a list of default fonts for the current language, we do not
// cover all unicode completely. This was especially an issue for some of the common script
// symbols such as mathematical symbols, currency or geometric shapes. To minimize the risk
// of missing glyphs, we add Arial Unicode MS as a final fail safe, since this covers most
// of Unicode 2.1.
if (!fallbackList->contains(QStringLiteral("Arial Unicode MS")))
fallbackList->append(QStringLiteral("Arial Unicode MS"));
// Since some symbols (specifically Braille) are not in Arial Unicode MS, we
// add Apple Symbols to cover those too.
if (!fallbackList->contains(QStringLiteral("Apple Symbols")))
fallbackList->append(QStringLiteral("Apple Symbols"));
#else
Q_UNUSED(fallbackList)
#endif
QCFType<CFArrayRef> cascadeList = CFArrayRef(CTFontCopyDefaultCascadeListForLanguages(font,
(CFArrayRef)[NSUserDefaults.standardUserDefaults stringArrayForKey:@"AppleLanguages"]));
if (!cascadeList) {
qWarning() << "Failed to create fallback cascade list for" << family;
return QStringList();
}
QStringList fallbackList;
const int numCascades = CFArrayGetCount(cascadeList);
for (int i = 0; i < numCascades; ++i) {
CTFontDescriptorRef fontFallback = CTFontDescriptorRef(CFArrayGetValueAtIndex(cascadeList, i));
QCFString fallbackFamilyName = CFStringRef(CTFontDescriptorCopyAttribute(fontFallback, kCTFontFamilyNameAttribute));
fallbackList.append(QString::fromCFString(fallbackFamilyName));
}
return fallbackList;
}
QStringList QCoreTextFontDatabase::fallbacksForFamily(const QString &family, QFont::Style style, QFont::StyleHint styleHint, QChar::Script script) const
{
Q_UNUSED(style);
Q_UNUSED(script);
QMacAutoReleasePool pool;
static QHash<QString, QStringList> fallbackLists;
QStringList fallbackList = fallbacksForFamily(family);
if (!family.isEmpty()) {
QCFType<CFMutableDictionaryRef> attributes = CFDictionaryCreateMutable(kCFAllocatorDefault, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
CFDictionaryAddValue(attributes, kCTFontFamilyNameAttribute, QCFString(family));
if (QCFType<CTFontDescriptorRef> fontDescriptor = CTFontDescriptorCreateWithAttributes(attributes)) {
if (QCFType<CTFontRef> font = CTFontCreateWithFontDescriptor(fontDescriptor, 12.0, 0)) {
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
NSArray *languages = [defaults stringArrayForKey: @"AppleLanguages"];
QCFType<CFArrayRef> cascadeList = (CFArrayRef) CTFontCopyDefaultCascadeListForLanguages(font, (CFArrayRef) languages);
if (cascadeList) {
QStringList fallbackList;
const int numCascades = CFArrayGetCount(cascadeList);
for (int i = 0; i < numCascades; ++i) {
CTFontDescriptorRef fontFallback = (CTFontDescriptorRef) CFArrayGetValueAtIndex(cascadeList, i);
QCFString fallbackFamilyName = (CFStringRef) CTFontDescriptorCopyAttribute(fontFallback, kCTFontFamilyNameAttribute);
fallbackList.append(QString::fromCFString(fallbackFamilyName));
}
addExtraFallbacks(&fallbackList);
extern QStringList qt_sort_families_by_writing_system(QChar::Script, const QStringList &);
fallbackList = qt_sort_families_by_writing_system(script, fallbackList);
return fallbackList;
if (fallbackList.isEmpty()) {
// We were not able to find a fallback for the specific family,
// or the family was empty, so we fall back to the style hint.
QString styleFamily = [styleHint]{
switch (styleHint) {
case QFont::SansSerif: return QStringLiteral("Helvetica");
case QFont::Serif: return QStringLiteral("Times New Roman");
case QFont::Monospace: return QStringLiteral("Menlo");
#ifdef Q_OS_MACOS
case QFont::Cursive: return QStringLiteral("Apple Chancery");
#endif
case QFont::Fantasy: return QStringLiteral("Zapfino");
case QFont::TypeWriter: return QStringLiteral("American Typewriter");
case QFont::AnyStyle: Q_FALLTHROUGH();
case QFont::System: {
QCFType<CTFontRef> font = CTFontCreateUIFontForLanguage(kCTFontUIFontSystem, 12.0, NULL);
return static_cast<QString>(QCFString(CTFontCopyFullName(font)));
}
default: return QString(); // No matching font on this platform
}
}();
if (!styleFamily.isEmpty()) {
fallbackList = fallbacksForFamily(styleFamily);
if (!fallbackList.contains(styleFamily))
fallbackList.prepend(styleFamily);
}
}
// We were not able to find a fallback for the specific family,
// so we fall back to the stylehint.
if (fallbackList.isEmpty())
return fallbackList;
static const QString styleLookupKey = QString::fromLatin1(".QFontStyleHint_%1");
static bool didPopulateStyleFallbacks = false;
if (!didPopulateStyleFallbacks) {
#if defined(Q_OS_MACX)
NSUserDefaults *defaults = [NSUserDefaults standardUserDefaults];
NSArray<NSString *> *languages = [defaults stringArrayForKey:@"AppleLanguages"];
NSDictionary<NSString *, id> *fallbackDict = [NSDictionary<NSString *, id> dictionaryWithContentsOfFile:@"/System/Library/Frameworks/ApplicationServices.framework/Frameworks/CoreText.framework/Resources/DefaultFontFallbacks.plist"];
for (NSString *style in [fallbackDict allKeys]) {
NSArray *list = [fallbackDict valueForKey:style];
QFont::StyleHint fallbackStyleHint = styleHintFromNSString(style);
QStringList fallbackList;
for (id item in list) {
// sort the array based on system language preferences
if ([item isKindOfClass:[NSArray class]]) {
NSArray *langs = [reinterpret_cast<NSArray *>(item)
sortedArrayUsingFunction:languageMapSort context:languages];
for (NSArray<NSString *> *map in langs)
fallbackList.append(familyNameFromPostScriptName([map objectAtIndex:1]));
}
else if ([item isKindOfClass: [NSString class]])
fallbackList.append(familyNameFromPostScriptName(item));
}
fallbackList.append(QLatin1String("Apple Color Emoji"));
addExtraFallbacks(&fallbackList);
fallbackLists[styleLookupKey.arg(fallbackStyleHint)] = fallbackList;
}
#else
QStringList staticFallbackList;
staticFallbackList << QString::fromLatin1("Helvetica,Apple Color Emoji,Geeza Pro,Arial Hebrew,Thonburi,Kailasa"
"Hiragino Kaku Gothic ProN,.Heiti J,Apple SD Gothic Neo,.Heiti K,Heiti SC,Heiti TC"
"Bangla Sangam MN,Devanagari Sangam MN,Gujarati Sangam MN,Gurmukhi MN,Kannada Sangam MN"
"Malayalam Sangam MN,Oriya Sangam MN,Sinhala Sangam MN,Tamil Sangam MN,Telugu Sangam MN"
"Euphemia UCAS,.PhoneFallback").split(QLatin1String(","));
for (int i = QFont::Helvetica; i <= QFont::Fantasy; ++i)
fallbackLists[styleLookupKey.arg(i)] = staticFallbackList;
#if defined(Q_OS_MACOS)
// Since we are only returning a list of default fonts for the current language, we do not
// cover all Unicode completely. This was especially an issue for some of the common script
// symbols such as mathematical symbols, currency or geometric shapes. To minimize the risk
// of missing glyphs, we add Arial Unicode MS as a final fail safe, since this covers most
// of Unicode 2.1.
if (!fallbackList.contains(QStringLiteral("Arial Unicode MS")))
fallbackList.append(QStringLiteral("Arial Unicode MS"));
// Since some symbols (specifically Braille) are not in Arial Unicode MS, we
// add Apple Symbols to cover those too.
if (!fallbackList.contains(QStringLiteral("Apple Symbols")))
fallbackList.append(QStringLiteral("Apple Symbols"));
#endif
didPopulateStyleFallbacks = true;
}
extern QStringList qt_sort_families_by_writing_system(QChar::Script, const QStringList &);
fallbackList = qt_sort_families_by_writing_system(script, fallbackList);
Q_ASSERT(!fallbackLists.isEmpty());
return fallbackLists[styleLookupKey.arg(styleHint)];
return fallbackList;
}
QStringList QCoreTextFontDatabase::addApplicationFont(const QByteArray &fontData, const QString &fileName)

1
src/platformsupport/fontdatabases/mac/qcoretextfontdatabase_p.h
View File

@ -92,6 +92,7 @@ protected:
private:
void populateFromDescriptor(CTFontDescriptorRef font, const QString &familyName = QString());
static QStringList fallbacksForFamily(const QString &family);
mutable QString defaultFontName;

12
src/plugins/sqldrivers/psql/qsql_psql.cpp
View File

@ -428,12 +428,14 @@ static QVariant::Type qDecodePSQLType(int t)
void QPSQLResultPrivate::deallocatePreparedStmt()
{
const QString stmt = QStringLiteral("DEALLOCATE ") + preparedStmtId;
PGresult *result = drv_d_func()->exec(stmt);
if (drv_d_func()) {
const QString stmt = QStringLiteral("DEALLOCATE ") + preparedStmtId;
PGresult *result = drv_d_func()->exec(stmt);
if (PQresultStatus(result) != PGRES_COMMAND_OK)
qWarning("Unable to free statement: %s", PQerrorMessage(drv_d_func()->connection));
PQclear(result);
if (PQresultStatus(result) != PGRES_COMMAND_OK)
qWarning("Unable to free statement: %s", PQerrorMessage(drv_d_func()->connection));
PQclear(result);
}
preparedStmtId.clear();
}

