Merge 5.6 into 5.6.0

Change-Id: I95962e28b6fc101cbbad41230585e2b61f1f6c0f
This commit is contained in:
Oswald Buddenhagen 2016-02-02 13:12:21 +01:00
commit 615534f14c
123 changed files with 1883 additions and 1275 deletions

View File

@ -1,6 +1,6 @@
GNU LESSER GENERAL PUBLIC LICENSE
The Qt Toolkit is Copyright (C) 2015 The Qt Company Ltd.
The Qt Toolkit is Copyright (C) 2016 The Qt Company Ltd.
Contact: http://www.qt.io/licensing/
You may use, distribute and copy the Qt GUI Toolkit under the terms of

View File

@ -1,6 +1,6 @@
GNU LESSER GENERAL PUBLIC LICENSE
The Qt Toolkit is Copyright (C) 2015 The Qt Company Ltd.
The Qt Toolkit is Copyright (C) 2016 The Qt Company Ltd.
Contact: http://www.qt.io/licensing/
You may use, distribute and copy the Qt GUI Toolkit under the terms of

View File

@ -3,7 +3,7 @@
dita.metadata.default.author = Qt Project
dita.metadata.default.permissions = all
dita.metadata.default.publisher = Qt Project
dita.metadata.default.copyryear = 2015
dita.metadata.default.copyryear = 2016
dita.metadata.default.copyrholder = The Qt Company Ltd
dita.metadata.default.audience = programmer

View File

@ -78,7 +78,7 @@ HTML.footer += \
" <ul id=\"menu-footer-submenu\" class=\"right clearfix\"><li id=\"menu-item-1795\" class=\"menu-item menu-item-type-custom menu-item-object-custom menu-item-1795\"><a title=\"Sign into your account.\" href=\"https://account.qt.io/login\">Sign In</a></li>\n" \
" <li id=\"menu-item-10375\" class=\"menu-item menu-item-type-custom menu-item-object-custom menu-item-10375\"><a href=\"mailto:feedback@theqtcompany.com?Subject=Feedback%20about%20doc.qt.io%20site\">Feedback</a></li>\n" \
" <li id=\"menu-item-1494\" class=\"menu-item menu-item-type-post_type menu-item-object-page menu-item-1494\"><a href=\"http://qt.io/contact-us/\">Contact us</a></li>\n" \
" <li id=\"menu-item-4472\" class=\"menu-item menu-item-type-custom menu-item-object-custom menu-item-4472\"><a href=\"http://qt.io/about-us/\">© 2015 The Qt Company</a></li>\n" \
" <li id=\"menu-item-4472\" class=\"menu-item menu-item-type-custom menu-item-object-custom menu-item-4472\"><a href=\"http://qt.io/about-us/\">© 2016 The Qt Company</a></li>\n" \
" </ul>\n" \
"</div>\n" \
"</div>\n" \

View File

@ -8,7 +8,7 @@ HTML.footer = \
"</div>\n" \
"<div class=\"footer\">\n" \
" <p>\n" \
" <acronym title=\"Copyright\">&copy;</acronym> 2015 The Qt Company Ltd.\n" \
" <acronym title=\"Copyright\">&copy;</acronym> 2016 The Qt Company Ltd.\n" \
" Documentation contributions included herein are the copyrights of\n" \
" their respective owners.<br>" \
" The documentation provided herein is licensed under the terms of the" \

View File

@ -5,7 +5,7 @@
HTML.footer = \
" </div>\n" \
" <p class=\"copy-notice\">\n" \
" <acronym title=\"Copyright\">&copy;</acronym> 2015 The Qt Company Ltd.\n" \
" <acronym title=\"Copyright\">&copy;</acronym> 2016 The Qt Company Ltd.\n" \
" Documentation contributions included herein are the copyrights of\n" \
" their respective owners. " \
" The documentation provided herein is licensed under the terms of the" \

View File

@ -5,6 +5,7 @@ body {
text-align: left;
margin-left: 5px;
margin-right: 5px;
background-color: #fff;
}
p {

View File

@ -28,9 +28,8 @@
/*!
\example desktop/systray
\title System Tray Icon Example
The System Tray Icon example shows how to add an icon with a menu
\ingroup examples-widgets
\brief The System Tray Icon example shows how to add an icon with a menu
and popup messages to a desktop environment's system tray.
\image systemtray-example.png Screenshot of the System Tray Icon.
@ -47,7 +46,7 @@
The editor allows the user to choose the preferred icon as well as
set the balloon message's type and duration. The user can also
edit the message's title and body. Finally, the editor provide a
edit the message's title and body. Finally, the editor provides a
checkbox controlling whether the icon is actually shown in the
system tray, or not.
@ -65,8 +64,8 @@
check whether a system tray is present on the user's desktop, call
the static QSystemTrayIcon::isSystemTrayAvailable()
function. Associated with the icon, we provide a menu containing
the typical \gui minimize, \gui maximize, \gui restore and \gui
quit actions. We reimplement the QWidget::setVisible() function to
the typical \uicontrol minimize, \uicontrol maximize, \uicontrol restore and
\uicontrol quit actions. We reimplement the QWidget::setVisible() function to
update the tray icon's menu whenever the editor's appearance
changes, e.g., when maximizing or minimizing the main application
window.
@ -74,7 +73,7 @@
Finally, we reimplement QWidget's \l {QWidget::}{closeEvent()}
function to be able to inform the user (when closing the editor
window) that the program will keep running in the system tray
until the user chooses the \gui Quit entry in the icon's context
until the user chooses the \uicontrol Quit entry in the icon's context
menu.
\section1 Window Class Implementation

View File

@ -28,6 +28,8 @@
/*!
\example draganddrop/fridgemagnets
\title Fridge Magnets Example
\brief The Fridge Magnets example illustrates how to move around several types of
MIME-encoded data with drag and drop.
The Fridge Magnets example shows how to supply more than one type
of MIME-encoded data with a drag and drop operation.

View File

@ -1,179 +0,0 @@
/****************************************************************************
**
** Copyright (C) 2015 The Qt Company Ltd.
** Contact: http://www.qt.io/licensing/
**
** This file is part of the documentation of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:FDL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see http://www.qt.io/terms-conditions. For further
** information use the contact form at http://www.qt.io/contact-us.
**
** GNU Free Documentation License Usage
** Alternatively, this file may be used under the terms of the GNU Free
** Documentation License version 1.3 as published by the Free Software
** Foundation and appearing in the file included in the packaging of
** this file. Please review the following information to ensure
** the GNU Free Documentation License version 1.3 requirements
** will be met: http://www.gnu.org/copyleft/fdl.html.
** $QT_END_LICENSE$
**
****************************************************************************/
/*!
\example desktop/systray
\title System Tray Icon Example
\ingroup examples-widgets
\brief The System Tray Icon example shows how to add an icon with a menu
and popup messages to a desktop environment's system tray.
\image systemtray-example.png Screenshot of the System Tray Icon.
Modern operating systems usually provide a special area on the
desktop, called the system tray or notification area, where
long-running applications can display icons and short messages.
This example consists of one single class, \c Window, providing
the main application window (i.e., an editor for the system tray
icon) and the associated icon.
\image systemtray-editor.png
The editor allows the user to choose the preferred icon as well as
set the balloon message's type and duration. The user can also
edit the message's title and body. Finally, the editor provides a
checkbox controlling whether the icon is actually shown in the
system tray, or not.
\section1 Window Class Definition
The \c Window class inherits QWidget:
\snippet desktop/systray/window.h 0
We implement several private slots to respond to user
interaction. The other private functions are only convenience
functions provided to simplify the constructor.
The tray icon is an instance of the QSystemTrayIcon class. To
check whether a system tray is present on the user's desktop, call
the static QSystemTrayIcon::isSystemTrayAvailable()
function. Associated with the icon, we provide a menu containing
the typical \uicontrol minimize, \uicontrol maximize, \uicontrol restore and
\uicontrol quit actions. We reimplement the QWidget::setVisible() function
to update the tray icon's menu whenever the editor's appearance
changes, e.g., when maximizing or minimizing the main application
window.
Finally, we reimplement QWidget's \l {QWidget::}{closeEvent()}
function to be able to inform the user (when closing the editor
window) that the program will keep running in the system tray
until the user chooses the \uicontrol Quit entry in the icon's context
menu.
\section1 Window Class Implementation
When constructing the editor widget, we first create the various
editor elements before we create the actual system tray icon:
\snippet desktop/systray/window.cpp 0
We ensure that the application responds to user input by
connecting most of the editor's input widgets (including the
system tray icon) to the application's private slots. But note the
visibility checkbox; its \l {QCheckBox::}{toggled()} signal is
connected to the \e {icon}'s \l {QSystemTrayIcon::}{setVisible()}
function instead.
\snippet desktop/systray/window.cpp 3
The \c setIcon() slot is triggered whenever the current index in
the icon combobox changes, i.e., whenever the user chooses another
icon in the editor. Note that it is also called when the user
activates the tray icon with the left mouse button, triggering the
icon's \l {QSystemTrayIcon::}{activated()} signal. We will come
back to this signal shortly.
The QSystemTrayIcon::setIcon() function sets the \l
{QSystemTrayIcon::}{icon} property that holds the actual system
tray icon. On Windows, the system tray icon size is 16x16; on X11,
the preferred size is 22x22. The icon will be scaled to the
appropriate size as necessary.
Note that on X11, due to a limitation in the system tray
specification, mouse clicks on transparent areas in the icon are
propagated to the system tray. If this behavior is unacceptable,
we suggest using an icon with no transparency.
\snippet desktop/systray/window.cpp 4
Whenever the user activates the system tray icon, it emits its \l
{QSystemTrayIcon::}{activated()} signal passing the triggering
reason as parameter. QSystemTrayIcon provides the \l
{QSystemTrayIcon::}{ActivationReason} enum to describe how the
icon was activated.
In the constructor, we connected our icon's \l
{QSystemTrayIcon::}{activated()} signal to our custom \c
iconActivated() slot: If the user has clicked the icon using the
left mouse button, this function changes the icon image by
incrementing the icon combobox's current index, triggering the \c
setIcon() slot as mentioned above. If the user activates the icon
using the middle mouse button, it calls the custom \c
showMessage() slot:
\snippet desktop/systray/window.cpp 5
When the \e showMessage() slot is triggered, we first retrieve the
message icon depending on the currently chosen message type. The
QSystemTrayIcon::MessageIcon enum describes the icon that is shown
when a balloon message is displayed. Then we call
QSystemTrayIcon's \l {QSystemTrayIcon::}{showMessage()} function
to show the message with the title, body, and icon for the time
specified in milliseconds.
QSystemTrayIcon also has the corresponding, \l {QSystemTrayIcon::}
{messageClicked()} signal, which is emitted when the user clicks a
message displayed by \l {QSystemTrayIcon::}{showMessage()}.
\snippet desktop/systray/window.cpp 6
In the constructor, we connected the \l
{QSystemTrayIcon::}{messageClicked()} signal to our custom \c
messageClicked() slot that simply displays a message using the
QMessageBox class.
QMessageBox provides a modal dialog with a short message, an icon,
and buttons laid out depending on the current style. It supports
four severity levels: "Question", "Information", "Warning" and
"Critical". The easiest way to pop up a message box in Qt is to
call one of the associated static functions, e.g.,
QMessageBox::information().
As we mentioned earlier, we reimplement a couple of QWidget's
virtual functions:
\snippet desktop/systray/window.cpp 1
Our reimplementation of the QWidget::setVisible() function updates
the tray icon's menu whenever the editor's appearance changes,
e.g., when maximizing or minimizing the main application window,
before calling the base class implementation.
\snippet desktop/systray/window.cpp 2
We have reimplemented the QWidget::closeEvent() event handler to
receive widget close events, showing the above message to the
users when they are closing the editor window.
In addition to the functions and slots discussed above, we have
also implemented several convenience functions to simplify the
constructor: \c createIconGroupBox(), \c createMessageGroupBox(),
\c createActions() and \c createTrayIcon(). See the \l
{desktop/systray/window.cpp}{window.cpp} file for details.
*/