4
src/plugins/styles/windowsvista/main.cpp
View File

@ -48,7 +48,7 @@ class QWindowsVistaStylePlugin : public QStylePlugin
Q_OBJECT
Q_PLUGIN_METADATA(IID "org.qt-project.Qt.QStyleFactoryInterface" FILE "windowsvistastyle.json")
public:
QStyle *create(const QString &key);
QStyle *create(const QString &key) override;
};
QStyle *QWindowsVistaStylePlugin::create(const QString &key)
@ -56,7 +56,7 @@ QStyle *QWindowsVistaStylePlugin::create(const QString &key)
if (key.compare(QLatin1String("windowsvista"), Qt::CaseInsensitive) == 0)
return new QWindowsVistaStyle();
return 0;
return nullptr;
}
QT_END_NAMESPACE

110
src/plugins/styles/windowsvista/qwindowsvistastyle.cpp
View File

@ -44,7 +44,6 @@
#include <qwindow.h>
#include <private/qstyleanimation_p.h>
#include <private/qstylehelper_p.h>
#include <private/qapplication_p.h>
#include <qpa/qplatformnativeinterface.h>
QT_BEGIN_NAMESPACE
@ -91,7 +90,7 @@ bool QWindowsVistaStylePrivate::useVista()
Checks and returns the style object
*/
inline QObject *styleObject(const QStyleOption *option) {
return option ? option->styleObject : 0;
return option ? option->styleObject : nullptr;
}
/* \internal
@ -116,7 +115,7 @@ static inline QImage createAnimationBuffer(const QStyleOption *option, const QWi
Used by animations to clone a styleoption and shift its offset
*/
QStyleOption *clonedAnimationStyleOption(const QStyleOption*option) {
QStyleOption *styleOption = 0;
QStyleOption *styleOption = nullptr;
if (const QStyleOptionSlider *slider = qstyleoption_cast<const QStyleOptionSlider*>(option))
styleOption = new QStyleOptionSlider(*slider);
else if (const QStyleOptionSpinBox *spinbox = qstyleoption_cast<const QStyleOptionSpinBox*>(option))
@ -297,7 +296,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
int oldState = styleObject->property("_q_stylestate").toInt();
oldRect = styleObject->property("_q_stylerect").toRect();
newRect = option->rect;
styleObject->setProperty("_q_stylestate", (int)option->state);
styleObject->setProperty("_q_stylestate", int(option->state));
styleObject->setProperty("_q_stylerect", option->rect);
bool doTransition = oldState &&
@ -315,7 +314,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
if (doTransition) {
QStyleOption *styleOption = clonedAnimationStyleOption(option);
styleOption->state = (QStyle::State)oldState;
styleOption->state = QStyle::State(oldState);
QWindowsVistaAnimation *anim = qobject_cast<QWindowsVistaAnimation *>(d->animation(styleObject));
QWindowsVistaTransition *t = new QWindowsVistaTransition(styleObject);
@ -340,7 +339,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
// The end state of the transition is simply the result we would have painted
// if the style was not animated.
styleOption->styleObject = 0;
styleOption->styleObject = nullptr;
styleOption->state = option->state;
proxy()->drawPrimitive(element, styleOption, &endPainter, widget);
@ -355,7 +354,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
//translate state flags to UXTHEME states :
if (element == PE_FrameLineEdit) {
theme = OpenThemeData(0, L"Edit");
theme = OpenThemeData(nullptr, L"Edit");
partId = EP_EDITBORDER_NOSCROLL;
if (oldState & State_MouseOver)
@ -373,7 +372,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
toState = ETS_NORMAL;
} else {
theme = OpenThemeData(0, L"Button");
theme = OpenThemeData(nullptr, L"Button");
if (element == PE_IndicatorRadioButton)
partId = BP_RADIOBUTTON;
else if (element == PE_IndicatorCheckBox)
@ -389,7 +388,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
if (theme
&& SUCCEEDED(GetThemeTransitionDuration(theme, partId, fromState, toState,
TMT_TRANSITIONDURATIONS, &duration))) {
t->setDuration(duration);
t->setDuration(int(duration));
}
t->setStartTime(QTime::currentTime());
@ -534,7 +533,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
else if (state & State_MouseOver)
stateId = EBS_HOT;
XPThemeData theme(0, painter, QWindowsXPStylePrivate::EditTheme,
XPThemeData theme(nullptr, painter, QWindowsXPStylePrivate::EditTheme,
partId, stateId, rect);
if (!theme.isValid()) {
QWindowsStyle::drawPrimitive(element, option, painter, widget);
@ -581,27 +580,26 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
p->drawRect(option->rect.adjusted(0, 0, -1, -1));
p->setPen(oldPen);
return;
} else {
int stateId = ETS_NORMAL;
if (!(state & State_Enabled))
stateId = ETS_DISABLED;
else if (state & State_ReadOnly)
stateId = ETS_READONLY;
else if (state & State_MouseOver)
stateId = ETS_HOT;
else if (state & State_HasFocus)
stateId = ETS_SELECTED;
XPThemeData theme(widget, painter,
QWindowsXPStylePrivate::EditTheme,
EP_EDITBORDER_NOSCROLL, stateId, option->rect);
theme.noContent = true;
painter->save();
QRegion clipRegion = option->rect;
clipRegion -= option->rect.adjusted(2, 2, -2, -2);
painter->setClipRegion(clipRegion);
d->drawBackground(theme);
painter->restore();
}
int stateId = ETS_NORMAL;
if (!(state & State_Enabled))
stateId = ETS_DISABLED;
else if (state & State_ReadOnly)
stateId = ETS_READONLY;
else if (state & State_MouseOver)
stateId = ETS_HOT;
else if (state & State_HasFocus)
stateId = ETS_SELECTED;
XPThemeData theme(widget, painter,
QWindowsXPStylePrivate::EditTheme,
EP_EDITBORDER_NOSCROLL, stateId, option->rect);
theme.noContent = true;
painter->save();
QRegion clipRegion = option->rect;
clipRegion -= option->rect.adjusted(2, 2, -2, -2);
painter->setClipRegion(clipRegion);
d->drawBackground(theme);
painter->restore();
}
break;
@ -724,7 +722,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
d->drawBackground(theme);
} else {
QWindowsXPStyle::drawPrimitive(PE_PanelItemViewItem, option, painter, widget);
break;;
break;
}
QPixmapCache::insert(key, pixmap);
}
@ -770,7 +768,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
case PE_Widget:
{
#if QT_CONFIG(dialogbuttonbox)
const QDialogButtonBox *buttonBox = 0;
const QDialogButtonBox *buttonBox = nullptr;
if (qobject_cast<const QMessageBox *> (widget))
buttonBox = widget->findChild<const QDialogButtonBox *>(QLatin1String("qt_msgbox_buttonbox"));
@ -844,7 +842,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
int oldState = styleObject->property("_q_stylestate").toInt();
oldRect = styleObject->property("_q_stylerect").toRect();
newRect = option->rect;
styleObject->setProperty("_q_stylestate", (int)option->state);
styleObject->setProperty("_q_stylestate", int(option->state));
styleObject->setProperty("_q_stylerect", option->rect);
bool wasDefault = false;
@ -870,7 +868,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
QWindowsVistaTransition *t = new QWindowsVistaTransition(styleObject);
QWindowsVistaAnimation *anim = qobject_cast<QWindowsVistaAnimation *>(d->animation(styleObject));
QStyleOption *styleOption = clonedAnimationStyleOption(option);
styleOption->state = (QStyle::State)oldState;
styleOption->state = QStyle::State(oldState);
QImage startImage = createAnimationBuffer(option, widget);
QPainter startPainter(&startImage);
@ -892,12 +890,12 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
DWORD duration = 0;
const HTHEME theme = OpenThemeData(0, L"Button");
const HTHEME theme = OpenThemeData(nullptr, L"Button");
int fromState = buttonStateId(oldState, BP_PUSHBUTTON);
int toState = buttonStateId(option->state, BP_PUSHBUTTON);
if (GetThemeTransitionDuration(theme, BP_PUSHBUTTON, fromState, toState, TMT_TRANSITIONDURATIONS, &duration) == S_OK)
t->setDuration(duration);
t->setDuration(int(duration));
else
t->setDuration(0);
t->setStartTime(QTime::currentTime());
@ -983,7 +981,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
if (btn->features & QStyleOptionButton::HasMenu) {
int mbiw = 0, mbih = 0;
XPThemeData theme(widget, 0, QWindowsXPStylePrivate::ToolBarTheme,