View File

@ -34,41 +34,41 @@
\image tabletexample.png
When you use a tablet with Qt applications, \l{QTabletEvent}s are
generated. You need to reimplement the
\l{QWidget::}{tabletEvent()} event handler if you want to handle
tablet events. Events are generated when the device used for
drawing enters and leaves the proximity of the tablet (i.e., when
it is close but not pressed down on it), when a device is pushed
down and released from it, and when a device is moved on the
tablet.
generated. You need to reimplement the \l{QWidget::}{tabletEvent()} event
handler if you want to handle tablet events. Events are generated when the
tool (stylus) used for drawing enters and leaves the proximity of the
tablet (i.e., when it is close but not pressed down on it), when the tool
is pressed down and released from it, when the tool is moved across the
tablet, and when one of the buttons on the tool is pressed or released.
The information available in QTabletEvent depends on the device
used. The tablet in this example has two different devices for
drawing: a stylus and an airbrush. For both devices the event
contains the position of the device, pressure on the tablet,
vertical tilt, and horizontal tilt (i.e, the angle between the
device and the perpendicular of the tablet). The airbrush has a
finger wheel; the position of this is also available in the tablet
event.
The information available in QTabletEvent depends on the device used.
This example can handle a tablet with up to three different drawing tools:
a stylus, an airbrush, and an art pen. For any of these the event will
contain the position of the tool, pressure on the tablet, button status,
vertical tilt, and horizontal tilt (i.e, the angle between the device and
the perpendicular of the tablet, if the tablet hardware can provide it).
The airbrush has a finger wheel; the position of this is also available
in the tablet event. The art pen provides rotation around the axis
perpendicular to the tablet surface, so that it can be used for calligraphy.
In this example we implement a drawing program. You can use the
stylus to draw on the tablet as you use a pencil on paper. When
you draw with the airbrush you get a spray of paint; the finger
wheel is used to change the density of the spray. The pressure and
tilt can change the alpha and saturation values of the QColor and the
width of the QPen used for drawing.
In this example we implement a drawing program. You can use the stylus to
draw on the tablet as you use a pencil on paper. When you draw with the
airbrush you get a spray of virtual paint; the finger wheel is used to
change the density of the spray. When you draw with the art pen, you get a
a line whose width and endpoint angle depend on the rotation of the pen.
The pressure and tilt can also be assigned to change the alpha and
saturation values of the color and the width of the stroke.
The example consists of the following:
\list
\li The \c MainWindow class inherits QMainWindow and creates
the examples menus and connect their slots and signals.
\li The \c MainWindow class inherits QMainWindow, creates
the menus, and connects their slots and signals.
\li The \c TabletCanvas class inherits QWidget and
receives tablet events. It uses the events to paint on a
offscreen pixmap, which it draws onto itself.
receives tablet events. It uses the events to paint onto an
offscreen pixmap, and then renders it.
\li The \c TabletApplication class inherits QApplication. This
class handles tablet events that are not sent to \c tabletEvent().
We will look at this later.
class handles tablet proximity events.
\li The \c main() function creates a \c MainWindow and shows it
as a top level window.
\endlist
@ -81,110 +81,99 @@
\snippet widgets/tablet/mainwindow.h 0
The QActions let the user select if the tablets pressure and
tilt should change the pen width, color alpha component and color
saturation. \c createActions() creates all actions, and \c
createMenus() sets up the menus with the actions. We have one
QActionGroup for the actions that alter the alpha channel, color
saturation and line width respectively. The action groups are
connected to the \c alphaActionTriggered(), \c
colorSaturationActiontriggered(), and \c
lineWidthActionTriggered() slots, which calls functions in \c
myCanvas.
\c createMenus() sets up the menus with the actions. We have one
QActionGroup for the actions that alter the alpha channel, color saturation
and line width respectively. The action groups are connected to the
\c setAlphaValuator(), \c setSaturationValuator(), and
\c setLineWidthValuator() slots, which call functions in \c TabletCanvas.
\section1 MainWindow Class Implementation
We start width a look at the constructor \c MainWindow():
We start with a look at the constructor \c MainWindow():
\snippet widgets/tablet/mainwindow.cpp 0
In the constructor we create the canvas, actions, and menus.
We set the canvas as the center widget. We also initialize the
canvas to match the state of our menus and start drawing with a
red color.
In the constructor we call \c createMenus() to create all the actions and
menus, and set the canvas as the center widget.
Here is the implementation of \c brushColorAct():
\snippet widgets/tablet/mainwindow.cpp 8
\snippet widgets/tablet/mainwindow.cpp 1
At the beginning of \c createMenus() we populate the \b File menu.
We use an overload of \l{QMenu::}{addAction()}, introduced in Qt 5.6, to create
a menu item with a shortcut (and optionally an icon), add it to its menu,
and connect it to a slot, all with one line of code. We use QKeySequence to
get the platform-specific standard key shortcuts for these common menu items.
We let the user pick a color with a QColorDialog. If it is valid,
we set a new drawing color with \c setColor().
We also populate the \b Brush menu. The command to change a brush does not
normally have a standard shortcut, so we use \l{QObject::}{tr()} to enable
translating the shortcut along with the language translation of the application.
Here is the implementation of \c alphaActionTriggered():
Now we will look at the creation of one group of mutually-exclusive actions
in a submenu of the \b Tablet menu, for selecting which property of each
QTabletEvent will be used to vary the translucency (alpha channel) of the
line being drawn or color being airbrushed.
(See the \l{Application Example}{application example} if you want a
high-level introduction to QActions.)
\snippet widgets/tablet/mainwindow.cpp 9
We want the user to be able to choose whether the drawing color's alpha
component should be modulated by the tablet pressure, tilt, or the position
of the thumbwheel on the airbrush tool. We have one action for each choice,
and an additional action to choose not to change the alpha, that is, to keep
the color opaque. We make the actions checkable; the \c alphaChannelGroup
will then ensure that only one of the actions are checked at any time. The
\c triggered() signal is emitted from the group when an action is checked,
so we connect that to \c MainWindow::setAlphaValuator(). It will need to know
which property (valuator) of the QTabletEvent to pay attention to from now
on, so we use the QAction::data property to pass this information along.
(In order for this to be possible, the enum \c Valuator must be a registered
metatype, so that it can be inserted into a QVariant. That is accomplished
by the \c Q_ENUM declaration in tabletcanvas.h.)
Here is the implementation of \c setAlphaValuator():
\snippet widgets/tablet/mainwindow.cpp 2
The \c TabletCanvas class supports two ways by which the alpha
channel of the drawing color can be changed: tablet pressure and
tilt. We have one action for each and an action if the alpha
channel should not be changed.
It simply needs to retrieve the \c Valuator enum from QAction::data(), and
pass that to \c TabletCanvas::setAlphaChannelValuator(). If we were not
using the \c data property, we would instead need to compare the QAction
pointer itself, for example in a switch statement. But that would require
keeping pointers to each QAction in class variables, for comparison purposes.
Here is the implementation of \c lineWidthActionTriggered():
Here is the implementation of \c setBrushColor():
\snippet widgets/tablet/mainwindow.cpp 3
\snippet widgets/tablet/mainwindow.cpp 1
We check which action is selected in \c lineWidthGroup, and set
how the canvas should change the drawing line width.
We do lazy initialization of a QColorDialog the first time the user
chooses \b {Brush color...} from the menu or via the action shortcut.
While the dialog is open, each time the user chooses a different color,
\c TabletCanvas::setColor() will be called to change the drawing color.
Because it is a non-modal dialog, the user is free to leave the color
dialog open, so as to be able to conveniently and frequently change colors,
or close it and re-open it later.
Here is the implementation of \c saturationActionTriggered():
\snippet widgets/tablet/mainwindow.cpp 4
We check which action is selected in \c colorSaturationGroup, and
set how the canvas should change the color saturation of the
drawing color.
Here is the implementation of \c saveAct():
Here is the implementation of \c save():
\snippet widgets/tablet/mainwindow.cpp 5
We use the QFileDialog to let the user select a file to save the
drawing in. It is the \c TabletCanvas that save the drawing, so we
call its \c saveImage() function.
We use the QFileDialog to let the user select a file to save the drawing,
and then call \c TabletCanvas::saveImage() to actually write it to the
file.
Here is the implementation of \c loadAct():
Here is the implementation of \c load():
\snippet widgets/tablet/mainwindow.cpp 6
We let the user select the image file to be opened with
a QFileDialog; we then ask the canvas to load the image with \c
loadImage().
We let the user select the image file to be opened with a QFileDialog; we
then ask the canvas to load the image with \c loadImage().
Here is the implementation of \c aboutAct():
Here is the implementation of \c about():
\snippet widgets/tablet/mainwindow.cpp 7
We show a message box with a short description of the example.
\c createActions() creates all actions and action groups of
the example. We look at the creation of one action group and its
actions. See the \l{Application Example}{application example} if
you want a high-level introduction to QActions.
Here is the implementation of \c createActions:
\snippet widgets/tablet/mainwindow.cpp 8
\dots
\snippet widgets/tablet/mainwindow.cpp 9
We want the user to be able to choose if the drawing color's
alpha component should be changed by the tablet pressure or tilt.
We have one action for each choice and an action if the alpha
channel is not to be changed, i.e, the color is opaque. We make
the actions checkable; the \c alphaChannelGroup will then ensure
that only one of the actions are checked at any time. The \c
triggered() signal is emitted when an action is checked.
\dots
\snippet widgets/tablet/mainwindow.cpp 10
Here is the implementation of \c createMenus():
\snippet widgets/tablet/mainwindow.cpp 11
We create the menus of the example and add the actions to them.
\section1 TabletCanvas Class Definition
@ -193,24 +182,22 @@
\snippet widgets/tablet/tabletcanvas.h 0
The canvas can change the alpha channel, color saturation,
and line width of the drawing. We have one enum for each of
these; their values decide if it is the tablet pressure or tilt
that will alter them. We keep a private variable for each, the \c
alphaChannelType, \c colorSturationType, and \c penWidthType,
which we provide access functions for.
The canvas can change the alpha channel, color saturation, and line width
of the stroke. We have an enum listing the QTabletEvent properties with
which it is possible to modulate them. We keep a private variable for each:
\c m_alphaChannelValuator, \c m_colorSaturationValuator and
\c m_lineWidthValuator, and we provide accessor functions for them.
We draw on a QPixmap with \c myPen and \c myBrush using \c
myColor. The \c saveImage() and \c loadImage() saves and loads
the QPixmap to disk. The pixmap is drawn on the widget in \c
paintEvent(). The \c pointerType and \c deviceType keeps the type
of pointer, which is either a pen or an eraser, and device
currently used on the tablet, which is either a stylus or an
airbrush.
We draw on a QPixmap with \c m_pen and \c m_brush using \c m_color.
Each time a QTabletEvent is received, the stroke is drawn from
\c lastPoint to the point given in the current QTabletEvent,
and then the position and rotation are saved in \c lastPoint for next time.
The \c saveImage() and \c loadImage() functions save and load the QPixmap to disk.
The pixmap is drawn on the widget in \c paintEvent().
The interpretation of events from the tablet is done in \c
tabletEvent(); \c paintPixmap(), \c updateBrush(), and \c
brushPattern() are helper functions used by \c tabletEvent().
The interpretation of events from the tablet is done in \c tabletEvent(), and
\c paintPixmap(), \c updateBrush(), and \c updateCursor() are helper
functions used by \c tabletEvent().
\section1 TabletCanvas Class Implementation
@ -233,21 +220,28 @@
\snippet widgets/tablet/tabletcanvas.cpp 2
We simply call \l{QPixmap::}{load()}, which loads the image in \a
file.
We simply call \l{QPixmap::}{load()}, which loads the image from \a file.
Here is the implementation of \c tabletEvent():
\snippet widgets/tablet/tabletcanvas.cpp 3
We get three kind of events to this function: TabletPress,
TabletRelease, and TabletMove, which is generated when a device
is pressed down on, leaves, or moves on the tablet. We set the \c
deviceDown to true when a device is pressed down on the tablet;
we then know when we should draw when we receive move events. We
have implemented the \c updateBrush() and \c paintPixmap() helper
functions to update \c myBrush and \c myPen after the state of \c
alphaChannelType, \c colorSaturationType, and \c lineWidthType.
We get three kind of events to this function: \c TabletPress, \c TabletRelease,
and \c TabletMove, which are generated when a drawing tool is pressed down on,
lifed up from, or moved across the tablet. We set \c m_deviceDown to \c true
when a device is pressed down on the tablet; we then know that we should
draw when we receive move events. We have implemented \c updateBrush()
to update \c m_brush and \c m_pen depending on which of the tablet event