XPThemeData theme(widget, nullptr, QWindowsXPStylePrivate::ToolBarTheme,
TP_DROPDOWNBUTTON);
if (theme.isValid()) {
const QSizeF size = theme.size() * QStyleHelper::dpiScaled(1, option);
@ -992,7 +990,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
mbih = qRound(size.height());
}
}
QRect ir = subElementRect(SE_PushButtonContents, option, 0);
QRect ir = subElementRect(SE_PushButtonContents, option, nullptr);
QStyleOptionButton newBtn = *btn;
newBtn.rect = QStyle::visualRect(option->direction, option->rect,
QRect(ir.right() - mbiw - 2,
@ -1137,7 +1135,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
QPalette::ColorRole textRole = disabled ? QPalette::Text : QPalette::ButtonText;
QPixmap pix = mbi->icon.pixmap(proxy()->pixelMetric(PM_SmallIconSize, option, widget), QIcon::Normal);
uint alignment = Qt::AlignCenter | Qt::TextShowMnemonic | Qt::TextDontClip | Qt::TextSingleLine;
int alignment = Qt::AlignCenter | Qt::TextShowMnemonic | Qt::TextDontClip | Qt::TextSingleLine;
if (!proxy()->styleHint(SH_UnderlineShortcut, mbi, widget))
alignment |= Qt::TextHideMnemonic;
@ -1177,7 +1175,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
int checkcol = qRound(qreal(25) * factor);
const int gutterWidth = qRound(qreal(3) * factor);
{
XPThemeData theme(widget, 0, QWindowsXPStylePrivate::MenuTheme,
XPThemeData theme(widget, nullptr, QWindowsXPStylePrivate::MenuTheme,
MENU_POPUPCHECKBACKGROUND, MBI_HOT);
XPThemeData themeSize = theme;
themeSize.partId = MENU_POPUPCHECK;
@ -1394,7 +1392,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
int mw = proxy()->pixelMetric(QStyle::PM_DockWidgetTitleMargin, dwOpt, widget);
int fw = proxy()->pixelMetric(PM_DockWidgetFrameWidth, dwOpt, widget);
const QDockWidget *dw = qobject_cast<const QDockWidget *>(widget);
bool isFloating = dw != 0 && dw->isFloating();
bool isFloating = dw && dw->isFloating();
QRect r = option->rect.adjusted(0, 2, -1, -3);
QRect titleRect = r;
@ -1411,7 +1409,7 @@ void QWindowsVistaStyle::drawControl(ControlElement element, const QStyleOption
if (isFloating) {
titleRect.adjust(0, -fw, 0, 0);
if (widget != 0 && widget->windowIcon().cacheKey() != QApplication::windowIcon().cacheKey())
if (widget && widget->windowIcon().cacheKey() != QApplication::windowIcon().cacheKey())
titleRect.adjust(titleRect.height() + mw, 0, 0, 0);
} else {
titleRect.adjust(mw, 0, 0, 0);
@ -1517,8 +1515,8 @@ void QWindowsVistaStyle::drawComplexControl(ComplexControl control, const QStyle
int oldActiveControls = styleObject->property("_q_stylecontrols").toInt();
QRect oldRect = styleObject->property("_q_stylerect").toRect();
styleObject->setProperty("_q_stylestate", (int)option->state);
styleObject->setProperty("_q_stylecontrols", (int)option->activeSubControls);
styleObject->setProperty("_q_stylestate", int(option->state));
styleObject->setProperty("_q_stylecontrols", int(option->activeSubControls));
styleObject->setProperty("_q_stylerect", option->rect);
bool doTransition = ((state & State_Sunken) != (oldState & State_Sunken) ||
@ -1562,8 +1560,8 @@ void QWindowsVistaStyle::drawComplexControl(ComplexControl control, const QStyle
// Draw transition source
if (!anim) {
styleOption->state = (QStyle::State)oldState;
styleOption->activeSubControls = (QStyle::SubControl)oldActiveControls;
styleOption->state = QStyle::State(oldState);
styleOption->activeSubControls = QStyle::SubControl(oldActiveControls);
proxy()->drawComplexControl(control, styleOption, &startPainter, widget);
} else {
anim->paint(&startPainter, option);
@ -1814,7 +1812,7 @@ void QWindowsVistaStyle::drawComplexControl(ComplexControl control, const QStyle
// That however breaks with QtQuickControls where this results in transparent
// spinbox background, so if there's no "widget" passed (QtQuickControls case),
// let ftheme.noContent be false, which fixes the spinbox rendering in QQC
ftheme.noContent = (widget != NULL);
ftheme.noContent = (widget != nullptr);
d->drawBackground(ftheme);
}
if (sub & SC_SpinBoxUp) {
@ -1871,7 +1869,7 @@ QSize QWindowsVistaStyle::sizeFromContents(ContentsType type, const QStyleOption
sz = QWindowsXPStyle::sizeFromContents(type, option, size, widget);
int minimumHeight;
{
XPThemeData theme(widget, 0,
XPThemeData theme(widget, nullptr,
QWindowsXPStylePrivate::MenuTheme,
MENU_POPUPCHECKBACKGROUND, MBI_HOT);
XPThemeData themeSize = theme;
@ -1939,7 +1937,7 @@ QRect QWindowsVistaStyle::subElementRect(SubElement element, const QStyleOption
case SE_PushButtonContents:
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton *>(option)) {
MARGINS borderSize;
const HTHEME theme = OpenThemeData(widget ? QWindowsVistaStylePrivate::winId(widget) : 0, L"Button");
const HTHEME theme = OpenThemeData(widget ? QWindowsVistaStylePrivate::winId(widget) : nullptr, L"Button");
if (theme) {
int stateId = PBS_NORMAL;
if (!(option->state & State_Enabled))
@ -1954,7 +1952,7 @@ QRect QWindowsVistaStyle::subElementRect(SubElement element, const QStyleOption
int border = proxy()->pixelMetric(PM_DefaultFrameWidth, btn, widget);
rect = option->rect.adjusted(border, border, -border, -border);
if (SUCCEEDED(GetThemeMargins(theme, NULL, BP_PUSHBUTTON, stateId, TMT_CONTENTMARGINS, NULL, &borderSize))) {
if (SUCCEEDED(GetThemeMargins(theme, nullptr, BP_PUSHBUTTON, stateId, TMT_CONTENTMARGINS, nullptr, &borderSize))) {
rect.adjust(borderSize.cxLeftWidth, borderSize.cyTopHeight,
-borderSize.cxRightWidth, -borderSize.cyBottomHeight);
rect = visualRect(option->direction, option->rect, rect);
@ -1972,7 +1970,7 @@ QRect QWindowsVistaStyle::subElementRect(SubElement element, const QStyleOption
int y = option->rect.y();
int margin = proxy()->pixelMetric(QStyle::PM_HeaderMargin, option, widget);
XPThemeData theme(widget, 0,
XPThemeData theme(widget, nullptr,
QWindowsXPStylePrivate::HeaderTheme,
HP_HEADERSORTARROW, HSAS_SORTEDDOWN, option->rect);
@ -2045,7 +2043,7 @@ static bool buttonVisible(const QStyle::SubControl sc, const QStyleOptionTitleBa
bool isMinimized = tb->titleBarState & Qt::WindowMinimized;
bool isMaximized = tb->titleBarState & Qt::WindowMaximized;
const uint flags = tb->titleBarFlags;
const auto flags = tb->titleBarFlags;
bool retVal = false;
switch (sc) {
case QStyle::SC_TitleBarContextHelpButton:
@ -2103,7 +2101,7 @@ int QWindowsVistaStyle::styleHint(StyleHint hint, const QStyleOption *option, co
if (option) {
if (QStyleHintReturnMask *mask = qstyleoption_cast<QStyleHintReturnMask*>(returnData)) {
ret = true;
XPThemeData themeData(widget, 0,
XPThemeData themeData(widget, nullptr,
QWindowsXPStylePrivate::ToolTipTheme,
TTP_STANDARD, TTSS_NORMAL, option->rect);
mask->region = d->region(themeData);
@ -2112,7 +2110,7 @@ int QWindowsVistaStyle::styleHint(StyleHint hint, const QStyleOption *option, co
break;
case SH_Table_GridLineColor:
if (option)
ret = option->palette.color(QPalette::Base).darker(118).rgb();
ret = int(option->palette.color(QPalette::Base).darker(118).rgb());
else
ret = -1;
break;
@ -2323,7 +2321,7 @@ void QWindowsVistaStyle::polish(QWidget *widget)
//we do not have to care about unpolishing
widget->setContentsMargins(3, 0, 4, 0);
COLORREF bgRef;
HTHEME theme = OpenThemeData(widget ? QWindowsVistaStylePrivate::winId(widget) : 0, L"TOOLTIP");
HTHEME theme = OpenThemeData(widget ? QWindowsVistaStylePrivate::winId(widget) : nullptr, L"TOOLTIP");
if (theme && SUCCEEDED(GetThemeColor(theme, TTP_STANDARD, TTSS_NORMAL, TMT_TEXTCOLOR, &bgRef))) {
QColor textColor = QColor::fromRgb(bgRef);
QPalette pal;
@ -2463,7 +2461,7 @@ QIcon QWindowsVistaStyle::standardIcon(StandardPixmap standardIcon,
switch(standardIcon) {
case SP_CommandLink:
{
XPThemeData theme(0, 0,
XPThemeData theme(nullptr, nullptr,
QWindowsXPStylePrivate::ButtonTheme,
BP_COMMANDLINKGLYPH, CMDLGS_NORMAL);
if (theme.isValid()) {