properties the user has chosen to pay attention to. The \c updateCursor()
function selects a cursor to represent the drawing tool in use, so that
as you hover with the tool in proximity of the tablet, you can see what
kind of stroke you are about to make.
\snippet widgets/tablet/tabletcanvas.cpp 12
If an art pen (\c RotationStylus) is in use, \c updateCursor()
is also called for each \c TabletMove event, and renders a rotated cursor
so that you can see the angle of the pen tip.
Here is the implementation of \c paintEvent():
@ -259,22 +253,22 @@
\snippet widgets/tablet/tabletcanvas.cpp 5
In this function we draw on the pixmap based on the movement of the device.
If the device used on the tablet is a stylus, we want to draw a line from
In this function we draw on the pixmap based on the movement of the tool.
If the tool used on the tablet is a stylus, we want to draw a line from
the last-known position to the current position. We also assume that this
is a reasonable handling of any unknown device, but update the status bar
with a warning. If it is an airbrush, we want to draw a circle filled with
a soft gradient, whose density can depend on various event parameters.
By default it depends on the tangential pressure, which is the position of
the finger wheel on the airbrush. If it is a rotation stylus, we simulate
a felt marker by drawing trapezoidal strokes.
the finger wheel on the airbrush. If the tool is a rotation stylus, we
simulate a felt marker by drawing trapezoidal stroke segments.
\snippet widgets/tablet/tabletcanvas.cpp 6
In \c updateBrush() we set the pen and brush used for drawing
to match \c alphaChannelType, \c lineWidthType, \c
colorSaturationType, and \c myColor. We will examine the code to
set up \c myBrush and \c myPen for each of these variables:
In \c updateBrush() we set the pen and brush used for drawing to match
\c m_alphaChannelValuator, \c m_lineWidthValuator, \c m_colorSaturationValuator,
and \c m_color. We will examine the code to set up \c m_brush and
\c m_pen for each of these variables:
\snippet widgets/tablet/tabletcanvas.cpp 7
@ -288,34 +282,33 @@
\snippet widgets/tablet/tabletcanvas.cpp 8
The alpha channel of QColor is given as a number between 0
and 255 where 0 is transparent and 255 is opaque.
\l{QTabletEvent::}{pressure()} returns the pressure as a qreal
between 0.0 and 1.0. By subtracting 127 from the tilt values and
taking the absolute value we get the smallest alpha values (i.e.,
the color is most transparent) when the pen is perpendicular to
the tablet. We select the largest of the vertical and horizontal
tilt value.
The alpha channel of QColor is given as a number between 0 and 255 where 0
is transparent and 255 is opaque, or as a floating-point number where 0 is
transparent and 1.0 is opaque. \l{QTabletEvent::}{pressure()} returns the
pressure as a qreal between 0.0 and 1.0. We get the smallest alpha values
(i.e., the color is most transparent) when the pen is perpendicular to the
tablet. We select the largest of the vertical and horizontal tilt values.
\snippet widgets/tablet/tabletcanvas.cpp 9
The colorsaturation is given as a number between 0 and 255. It is
set with \l{QColor::}{setHsv()}. We can set the tilt values
directly, but must multiply the pressure to a number between 0 and
255.
The color saturation in the HSV color model can be given as an integer
between 0 and 255 or as a floating-point value between 0 and 1. We chose to
represent alpha as an integer, so we call \l{QColor::}{setHsv()} with
integer values. That means we need to multiply the pressure to a number
between 0 and 255.
\snippet widgets/tablet/tabletcanvas.cpp 10
The width of the pen increases with the pressure. When the pen
width is controlled with the tilt we let the width increse with
the angle between the device and the perpendicular of the tablet.
The width of the pen stroke can increase with pressure, if so chosen.
But when the pen width is controlled by tilt, we let the width increase
with the angle between the tool and the perpendicular of the tablet.
\snippet widgets/tablet/tabletcanvas.cpp 11
We finally check whether the pointer is the stylus or the eraser.
If it is the eraser, we set the color to the background color of
the pixmap an let the pressure decide the pen width, else we set
the colors we have set up previously in the function.
the pixmap and let the pressure decide the pen width, else we set
the colors we have decided previously in the function.
\section1 TabletApplication Class Definition
@ -325,13 +318,11 @@
\snippet widgets/tablet/tabletapplication.h 0
We keep a \c TabletCanvas we send the device type of the events we
handle in the \c event() function to. The TabletEnterProximity
and TabletLeaveProximity events are not sendt to the QApplication
object, while other tablet events are sendt to the QWidget's
\c event(), which sends them on to \l{QWidget::}{tabletEvent()}.
Since we want to handle these events we have implemented \c
TabletApplication.
\c TabletApplication exists as a subclass of QApplication in order to
receive tablet proximity events and forward them to \c TabletCanvas.
The \c TabletEnterProximity and \c TabletLeaveProximity events are sent to
the QApplication object, while other tablet events are sent to the QWidget's
\c event() hander, which sends them on to \l{QWidget::}{tabletEvent()}.
\section1 TabletApplication Class Implementation
@ -340,24 +331,24 @@
\snippet widgets/tablet/tabletapplication.cpp 0
We use this function to handle the TabletEnterProximity and
TabletLeaveProximity events, which is generated when a device
enters and leaves the proximity of the tablet. The intended use of these
events is to do work that is dependent on what kind of device is
used on the tablet. This way, you don't have to do this work
when other events are generated, which is more frequently than the
leave and enter proximity events. We call \c setTabletDevice() in
\c TabletCanvas.
We use this function to handle the \c TabletEnterProximity and
\c TabletLeaveProximity events, which are generated when a drawing
tool enters or leaves the proximity of the tablet. Here we call
\c TabletCanvas::setTabletDevice(), which then calls \c updateCursor(),
which will set an appropriate cursor. This is the only reason we
need the proximity events; for the purpose of correct drawing, it is
enough for \c TabletCanvas to observe the \l{QTabletEvent::}{device()} and
\l{QTabletEvent::}{pointerType()} in each event that it receives.
\section1 The \c main() function
Here is the examples \c main() function:
Here is the example's \c main() function:
\snippet widgets/tablet/main.cpp 0
In the \c main() function we create a \c MainWinow and display it
as a top level window. We use the \c TabletApplication class. We
need to set the canvas after the application is created. We cannot
use classes that implement event handling before an QApplication
object is instantiated.
Here we create a \c MainWindow and display it as a top level window. We use
the \c TabletApplication class. We need to set the canvas after the
application is created. We cannot use classes that implement event handling
before an QApplication object is instantiated.
*/

View File

@ -28,6 +28,7 @@
/*!
\example tools/codecs
\title Text Codecs Example
\brief How to import and export text using text codecs.
The Text Codecs example demonstrates the principles behind importing and exporting text
using codecs to ensure that characters are encoded properly, avoiding loss of data

View File

@ -45,237 +45,172 @@
//! [0]
MainWindow::MainWindow(TabletCanvas *canvas)
: m_canvas(canvas), m_colorDialog(Q_NULLPTR)
{
myCanvas = canvas;
createActions();
createMenus();
myCanvas->setColor(Qt::red);
myCanvas->setLineWidthType(TabletCanvas::LineWidthPressure);
myCanvas->setAlphaChannelType(TabletCanvas::AlphaTangentialPressure);
myCanvas->setColorSaturationType(TabletCanvas::NoSaturation);
setWindowTitle(tr("Tablet Example"));
setCentralWidget(myCanvas);
setCentralWidget(m_canvas);
}
//! [0]
//! [1]
void MainWindow::brushColorAct()
void MainWindow::setBrushColor()
{
QColor color = QColorDialog::getColor(myCanvas->color());
if (color.isValid())
myCanvas->setColor(color);
if (!m_colorDialog) {
m_colorDialog = new QColorDialog(this);
m_colorDialog->setModal(false);
m_colorDialog->setCurrentColor(m_canvas->color());
connect(m_colorDialog, &QColorDialog::colorSelected, m_canvas, &TabletCanvas::setColor);
}
m_colorDialog->setVisible(true);
}
//! [1]
//! [2]
void MainWindow::alphaActionTriggered(QAction *action)
void MainWindow::setAlphaValuator(QAction *action)
{
if (action == alphaChannelPressureAction) {
myCanvas->setAlphaChannelType(TabletCanvas::AlphaPressure);
} else if (action == alphaChannelTangentialPressureAction) {
myCanvas->setAlphaChannelType(TabletCanvas::AlphaTangentialPressure);
} else if (action == alphaChannelTiltAction) {
myCanvas->setAlphaChannelType(TabletCanvas::AlphaTilt);
} else {
myCanvas->setAlphaChannelType(TabletCanvas::NoAlpha);
}
m_canvas->setAlphaChannelValuator(action->data().value<TabletCanvas::Valuator>());
}
//! [2]
//! [3]
void MainWindow::lineWidthActionTriggered(QAction *action)
void MainWindow::setLineWidthValuator(QAction *action)
{
if (action == lineWidthPressureAction) {
myCanvas->setLineWidthType(TabletCanvas::LineWidthPressure);
} else if (action == lineWidthTiltAction) {
myCanvas->setLineWidthType(TabletCanvas::LineWidthTilt);
} else {
myCanvas->setLineWidthType(TabletCanvas::NoLineWidth);
}
m_canvas->setLineWidthType(action->data().value<TabletCanvas::Valuator>());
}
//! [3]
//! [4]
void MainWindow::saturationActionTriggered(QAction *action)
void MainWindow::setSaturationValuator(QAction *action)
{
if (action == colorSaturationVTiltAction) {
myCanvas->setColorSaturationType(TabletCanvas::SaturationVTilt);
} else if (action == colorSaturationHTiltAction) {
myCanvas->setColorSaturationType(TabletCanvas::SaturationHTilt);
} else if (action == colorSaturationPressureAction) {
myCanvas->setColorSaturationType(TabletCanvas::SaturationPressure);
} else {
myCanvas->setColorSaturationType(TabletCanvas::NoSaturation);
}
m_canvas->setColorSaturationValuator(action->data().value<TabletCanvas::Valuator>());
}
//! [4]
//! [5]
void MainWindow::saveAct()
void MainWindow::save()
{
QString path = QDir::currentPath() + "/untitled.png";
QString fileName = QFileDialog::getSaveFileName(this, tr("Save Picture"),
path);
if (!myCanvas->saveImage(fileName))
if (!m_canvas->saveImage(fileName))
QMessageBox::information(this, "Error Saving Picture",
"Could not save the image");
}
//! [5]
//! [6]
void MainWindow::loadAct()
void MainWindow::load()
{
QString fileName = QFileDialog::getOpenFileName(this, tr("Open Picture"),
QDir::currentPath());
if (!myCanvas->loadImage(fileName))
if (!m_canvas->loadImage(fileName))
QMessageBox::information(this, "Error Opening Picture",
"Could not open picture");
}
//! [6]
//! [7]
void MainWindow::aboutAct()
void MainWindow::about()
{
QMessageBox::about(this, tr("About Tablet Example"),
tr("This example shows use of a Wacom tablet in Qt"));
tr("This example shows how to use a graphics drawing tablet in Qt."));
}
//! [7]
//! [8]
void MainWindow::createActions()
void MainWindow::createMenus()
{
QMenu *fileMenu = menuBar()->addMenu(tr("&File"));
fileMenu->addAction(tr("&Open..."), this, &MainWindow::load, QKeySequence::Open);
fileMenu->addAction(tr("&Save As..."), this, &MainWindow::save, QKeySequence::SaveAs);
fileMenu->addAction(tr("E&xit"), this, &MainWindow::close, QKeySequence::Quit);
QMenu *brushMenu = menuBar()->addMenu(tr("&Brush"));
brushMenu->addAction(tr("&Brush Color..."), this, &MainWindow::setBrushColor, tr("Ctrl+B"));
//! [8]
brushColorAction = new QAction(tr("&Brush Color..."), this);
brushColorAction->setShortcut(tr("Ctrl+C"));
connect(brushColorAction, SIGNAL(triggered()),
this, SLOT(brushColorAct()));
QMenu *tabletMenu = menuBar()->addMenu(tr("&Tablet"));
QMenu *lineWidthMenu = tabletMenu->addMenu(tr("&Line Width"));
QAction *lineWidthPressureAction = lineWidthMenu->addAction(tr("&Pressure"));
lineWidthPressureAction->setData(TabletCanvas::PressureValuator);
lineWidthPressureAction->setCheckable(true);
lineWidthPressureAction->setChecked(true);
QAction *lineWidthTiltAction = lineWidthMenu->addAction(tr("&Tilt"));
lineWidthTiltAction->setData(TabletCanvas::TiltValuator);
lineWidthTiltAction->setCheckable(true);
QAction *lineWidthFixedAction = lineWidthMenu->addAction(tr("&Fixed"));
lineWidthFixedAction->setData(TabletCanvas::NoValuator);
lineWidthFixedAction->setCheckable(true);
QActionGroup *lineWidthGroup = new QActionGroup(this);
lineWidthGroup->addAction(lineWidthPressureAction);
lineWidthGroup->addAction(lineWidthTiltAction);
lineWidthGroup->addAction(lineWidthFixedAction);
connect(lineWidthGroup, &QActionGroup::triggered, this,
&MainWindow::setLineWidthValuator);
//! [9]
alphaChannelPressureAction = new QAction(tr("&Pressure"), this);
QMenu *alphaChannelMenu = tabletMenu->addMenu(tr("&Alpha Channel"));
QAction *alphaChannelPressureAction = alphaChannelMenu->addAction(tr("&Pressure"));
alphaChannelPressureAction->setData(TabletCanvas::PressureValuator);
alphaChannelPressureAction->setCheckable(true);