2
src/plugins/styles/windowsvista/qwindowsvistastyle_p_p.h
View File

@ -162,7 +162,7 @@ class QWindowsVistaAnimation : public QBlendStyleAnimation
public:
QWindowsVistaAnimation(Type type, QObject *target) : QBlendStyleAnimation(type, target) { }
virtual bool isUpdateNeeded() const;
bool isUpdateNeeded() const override;
void paint(QPainter *painter, const QStyleOption *option);
};

158
src/plugins/styles/windowsvista/qwindowsxpstyle.cpp
View File

@ -117,7 +117,7 @@ static inline QBackingStore *backingStoreForWidget(const QWidget *widget)
if (const QWidget *topLevel = widget->nativeParentWidget())
if (QBackingStore *topLevelBackingStore = topLevel->backingStore())
return topLevelBackingStore;
return 0;
return nullptr;
}
static inline HDC hdcForWidgetBackingStore(const QWidget *widget)
@ -127,7 +127,7 @@ static inline HDC hdcForWidgetBackingStore(const QWidget *widget)
if (nativeInterface)
return static_cast<HDC>(nativeInterface->nativeResourceForBackingStore(QByteArrayLiteral("getDC"), backingStore));
}
return 0;
return nullptr;
}
// Theme data helper ------------------------------------------------------------------------------
@ -148,7 +148,7 @@ bool XPThemeData::isValid()
HTHEME XPThemeData::handle()
{
if (!QWindowsXPStylePrivate::useXP())
return 0;
return nullptr;
if (!htheme)
htheme = QWindowsXPStylePrivate::createTheme(theme, QWindowsXPStylePrivate::winId(widget));
@ -175,10 +175,10 @@ RECT XPThemeData::toRECT(const QRect &qr)
HRGN XPThemeData::mask(QWidget *widget)
{
if (!IsThemeBackgroundPartiallyTransparent(handle(), partId, stateId))
return 0;
return nullptr;
HRGN hrgn;
HDC dc = 0;
HDC dc = nullptr;
if (widget)
dc = hdcForWidgetBackingStore(widget);
RECT nativeRect = toRECT(rect);
@ -188,7 +188,7 @@ HRGN XPThemeData::mask(QWidget *widget)
// QWindowsXPStylePrivate -------------------------------------------------------------------------
// Static initializations
HWND QWindowsXPStylePrivate::m_vistaTreeViewHelper = 0;
HWND QWindowsXPStylePrivate::m_vistaTreeViewHelper = nullptr;
HTHEME QWindowsXPStylePrivate::m_themes[NThemes];
bool QWindowsXPStylePrivate::use_xp = false;
QBasicAtomicInt QWindowsXPStylePrivate::ref = Q_BASIC_ATOMIC_INITIALIZER(-1); // -1 based refcounting
@ -227,7 +227,7 @@ bool QWindowsXPStylePrivate::useXP(bool update)
{
if (!update)
return use_xp;
return use_xp = IsThemeActive() && (IsAppThemed() || !QApplication::instance());
return use_xp = IsThemeActive() && (IsAppThemed() || !QCoreApplication::instance());
}
/* \internal
@ -241,7 +241,7 @@ void QWindowsXPStylePrivate::init(bool force)
ref.ref();
useXP(true);
std::fill(m_themes, m_themes + NThemes, HTHEME(0));
std::fill(m_themes, m_themes + NThemes, nullptr);
}
/* \internal
@ -253,12 +253,12 @@ void QWindowsXPStylePrivate::cleanup(bool force)
if (bufferDC && nullBitmap)
SelectObject(bufferDC, nullBitmap);
DeleteObject(bufferBitmap);
bufferBitmap = 0;
bufferBitmap = nullptr;
}
if(bufferDC)
DeleteDC(bufferDC);
bufferDC = 0;
bufferDC = nullptr;
if (ref.deref() && !force)
return;
@ -282,7 +282,7 @@ void QWindowsXPStylePrivate::cleanup(bool force)
static inline HWND createTreeViewHelperWindow()
{
if (QPlatformNativeInterface *ni = QGuiApplication::platformNativeInterface()) {
void *hwnd = 0;
void *hwnd = nullptr;
void *wndProc = reinterpret_cast<void *>(DefWindowProc);
if (QMetaObject::invokeMethod(ni, "createMessageWindow", Qt::DirectConnection,
Q_RETURN_ARG(void*, hwnd),
@ -292,7 +292,7 @@ static inline HWND createTreeViewHelperWindow()
return reinterpret_cast<HWND>(hwnd);
}
}
return 0;
return nullptr;
}
bool QWindowsXPStylePrivate::initVistaTreeViewTheming()
@ -305,7 +305,7 @@ bool QWindowsXPStylePrivate::initVistaTreeViewTheming()
qWarning("Unable to create the treeview helper window.");
return false;
}
if (FAILED(SetWindowTheme(m_vistaTreeViewHelper, L"explorer", NULL))) {
if (FAILED(SetWindowTheme(m_vistaTreeViewHelper, L"explorer", nullptr))) {
qErrnoWarning("SetWindowTheme() failed.");
cleanupVistaTreeViewTheming();
return false;
@ -317,7 +317,7 @@ void QWindowsXPStylePrivate::cleanupVistaTreeViewTheming()
{
if (m_vistaTreeViewHelper) {
DestroyWindow(m_vistaTreeViewHelper);
m_vistaTreeViewHelper = 0;
m_vistaTreeViewHelper = nullptr;
}
}
@ -328,11 +328,12 @@ void QWindowsXPStylePrivate::cleanupVistaTreeViewTheming()
*/
void QWindowsXPStylePrivate::cleanupHandleMap()
{
for (int i = 0; i < NThemes; ++i)
if (m_themes[i]) {
CloseThemeData(m_themes[i]);
m_themes[i] = 0;
for (auto &theme : m_themes) {
if (theme) {
CloseThemeData(theme);
theme = nullptr;
}
}
QWindowsXPStylePrivate::cleanupVistaTreeViewTheming();
}
@ -340,7 +341,7 @@ HTHEME QWindowsXPStylePrivate::createTheme(int theme, HWND hwnd)
{
if (Q_UNLIKELY(theme < 0 || theme >= NThemes || !hwnd)) {
qWarning("Invalid parameters #%d, %p", theme, hwnd);
return 0;
return nullptr;
}
if (!m_themes[theme]) {
const wchar_t *name = themeNames[theme];
@ -427,16 +428,16 @@ HBITMAP QWindowsXPStylePrivate::buffer(int w, int h)
if (bufferDC && nullBitmap)
SelectObject(bufferDC, nullBitmap);
DeleteObject(bufferBitmap);
bufferBitmap = 0;
bufferBitmap = nullptr;
}
w = qMax(bufferW, w);
h = qMax(bufferH, h);
if (!bufferDC) {
HDC displayDC = GetDC(0);
HDC displayDC = GetDC(nullptr);
bufferDC = CreateCompatibleDC(displayDC);
ReleaseDC(0, displayDC);
ReleaseDC(nullptr, displayDC);
}
// Define the header
@ -450,22 +451,22 @@ HBITMAP QWindowsXPStylePrivate::buffer(int w, int h)
bmi.bmiHeader.biCompression = BI_RGB;
// Create the pixmap
bufferPixels = 0;
bufferBitmap = CreateDIBSection(bufferDC, &bmi, DIB_RGB_COLORS, (void **) &bufferPixels, 0, 0);
bufferPixels = nullptr;
bufferBitmap = CreateDIBSection(bufferDC, &bmi, DIB_RGB_COLORS, reinterpret_cast<void **>(&bufferPixels), nullptr, 0);
GdiFlush();
nullBitmap = (HBITMAP)SelectObject(bufferDC, bufferBitmap);
nullBitmap = static_cast<HBITMAP>(SelectObject(bufferDC, bufferBitmap));
if (Q_UNLIKELY(!bufferBitmap)) {
qErrnoWarning("QWindowsXPStylePrivate::buffer(%dx%d), CreateDIBSection() failed.", w, h);
bufferW = 0;
bufferH = 0;
return 0;
return nullptr;
}
if (Q_UNLIKELY(!bufferPixels)) {
qErrnoWarning("QWindowsXPStylePrivate::buffer(%dx%d), CreateDIBSection() did not allocate pixel data.", w, h);
bufferW = 0;
bufferH = 0;
return 0;
return nullptr;
}
bufferW = w;
bufferH = h;
@ -493,7 +494,7 @@ bool QWindowsXPStylePrivate::isTransparent(XPThemeData &themeData)
*/
QRegion QWindowsXPStylePrivate::region(XPThemeData &themeData)
{
HRGN hRgn = 0;
HRGN hRgn = nullptr;
const qreal factor = QWindowsStylePrivate::nativeMetricScaleFactor(themeData.widget);
RECT rect = themeData.toRECT(QRect(themeData.rect.topLeft() / factor, themeData.rect.size() / factor));
if (!SUCCEEDED(GetThemeBackgroundRegion(themeData.handle(), bufferHDC(), themeData.partId,
@ -502,12 +503,12 @@ QRegion QWindowsXPStylePrivate::region(XPThemeData &themeData)
}
HRGN dest = CreateRectRgn(0, 0, 0, 0);
const bool success = CombineRgn(dest, hRgn, 0, RGN_COPY) != ERROR;
const bool success = CombineRgn(dest, hRgn, nullptr, RGN_COPY) != ERROR;
QRegion region;
if (success) {
int numBytes = GetRegionData(dest, 0, 0);
const auto numBytes = GetRegionData(dest, 0, nullptr);
if (numBytes == 0)
return QRegion();
@ -551,7 +552,7 @@ bool QWindowsXPStylePrivate::hasAlphaChannel(const QRect &rect)
int firstAlpha = -1;
for (int y = startY; y < h/2; ++y) {
DWORD *buffer = (DWORD*)bufferPixels + (y * bufferW);
auto buffer = reinterpret_cast<const DWORD *>(bufferPixels) + (y * bufferW);
for (int x = startX; x < w; ++x, ++buffer) {
int alpha = (*buffer) >> 24;
if (firstAlpha == -1)
@ -580,7 +581,7 @@ bool QWindowsXPStylePrivate::fixAlphaChannel(const QRect &rect)
bool hasFixedAlphaValue = false;