alphaChannelTangentialPressureAction = new QAction(tr("T&angential Pressure"), this);
QAction *alphaChannelTangentialPressureAction = alphaChannelMenu->addAction(tr("T&angential Pressure"));
alphaChannelTangentialPressureAction->setData(TabletCanvas::TangentialPressureValuator);
alphaChannelTangentialPressureAction->setCheckable(true);
alphaChannelTangentialPressureAction->setChecked(true);
alphaChannelTiltAction = new QAction(tr("&Tilt"), this);
QAction *alphaChannelTiltAction = alphaChannelMenu->addAction(tr("&Tilt"));
alphaChannelTiltAction->setData(TabletCanvas::TiltValuator);
alphaChannelTiltAction->setCheckable(true);
noAlphaChannelAction = new QAction(tr("No Alpha Channel"), this);
QAction *noAlphaChannelAction = alphaChannelMenu->addAction(tr("No Alpha Channel"));
noAlphaChannelAction->setData(TabletCanvas::NoValuator);
noAlphaChannelAction->setCheckable(true);
alphaChannelGroup = new QActionGroup(this);
QActionGroup *alphaChannelGroup = new QActionGroup(this);
alphaChannelGroup->addAction(alphaChannelPressureAction);
alphaChannelGroup->addAction(alphaChannelTangentialPressureAction);
alphaChannelGroup->addAction(alphaChannelTiltAction);
alphaChannelGroup->addAction(noAlphaChannelAction);
connect(alphaChannelGroup, SIGNAL(triggered(QAction*)),
this, SLOT(alphaActionTriggered(QAction*)));
connect(alphaChannelGroup, &QActionGroup::triggered,
this, &MainWindow::setAlphaValuator);
//! [9]
colorSaturationVTiltAction = new QAction(tr("&Vertical Tilt"), this);
QMenu *colorSaturationMenu = tabletMenu->addMenu(tr("&Color Saturation"));
QAction *colorSaturationVTiltAction = colorSaturationMenu->addAction(tr("&Vertical Tilt"));
colorSaturationVTiltAction->setData(TabletCanvas::VTiltValuator);
colorSaturationVTiltAction->setCheckable(true);
colorSaturationHTiltAction = new QAction(tr("&Horizontal Tilt"), this);
QAction *colorSaturationHTiltAction = colorSaturationMenu->addAction(tr("&Horizontal Tilt"));
colorSaturationHTiltAction->setData(TabletCanvas::HTiltValuator);
colorSaturationHTiltAction->setCheckable(true);
colorSaturationPressureAction = new QAction(tr("&Pressure"), this);
QAction *colorSaturationPressureAction = colorSaturationMenu->addAction(tr("&Pressure"));
colorSaturationPressureAction->setData(TabletCanvas::PressureValuator);
colorSaturationPressureAction->setCheckable(true);
noColorSaturationAction = new QAction(tr("&No Color Saturation"), this);
QAction *noColorSaturationAction = colorSaturationMenu->addAction(tr("&No Color Saturation"));
noColorSaturationAction->setData(TabletCanvas::NoValuator);
noColorSaturationAction->setCheckable(true);
noColorSaturationAction->setChecked(true);
colorSaturationGroup = new QActionGroup(this);
QActionGroup *colorSaturationGroup = new QActionGroup(this);
colorSaturationGroup->addAction(colorSaturationVTiltAction);
colorSaturationGroup->addAction(colorSaturationHTiltAction);
colorSaturationGroup->addAction(colorSaturationPressureAction);
colorSaturationGroup->addAction(noColorSaturationAction);
connect(colorSaturationGroup, SIGNAL(triggered(QAction*)),
this, SLOT(saturationActionTriggered(QAction*)));
connect(colorSaturationGroup, &QActionGroup::triggered,
this, &MainWindow::setSaturationValuator);
lineWidthPressureAction = new QAction(tr("&Pressure"), this);
lineWidthPressureAction->setCheckable(true);
lineWidthPressureAction->setChecked(true);
lineWidthTiltAction = new QAction(tr("&Tilt"), this);
lineWidthTiltAction->setCheckable(true);
lineWidthFixedAction = new QAction(tr("&Fixed"), this);
lineWidthFixedAction->setCheckable(true);
lineWidthGroup = new QActionGroup(this);
lineWidthGroup->addAction(lineWidthPressureAction);
lineWidthGroup->addAction(lineWidthTiltAction);
lineWidthGroup->addAction(lineWidthFixedAction);
connect(lineWidthGroup, SIGNAL(triggered(QAction*)),
this, SLOT(lineWidthActionTriggered(QAction*)));
exitAction = new QAction(tr("E&xit"), this);
exitAction->setShortcuts(QKeySequence::Quit);
connect(exitAction, SIGNAL(triggered()),
this, SLOT(close()));
loadAction = new QAction(tr("&Open..."), this);
loadAction->setShortcuts(QKeySequence::Open);
connect(loadAction, SIGNAL(triggered()),
this, SLOT(loadAct()));
saveAction = new QAction(tr("&Save As..."), this);
saveAction->setShortcuts(QKeySequence::SaveAs);
connect(saveAction, SIGNAL(triggered()),
this, SLOT(saveAct()));
aboutAction = new QAction(tr("A&bout"), this);
aboutAction->setShortcut(tr("Ctrl+B"));
connect(aboutAction, SIGNAL(triggered()),
this, SLOT(aboutAct()));
aboutQtAction = new QAction(tr("About &Qt"), this);
aboutQtAction->setShortcut(tr("Ctrl+Q"));
connect(aboutQtAction, SIGNAL(triggered()),
qApp, SLOT(aboutQt()));
//! [10]
QMenu *helpMenu = menuBar()->addMenu("&Help");
helpMenu->addAction(tr("A&bout"), this, &MainWindow::about);
helpMenu->addAction(tr("About &Qt"), qApp, &QApplication::aboutQt);
}
//! [10]
//! [11]
void MainWindow::createMenus()
{
fileMenu = menuBar()->addMenu(tr("&File"));
fileMenu->addAction(loadAction);
fileMenu->addAction(saveAction);
fileMenu->addSeparator();
fileMenu->addAction(exitAction);
brushMenu = menuBar()->addMenu(tr("&Brush"));
brushMenu->addAction(brushColorAction);
tabletMenu = menuBar()->addMenu(tr("&Tablet"));
lineWidthMenu = tabletMenu->addMenu(tr("&Line Width"));
lineWidthMenu->addAction(lineWidthPressureAction);
lineWidthMenu->addAction(lineWidthTiltAction);
lineWidthMenu->addAction(lineWidthFixedAction);
alphaChannelMenu = tabletMenu->addMenu(tr("&Alpha Channel"));
alphaChannelMenu->addAction(alphaChannelPressureAction);
alphaChannelMenu->addAction(alphaChannelTangentialPressureAction);
alphaChannelMenu->addAction(alphaChannelTiltAction);
alphaChannelMenu->addAction(noAlphaChannelAction);
colorSaturationMenu = tabletMenu->addMenu(tr("&Color Saturation"));
colorSaturationMenu->addAction(colorSaturationVTiltAction);
colorSaturationMenu->addAction(colorSaturationHTiltAction);
colorSaturationMenu->addAction(noColorSaturationAction);
helpMenu = menuBar()->addMenu("&Help");
helpMenu->addAction(aboutAction);
helpMenu->addAction(aboutQtAction);
}
//! [11]