for (int y = startY; y < h; ++y) {
DWORD *buffer = (DWORD*)bufferPixels + (y * bufferW);
auto buffer = reinterpret_cast<DWORD *>(bufferPixels) + (y * bufferW);
for (int x = startX; x < w; ++x, ++buffer) {
uint pixel = *buffer;
int alpha = qAlpha(pixel);
@ -612,7 +613,7 @@ bool QWindowsXPStylePrivate::swapAlphaChannel(const QRect &rect, bool allPixels)
// Flip the alphas, so that 255-alpha pixels are 0, and 0-alpha are 255.
for (int y = startY; y < h; ++y) {
DWORD *buffer = (DWORD*)bufferPixels + (y * bufferW);
auto buffer = reinterpret_cast<DWORD *>(bufferPixels) + (y * bufferW);
for (int x = startX; x < w; ++x, ++buffer) {
if (allPixels) {
*buffer |= 0xFF000000;
@ -668,7 +669,7 @@ bool QWindowsXPStylePrivate::drawBackground(XPThemeData &themeData)
return true;
QPainter *painter = themeData.painter;
Q_ASSERT_X(painter != 0, "QWindowsXPStylePrivate::drawBackground()", "Trying to draw a theme part without a painter");
Q_ASSERT_X(painter != nullptr, "QWindowsXPStylePrivate::drawBackground()", "Trying to draw a theme part without a painter");
if (!painter || !painter->isActive())
return false;
@ -706,7 +707,7 @@ bool QWindowsXPStylePrivate::drawBackground(XPThemeData &themeData)
}
}
const HDC dc = canDrawDirectly ? hdcForWidgetBackingStore(themeData.widget) : HDC(0);
const HDC dc = canDrawDirectly ? hdcForWidgetBackingStore(themeData.widget) : nullptr;
const bool result = dc
? drawBackgroundDirectly(dc, themeData, aditionalDevicePixelRatio)
: drawBackgroundThruNativeBuffer(themeData, aditionalDevicePixelRatio);
@ -740,7 +741,7 @@ bool QWindowsXPStylePrivate::drawBackgroundDirectly(HDC dc, XPThemeData &themeDa
{
QPainter *painter = themeData.painter;
const auto deviceTransform = painter->deviceTransform();
const auto &deviceTransform = painter->deviceTransform();
const QPointF redirectionDelta(deviceTransform.dx(), deviceTransform.dy());
const QRect area = scaleRect(QRectF(themeData.rect), additionalDevicePixelRatio).translated(redirectionDelta).toRect();
@ -771,7 +772,7 @@ bool QWindowsXPStylePrivate::drawBackgroundDirectly(HDC dc, XPThemeData &themeDa
| (themeData.mirrorHorizontally ? DTBG_MIRRORDC : 0);
const HRESULT result = DrawThemeBackgroundEx(themeData.handle(), dc, themeData.partId, themeData.stateId, &(drawRECT), &drawOptions);
SelectClipRgn(dc, 0);
SelectClipRgn(dc, nullptr);
DeleteObject(hrgn);
return SUCCEEDED(result);
}
@ -1099,9 +1100,7 @@ QWindowsXPStyle::QWindowsXPStyle()
/*!
Destroys the style.
*/
QWindowsXPStyle::~QWindowsXPStyle()
{
}
QWindowsXPStyle::~QWindowsXPStyle() = default;
/*! \reimp */
void QWindowsXPStyle::unpolish(QApplication *app)
@ -1157,7 +1156,7 @@ void QWindowsXPStyle::polish(QWidget *widget)
if (!d->hasInitColors) {
// Get text color for group box labels
COLORREF cref;
XPThemeData theme(widget, 0, QWindowsXPStylePrivate::ButtonTheme, 0, 0);
XPThemeData theme(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, 0, 0);
GetThemeColor(theme.handle(), BP_GROUPBOX, GBS_NORMAL, TMT_TEXTCOLOR, &cref);
d->groupBoxTextColor = qRgb(GetRValue(cref), GetGValue(cref), GetBValue(cref));
GetThemeColor(theme.handle(), BP_GROUPBOX, GBS_DISABLED, TMT_TEXTCOLOR, &cref);
@ -1270,7 +1269,7 @@ QRect QWindowsXPStyle::subElementRect(SubElement sr, const QStyleOption *option,
if (const QStyleOptionButton *btn = qstyleoption_cast<const QStyleOptionButton *>(option)) {
MARGINS borderSize;
if (widget) {
XPThemeData buttontheme(widget, 0, QWindowsXPStylePrivate::ButtonTheme);
XPThemeData buttontheme(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme);
HTHEME theme = buttontheme.handle();
if (theme) {
int stateId;
@ -1288,7 +1287,7 @@ QRect QWindowsXPStyle::subElementRect(SubElement sr, const QStyleOption *option,
int border = proxy()->pixelMetric(PM_DefaultFrameWidth, btn, widget);
rect = option->rect.adjusted(border, border, -border, -border);
if (SUCCEEDED(GetThemeMargins(theme, NULL, BP_PUSHBUTTON, stateId, TMT_CONTENTMARGINS, NULL, &borderSize))) {
if (SUCCEEDED(GetThemeMargins(theme, nullptr, BP_PUSHBUTTON, stateId, TMT_CONTENTMARGINS, nullptr, &borderSize))) {
rect.adjust(borderSize.cxLeftWidth, borderSize.cyTopHeight,
-borderSize.cxRightWidth, -borderSize.cyBottomHeight);
rect = visualRect(option->direction, option->rect, rect);
@ -1468,7 +1467,7 @@ case PE_Frame:
return;
themeNumber = QWindowsXPStylePrivate::ListViewTheme;
partId = LVP_LISTGROUP;
XPThemeData theme(widget, 0, themeNumber, partId, 0);
XPThemeData theme(widget, nullptr, themeNumber, partId);
if (!(flags & State_Enabled))
stateId = ETS_DISABLED;
@ -1496,9 +1495,9 @@ case PE_Frame:
p->drawRect(QRectF(option->rect).adjusted(0, 0, -topLevelAdjustment, -topLevelAdjustment));
p->setPen(oldPen);
return;
} else if (fillType == BT_NONE) {
return;
}
if (fillType == BT_NONE)
return;
}
break;
}
@ -1514,7 +1513,8 @@ case PE_Frame:
p->drawRect(option->rect.adjusted(0, 0, -1, -1));
p->setPen(oldPen);
return;
} else if (qstyleoption_cast<const QStyleOptionFrame *>(option)) {
}
if (qstyleoption_cast<const QStyleOptionFrame *>(option)) {
themeNumber = QWindowsXPStylePrivate::EditTheme;
partId = EP_EDITTEXT;
noContent = true;
@ -1538,7 +1538,7 @@ case PE_Frame:
if (QWindowsXPStylePrivate::isLineEditBaseColorSet(option, widget)) {
p->fillRect(panel->rect, panel->palette.brush(QPalette::Base));
} else {
XPThemeData theme(0, p, themeNumber, partId, stateId, rect);
XPThemeData theme(nullptr, p, themeNumber, partId, stateId, rect);
if (!theme.isValid()) {
QWindowsStyle::drawPrimitive(pe, option, p, widget);
return;
@ -1587,9 +1587,9 @@ case PE_Frame:
wchar_t themeFileName[maxlength];
wchar_t themeColor[maxlength];
// Due to a a scaling issue with the XP Silver theme, tab gradients are not used with it
if (GetCurrentThemeName(themeFileName, maxlength, themeColor, maxlength, NULL, 0) == S_OK) {
wchar_t *offset = 0;
if ((offset = wcsrchr(themeFileName, QChar(QLatin1Char('\\')).unicode())) != NULL) {
if (GetCurrentThemeName(themeFileName, maxlength, themeColor, maxlength, nullptr, 0) == S_OK) {
wchar_t *offset = nullptr;
if ((offset = wcsrchr(themeFileName, QChar(QLatin1Char('\\')).unicode())) != nullptr) {
offset++;
if (!lstrcmp(offset, L"Luna.msstyles") && !lstrcmp(offset, L"Metallic")) {
useGradient = false;
@ -1820,7 +1820,7 @@ case PE_Frame:
bef_v -= delta;
aft_h += delta;
aft_v += delta;
XPThemeData theme(0, p, QWindowsXPStylePrivate::XpTreeViewTheme);
XPThemeData theme(nullptr, p, QWindowsXPStylePrivate::XpTreeViewTheme);
theme.rect = QRect(bef_h, bef_v, decoration_size, decoration_size);
theme.partId = TVP_GLYPH;
theme.stateId = flags & QStyle::State_Open ? GLPS_OPENED : GLPS_CLOSED;
@ -1912,7 +1912,7 @@ void QWindowsXPStyle::drawControl(ControlElement element, const QStyleOption *op
{
themeNumber = QWindowsXPStylePrivate::StatusTheme;
partId = SP_GRIPPER;
XPThemeData theme(0, p, themeNumber, partId, 0);
XPThemeData theme(nullptr, p, themeNumber, partId);
QSize size = (theme.size() * QWindowsStylePrivate::nativeMetricScaleFactor(widget)).toSize();
size.rheight()--;
if (const QStyleOptionSizeGrip *sg = qstyleoption_cast<const QStyleOptionSizeGrip *>(option)) {
@ -1980,7 +1980,7 @@ void QWindowsXPStyle::drawControl(ControlElement element, const QStyleOption *op
if (btn->features & QStyleOptionButton::HasMenu) {
int mbiw = 0, mbih = 0;
XPThemeData theme(widget, 0,
XPThemeData theme(widget, nullptr,
QWindowsXPStylePrivate::ToolBarTheme,
TP_SPLITBUTTONDROPDOWN);
if (theme.isValid()) {
@ -2309,7 +2309,7 @@ void QWindowsXPStyle::drawControl(ControlElement element, const QStyleOption *op
if (isFloating) {
titleRect.adjust(0, -fw, 0, 0);
if (widget != 0 && widget->windowIcon().cacheKey() != QApplication::windowIcon().cacheKey())
if (widget != nullptr && widget->windowIcon().cacheKey() != QApplication::windowIcon().cacheKey())
titleRect.adjust(titleRect.height() + mw, 0, 0, 0);
} else {
titleRect.adjust(mw, 0, 0, 0);
@ -2775,7 +2775,7 @@ void QWindowsXPStyle::drawComplexControl(ComplexControl cc, const QStyleOptionCo
break;
v = nextInterval;
}
if (lines.size() > 0) {
if (!lines.isEmpty()) {
p->save();
p->translate(slrect.topLeft());
p->drawLines(lines.constData(), lines.size());
@ -2923,7 +2923,7 @@ void QWindowsXPStyle::drawComplexControl(ComplexControl cc, const QStyleOptionCo
p->save();
p->setClipRect(menuarea);
tool.rect = option->rect;
proxy()->drawPrimitive(PE_PanelButtonBevel, &tool, p, 0);
proxy()->drawPrimitive(PE_PanelButtonBevel, &tool, p, nullptr);
p->restore();
}
// Draw arrow
@ -3223,7 +3223,7 @@ void QWindowsXPStyle::drawComplexControl(ComplexControl cc, const QStyleOptionCo
}
}
static inline Qt::Orientation progressBarOrientation(const QStyleOption *option = 0)
static inline Qt::Orientation progressBarOrientation(const QStyleOption *option = nullptr)
{
if (const QStyleOptionProgressBar *pb = qstyleoption_cast<const QStyleOptionProgressBar *>(option))
return pb->orientation;
@ -3234,27 +3234,27 @@ int QWindowsXPStylePrivate::pixelMetricFromSystemDp(QStyle::PixelMetric pm, cons
{
switch (pm) {
case QStyle::PM_IndicatorWidth:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ButtonTheme, BP_CHECKBOX, CBS_UNCHECKEDNORMAL).width();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, BP_CHECKBOX, CBS_UNCHECKEDNORMAL).width();
case QStyle::PM_IndicatorHeight:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ButtonTheme, BP_CHECKBOX, CBS_UNCHECKEDNORMAL).height();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, BP_CHECKBOX, CBS_UNCHECKEDNORMAL).height();
case QStyle::PM_ExclusiveIndicatorWidth:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ButtonTheme, BP_RADIOBUTTON, RBS_UNCHECKEDNORMAL).width();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, BP_RADIOBUTTON, RBS_UNCHECKEDNORMAL).width();
case QStyle::PM_ExclusiveIndicatorHeight:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ButtonTheme, BP_RADIOBUTTON, RBS_UNCHECKEDNORMAL).height();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, BP_RADIOBUTTON, RBS_UNCHECKEDNORMAL).height();
case QStyle::PM_ProgressBarChunkWidth:
return progressBarOrientation(option) == Qt::Horizontal
? XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ProgressTheme, PP_CHUNK).width()
: XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::ProgressTheme, PP_CHUNKVERT).height();
? XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ProgressTheme, PP_CHUNK).width()
: XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::ProgressTheme, PP_CHUNKVERT).height();
case QStyle::PM_SliderThickness:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::TrackBarTheme, TKP_THUMB).height();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::TrackBarTheme, TKP_THUMB).height();
case QStyle::PM_TitleBarHeight:
return widget && (widget->windowType() == Qt::Tool)
? GetSystemMetrics(SM_CYSMCAPTION) + GetSystemMetrics(SM_CXSIZEFRAME)
: GetSystemMetrics(SM_CYCAPTION) + GetSystemMetrics(SM_CXSIZEFRAME);
case QStyle::PM_MdiSubWindowFrameWidth:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::WindowTheme, WP_FRAMELEFT, FS_ACTIVE).width();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::WindowTheme, WP_FRAMELEFT, FS_ACTIVE).width();
case QStyle::PM_DockWidgetFrameWidth:
return XPThemeData::themeSize(widget, 0, QWindowsXPStylePrivate::WindowTheme, WP_SMALLFRAMERIGHT, FS_ACTIVE).width();
return XPThemeData::themeSize(widget, nullptr, QWindowsXPStylePrivate::WindowTheme, WP_SMALLFRAMERIGHT, FS_ACTIVE).width();
default:
break;
}
@ -3620,7 +3620,7 @@ QSize QWindowsXPStyle::sizeFromContents(ContentsType ct, const QStyleOption *opt
case CT_LineEdit:
case CT_ComboBox:
{
XPThemeData buttontheme(widget, 0, QWindowsXPStylePrivate::ButtonTheme, BP_PUSHBUTTON, PBS_NORMAL);
XPThemeData buttontheme(widget, nullptr, QWindowsXPStylePrivate::ButtonTheme, BP_PUSHBUTTON, PBS_NORMAL);
if (buttontheme.isValid()) {
const qreal factor = QWindowsXPStylePrivate::nativeMetricScaleFactor(widget);
const QMarginsF borderSize = buttontheme.margins() * factor;
@ -3741,11 +3741,11 @@ int QWindowsXPStyle::styleHint(StyleHint hint, const QStyleOption *option, const
titleBarRect.setHeight(tbHeight);
XPThemeData themeData;
if (titlebar->titleBarState & Qt::WindowMinimized) {
themeData = XPThemeData(widget, 0,
themeData = XPThemeData(widget, nullptr,
QWindowsXPStylePrivate::WindowTheme,
WP_MINCAPTION, CS_ACTIVE, titleBarRect);
} else
themeData = XPThemeData(widget, 0,
themeData = XPThemeData(widget, nullptr,
QWindowsXPStylePrivate::WindowTheme,
WP_CAPTION, CS_ACTIVE, titleBarRect);
mask->region = d->region(themeData) +
@ -3774,10 +3774,8 @@ int QWindowsXPStyle::styleHint(StyleHint hint, const QStyleOption *option, const
/*! \reimp */
QPalette QWindowsXPStyle::standardPalette() const
{
if (QWindowsXPStylePrivate::useXP() && QApplicationPrivate::sys_pal)
return *QApplicationPrivate::sys_pal;
else
return QWindowsStyle::standardPalette();
return QWindowsXPStylePrivate::useXP() && QApplicationPrivate::sys_pal
? *QApplicationPrivate::sys_pal : QWindowsStyle::standardPalette();
}
/*!
@ -3795,7 +3793,7 @@ QPixmap QWindowsXPStyle::standardPixmap(StandardPixmap standardPixmap, const QSt
if (qstyleoption_cast<const QStyleOptionDockWidget *>(option))
{
if (widget && widget->isWindow()) {
XPThemeData theme(widget, 0, QWindowsXPStylePrivate::WindowTheme, WP_SMALLCLOSEBUTTON, CBS_NORMAL);
XPThemeData theme(widget, nullptr, QWindowsXPStylePrivate::WindowTheme, WP_SMALLCLOSEBUTTON, CBS_NORMAL);
if (theme.isValid()) {
const QSize size = (theme.size() * QWindowsStylePrivate::nativeMetricScaleFactor(widget)).toSize();
return QIcon(QWindowsStyle::standardPixmap(standardPixmap, option, widget)).pixmap(size);
@ -3826,9 +3824,9 @@ QIcon QWindowsXPStyle::standardIcon(StandardPixmap standardIcon,
if (qstyleoption_cast<const QStyleOptionDockWidget *>(option))
{
if (d->dockFloat.isNull()) {
XPThemeData themeSize(0, 0, QWindowsXPStylePrivate::WindowTheme,
XPThemeData themeSize(nullptr, nullptr, QWindowsXPStylePrivate::WindowTheme,
WP_SMALLCLOSEBUTTON, CBS_NORMAL);
XPThemeData theme(0, 0, QWindowsXPStylePrivate::WindowTheme,
XPThemeData theme(nullptr, nullptr, QWindowsXPStylePrivate::WindowTheme,
WP_MAXBUTTON, MAXBS_NORMAL);
if (theme.isValid()) {
const QSize size = (themeSize.size() * QWindowsStylePrivate::nativeMetricScaleFactor(widget)).toSize();
@ -3862,7 +3860,7 @@ QIcon QWindowsXPStyle::standardIcon(StandardPixmap standardIcon,
if (qstyleoption_cast<const QStyleOptionDockWidget *>(option))
{
if (d->dockClose.isNull()) {
XPThemeData theme(0, 0, QWindowsXPStylePrivate::WindowTheme,
XPThemeData theme(nullptr, nullptr, QWindowsXPStylePrivate::WindowTheme,
WP_SMALLCLOSEBUTTON, CBS_NORMAL);
if (theme.isValid()) {
const QSize size = (theme.size() * QWindowsStylePrivate::nativeMetricScaleFactor(widget)).toSize();
@ -3896,9 +3894,9 @@ QIcon QWindowsXPStyle::standardIcon(StandardPixmap standardIcon,
if (qstyleoption_cast<const QStyleOptionDockWidget *>(option))
{
if (d->dockFloat.isNull()) {
XPThemeData themeSize(0, 0, QWindowsXPStylePrivate::WindowTheme,
XPThemeData themeSize(nullptr, nullptr, QWindowsXPStylePrivate::WindowTheme,
WP_SMALLCLOSEBUTTON, CBS_NORMAL);
XPThemeData theme(0, 0, QWindowsXPStylePrivate::WindowTheme,
XPThemeData theme(nullptr, nullptr, QWindowsXPStylePrivate::WindowTheme,
WP_RESTOREBUTTON, RBS_NORMAL);
if (theme.isValid()) {
const QSize size = (themeSize.size() * QWindowsStylePrivate::nativeMetricScaleFactor(widget)).toSize();

61
src/plugins/styles/windowsvista/qwindowsxpstyle_p_p.h
View File

@ -100,11 +100,11 @@ class QDebug;
class XPThemeData
{
public:
explicit XPThemeData(const QWidget *w = 0, QPainter *p = 0, int themeIn = -1,
explicit XPThemeData(const QWidget *w = nullptr, QPainter *p = nullptr, int themeIn = -1,
int part = 0, int state = 0, const QRect &r = QRect())
: widget(w), painter(p), theme(themeIn), htheme(0), partId(part), stateId(state),
: widget(w), painter(p), theme(themeIn), partId(part), stateId(state),
mirrorHorizontally(false), mirrorVertically(false), noBorder(false),
noContent(false), rotate(0), rect(r)
noContent(false), rect(r)
{}
HRGN mask(QWidget *widget);
@ -117,17 +117,17 @@ public:
QMarginsF margins(const QRect &rect, int propId = TMT_CONTENTMARGINS);
QMarginsF margins(int propId = TMT_CONTENTMARGINS);
static QSizeF themeSize(const QWidget *w = 0, QPainter *p = 0, int themeIn = -1, int part = 0, int state = 0);
static QMarginsF themeMargins(const QRect &rect, const QWidget *w = 0, QPainter *p = 0, int themeIn = -1,
static QSizeF themeSize(const QWidget *w = nullptr, QPainter *p = nullptr, int themeIn = -1, int part = 0, int state = 0);
static QMarginsF themeMargins(const QRect &rect, const QWidget *w = nullptr, QPainter *p = nullptr, int themeIn = -1,
int part = 0, int state = 0, int propId = TMT_CONTENTMARGINS);
static QMarginsF themeMargins(const QWidget *w = 0, QPainter *p = 0, int themeIn = -1,
static QMarginsF themeMargins(const QWidget *w = nullptr, QPainter *p = nullptr, int themeIn = -1,
int part = 0, int state = 0, int propId = TMT_CONTENTMARGINS);
const QWidget *widget;
QPainter *painter;
int theme;
HTHEME htheme;
HTHEME htheme = nullptr;
int partId;
int stateId;
@ -135,18 +135,18 @@ public:
uint mirrorVertically : 1;
uint noBorder : 1;
uint noContent : 1;
uint rotate;
uint rotate = 0;
QRect rect;
};
struct ThemeMapKey {
int theme;
int partId;
int stateId;
bool noBorder;
bool noContent;
int theme = 0;
int partId = -1;
int stateId = -1;
bool noBorder = false;
bool noContent = false;
ThemeMapKey() : partId(-1), stateId(-1) {}
ThemeMapKey() = default;
ThemeMapKey(const XPThemeData &data)
: theme(data.theme), partId(data.partId), stateId(data.stateId),
noBorder(data.noBorder), noContent(data.noContent) {}
@ -171,7 +171,7 @@ enum AlphaChannelType {
};
struct ThemeMapData {
AlphaChannelType alphaType; // Which type of alpha on part & state
AlphaChannelType alphaType = UnknownAlpha; // Which type of alpha on part & state
bool dataValid : 1; // Only used to detect if hash value is ok
bool partIsTransparent : 1;
@ -217,15 +217,13 @@ public:
};
QWindowsXPStylePrivate()
: QWindowsStylePrivate(), hasInitColors(false), bufferDC(0), bufferBitmap(0), nullBitmap(0),
bufferPixels(0), bufferW(0), bufferH(0)
{ init(); }
~QWindowsXPStylePrivate()
{ cleanup(); }
static int pixelMetricFromSystemDp(QStyle::PixelMetric pm, const QStyleOption *option = 0, const QWidget *widget = 0);
static int fixedPixelMetric(QStyle::PixelMetric pm, const QStyleOption *option = 0, const QWidget *widget = 0);
static int pixelMetricFromSystemDp(QStyle::PixelMetric pm, const QStyleOption *option = nullptr, const QWidget *widget = nullptr);
static int fixedPixelMetric(QStyle::PixelMetric pm, const QStyleOption *option = nullptr, const QWidget *widget = nullptr);
static HWND winId(const QWidget *widget);
@ -251,10 +249,10 @@ public:
bool fixAlphaChannel(const QRect &rect);
bool swapAlphaChannel(const QRect &rect, bool allPixels = false);
QRgb groupBoxTextColor;
QRgb groupBoxTextColorDisabled;
QRgb sliderTickColor;
bool hasInitColors;
QRgb groupBoxTextColor = 0;
QRgb groupBoxTextColorDisabled = 0;
QRgb sliderTickColor = 0;
bool hasInitColors = false;
static HTHEME createTheme(int theme, HWND hwnd);
static QString themeName(int theme);
@ -277,11 +275,12 @@ private:
static bool use_xp;
QHash<ThemeMapKey, ThemeMapData> alphaCache;
HDC bufferDC;
HBITMAP bufferBitmap;
HBITMAP nullBitmap;
uchar *bufferPixels;
int bufferW, bufferH;
HDC bufferDC = nullptr;
HBITMAP bufferBitmap = nullptr;
HBITMAP nullBitmap = nullptr;
uchar *bufferPixels = nullptr;
int bufferW = 0;
int bufferH = 0;
static HWND m_vistaTreeViewHelper;
static HTHEME m_themes[NThemes];
@ -292,7 +291,7 @@ inline QSizeF XPThemeData::size()
QSizeF result(0, 0);
if (isValid()) {
SIZE size;
if (SUCCEEDED(GetThemePartSize(handle(), 0, partId, stateId, 0, TS_TRUE, &size)))
if (SUCCEEDED(GetThemePartSize(handle(), nullptr, partId, stateId, nullptr, TS_TRUE, &size)))
result = QSize(size.cx, size.cy);
}
return result;
@ -304,7 +303,7 @@ inline QMarginsF XPThemeData::margins(const QRect &qRect, int propId)
if (isValid()) {
MARGINS margins;
RECT rect = XPThemeData::toRECT(qRect);
if (SUCCEEDED(GetThemeMargins(handle(), 0, partId, stateId, propId, &rect, &margins)))
if (SUCCEEDED(GetThemeMargins(handle(), nullptr, partId, stateId, propId, &rect, &margins)))
result = QMargins(margins.cxLeftWidth, margins.cyTopHeight, margins.cxRightWidth, margins.cyBottomHeight);
}
return result;
@ -315,7 +314,7 @@ inline QMarginsF XPThemeData::margins(int propId)
QMarginsF result(0, 0, 0 ,0);
if (isValid()) {
MARGINS margins;
if (SUCCEEDED(GetThemeMargins(handle(), 0, partId, stateId, propId, NULL, &margins)))
if (SUCCEEDED(GetThemeMargins(handle(), nullptr, partId, stateId, propId, nullptr, &margins)))
result = QMargins(margins.cxLeftWidth, margins.cyTopHeight, margins.cxRightWidth, margins.cyBottomHeight);
}
return result;

30
src/widgets/styles/qwindowsstyle.cpp
View File

@ -120,10 +120,7 @@ enum QSliderDirection { SlUp, SlDown, SlLeft, SlRight };
\internal
*/
QWindowsStylePrivate::QWindowsStylePrivate()
: alt_down(false), menuBarTimer(0)
{
}
QWindowsStylePrivate::QWindowsStylePrivate() = default;
qreal QWindowsStylePrivate::appDevicePixelRatio()
{
@ -157,7 +154,7 @@ bool QWindowsStyle::eventFilter(QObject *o, QEvent *e)
QList<QWidget *> l = widget->findChildren<QWidget *>();
auto ignorable = [](QWidget *w) {
return w->isWindow() || !w->isVisible()
|| w->style()->styleHint(SH_UnderlineShortcut, 0, w);
|| w->style()->styleHint(SH_UnderlineShortcut, nullptr, w);
};
l.erase(std::remove_if(l.begin(), l.end(), ignorable), l.end());
// Update states before repainting
@ -242,7 +239,7 @@ void QWindowsStyle::polish(QApplication *app)
QCommonStyle::polish(app);
QWindowsStylePrivate *d = const_cast<QWindowsStylePrivate*>(d_func());
// We only need the overhead when shortcuts are sometimes hidden
if (!proxy()->styleHint(SH_UnderlineShortcut, 0) && app)
if (!proxy()->styleHint(SH_UnderlineShortcut, nullptr) && app)
app->installEventFilter(this);
const auto &palette = QGuiApplication::palette();
@ -343,7 +340,6 @@ int QWindowsStylePrivate::fixedPixelMetric(QStyle::PixelMetric pm)
case QStyle::PM_MenuVMargin:
case QStyle::PM_ToolBarItemMargin:
return 1;
break;
case QStyle::PM_DockWidgetSeparatorExtent:
return 4;
#if QT_CONFIG(tabbar)
@ -396,8 +392,6 @@ static QScreen *screenOf(const QWidget *w)
// and account for secondary screens with differing logical DPI.
qreal QWindowsStylePrivate::nativeMetricScaleFactor(const QWidget *widget)
{
if (!QHighDpiScaling::isActive())
return 1;
qreal result = qreal(1) / QWindowsStylePrivate::devicePixelRatio(widget);
if (QGuiApplicationPrivate::screen_list.size() > 1) {
const QScreen *primaryScreen = QGuiApplication::primaryScreen();
@ -698,17 +692,17 @@ void QWindowsStyle::drawPrimitive(PrimitiveElement pe, const QStyleOption *opt,
x -= 2;
if (opt->rect.height() > 4) {
qDrawShadePanel(p, x, 2, 3, opt->rect.height() - 4,
opt->palette, false, 1, 0);
opt->palette, false, 1, nullptr);
qDrawShadePanel(p, x + 3, 2, 3, opt->rect.height() - 4,
opt->palette, false, 1, 0);
opt->palette, false, 1, nullptr);
}
} else {
if (opt->rect.width() > 4) {
int y = opt->rect.height() / 2 - 4;
qDrawShadePanel(p, 2, y, opt->rect.width() - 4, 3,
opt->palette, false, 1, 0);
opt->palette, false, 1, nullptr);
qDrawShadePanel(p, 2, y + 3, opt->rect.width() - 4, 3,
opt->palette, false, 1, 0);
opt->palette, false, 1, nullptr);
}
}
p->restore();
@ -759,7 +753,7 @@ void QWindowsStyle::drawPrimitive(PrimitiveElement pe, const QStyleOption *opt,
}
} else {
qDrawWinButton(p, opt->rect, opt->palette,
opt->state & (State_Sunken | State_On), panel ? &fill : 0);
opt->state & (State_Sunken | State_On), panel ? &fill : nullptr);
}
} else {
p->fillRect(opt->rect, fill);
@ -980,7 +974,7 @@ void QWindowsStyle::drawPrimitive(PrimitiveElement pe, const QStyleOption *opt,
if (opt->state & (State_Raised | State_On | State_Sunken)) {
qDrawWinButton(p, opt->rect, opt->palette, opt->state & (State_Sunken | State_On),
panel ? &fill : 0);
panel ? &fill : nullptr);
} else {
if (panel)
p->fillRect(opt->rect, fill);
@ -1005,7 +999,7 @@ void QWindowsStyle::drawPrimitive(PrimitiveElement pe, const QStyleOption *opt,
#endif // QT_CONFIG(dockwidget)
case PE_FrameStatusBarItem:
qDrawShadePanel(p, opt->rect, opt->palette, true, 1, 0);
qDrawShadePanel(p, opt->rect, opt->palette, true, 1, nullptr);
break;
case PE_IndicatorProgressChunk:
@ -1043,7 +1037,7 @@ void QWindowsStyle::drawPrimitive(PrimitiveElement pe, const QStyleOption *opt,
break;
case PE_FrameTabWidget: {
qDrawWinButton(p, opt->rect, opt->palette, false, 0);
qDrawWinButton(p, opt->rect, opt->palette, false, nullptr);
break;
}
default:
@ -1585,6 +1579,7 @@ void QWindowsStyle::drawControl(ControlElement ce, const QStyleOption *opt, QPai
case QStyleOptionToolBar::Beginning:
case QStyleOptionToolBar::OnlyOne:
paintBottomBorder = false;
break;
default:
break;
}
@ -1600,6 +1595,7 @@ void QWindowsStyle::drawControl(ControlElement ce, const QStyleOption *opt, QPai
case QStyleOptionToolBar::OnlyOne:
paintRightBorder = false;
paintLeftBorder = false;
break;
default:
break;
}

4
src/widgets/styles/qwindowsstyle_p_p.h
View File

@ -77,9 +77,9 @@ public:
bool hasSeenAlt(const QWidget *widget) const;
bool altDown() const { return alt_down; }
bool alt_down;
bool alt_down = false;
QList<const QWidget *> seenAlt;
int menuBarTimer;
int menuBarTimer = 0;
QColor inactiveCaptionText;
QColor activeCaptionColor;

7
tests/auto/corelib/io/qurl/tst_qurl.cpp
View File

@ -3389,8 +3389,15 @@ void tst_QUrl::acceptEmptyAuthoritySegments()
void tst_QUrl::effectiveTLDs_data()
{
// See also: tst_QNetworkCookieJar::setCookiesFromUrl().
// in tests/auto/network/access/qnetworkcookiejar/tst_qnetworkcookiejar.cpp
QTest::addColumn<QUrl>("domain");
QTest::addColumn<QString>("TLD");
// TODO: autogenerate test-cases from:
// https://raw.githubusercontent.com/publicsuffix/list/master/tests/test_psl.txt
// checkPublicSuffix(domain, tail) appears in the list if
// either tail is null and domain is public or
// tail is the "registrable" part of domain; i.e. its minimal non-public tail.
QTest::newRow("yes0") << QUrl::fromEncoded("http://test.co.uk") << ".co.uk";
QTest::newRow("yes1") << QUrl::fromEncoded("http://test.com") << ".com";

4
tests/auto/gui/text/qfont/tst_qfont.cpp
View File

@ -539,10 +539,10 @@ void tst_QFont::defaultFamily_data()
QTest::addColumn<QStringList>("acceptableFamilies");
QTest::newRow("serif") << QFont::Serif << (QStringList() << "Times New Roman" << "Times" << "Droid Serif" << getPlatformGenericFont("serif").split(","));
QTest::newRow("monospace") << QFont::Monospace << (QStringList() << "Courier New" << "Monaco" << "Droid Sans Mono" << getPlatformGenericFont("monospace").split(","));
QTest::newRow("monospace") << QFont::Monospace << (QStringList() << "Courier New" << "Monaco" << "Menlo" << "Droid Sans Mono" << getPlatformGenericFont("monospace").split(","));
QTest::newRow("cursive") << QFont::Cursive << (QStringList() << "Comic Sans MS" << "Apple Chancery" << "Roboto" << "Droid Sans" << getPlatformGenericFont("cursive").split(","));
QTest::newRow("fantasy") << QFont::Fantasy << (QStringList() << "Impact" << "Zapfino" << "Roboto" << "Droid Sans" << getPlatformGenericFont("fantasy").split(","));
QTest::newRow("sans-serif") << QFont::SansSerif << (QStringList() << "Arial" << "Lucida Grande" << "Roboto" << "Droid Sans" << "Segoe UI" << getPlatformGenericFont("sans-serif").split(","));
QTest::newRow("sans-serif") << QFont::SansSerif << (QStringList() << "Arial" << "Lucida Grande" << "Helvetica" << "Roboto" << "Droid Sans" << "Segoe UI" << getPlatformGenericFont("sans-serif").split(","));
}
void tst_QFont::defaultFamily()

4
tests/auto/network/access/qnetworkcookiejar/tst_qnetworkcookiejar.cpp
View File

@ -166,6 +166,10 @@ void tst_QNetworkCookieJar::setCookiesFromUrl_data()
// 2. anything .ck is an effective TLD ('*.ck'), but 'www.ck' is an exception
result.clear();
preset.clear();
cookie.setDomain(".ck");
QTest::newRow("effective-tld.ck-denied") << preset << cookie << "http://foo.ck" << result << false;
result.clear();
preset.clear();
cookie.setDomain(".foo.ck");
result += cookie;
QTest::newRow("effective-tld2-accepted2") << preset << cookie << "http://foo.ck" << result << true;

3
tests/auto/widgets/kernel/qwidget/tst_qwidget.cpp
View File

@ -8906,7 +8906,8 @@ void tst_QWidget::translucentWidget()
widgetSnapshot = label.grab(QRect(QPoint(0, 0), label.size()));
#endif
const QImage actual = widgetSnapshot.toImage().convertToFormat(QImage::Format_RGB32);
const QImage expected = pm.toImage().scaled(label.devicePixelRatioF() * pm.size());
QImage expected = pm.toImage().scaled(label.devicePixelRatioF() * pm.size());
expected.setDevicePixelRatio(label.devicePixelRatioF());
if (m_platform == QStringLiteral("winrt"))
QEXPECT_FAIL("", "WinRT: This fails. QTBUG-68297.", Abort);
QCOMPARE(actual.size(),expected.size());