View File

@ -44,10 +44,7 @@
#include <QMainWindow>
QT_BEGIN_NAMESPACE
class QAction;
class QActionGroup;
class QMenu;
class QStatusBar;
class QColorDialog;
QT_END_NAMESPACE
class TabletCanvas;
@ -60,54 +57,19 @@ public:
MainWindow(TabletCanvas *canvas);
private slots:
void brushColorAct();
void alphaActionTriggered(QAction *action);
void lineWidthActionTriggered(QAction *action);
void saturationActionTriggered(QAction *action);
void saveAct();
void loadAct();
void aboutAct();
void setBrushColor();
void setAlphaValuator(QAction *action);
void setLineWidthValuator(QAction *action);
void setSaturationValuator(QAction *action);
void save();
void load();
void about();
private:
void createActions();
void createMenus();
TabletCanvas *myCanvas;
QAction *brushColorAction;
QActionGroup *brushActionGroup;
QActionGroup *alphaChannelGroup;
QAction *alphaChannelPressureAction;
QAction *alphaChannelTangentialPressureAction;
QAction *alphaChannelTiltAction;
QAction *noAlphaChannelAction;
QActionGroup *colorSaturationGroup;
QAction *colorSaturationVTiltAction;
QAction *colorSaturationHTiltAction;
QAction *colorSaturationPressureAction;
QAction *noColorSaturationAction;
QActionGroup *lineWidthGroup;
QAction *lineWidthPressureAction;
QAction *lineWidthTiltAction;
QAction *lineWidthFixedAction;
QAction *exitAction;
QAction *saveAction;
QAction *loadAction;
QAction *aboutAction;
QAction *aboutQtAction;
QMenu *fileMenu;
QMenu *brushMenu;
QMenu *tabletMenu;
QMenu *helpMenu;
QMenu *colorSaturationMenu;
QMenu *lineWidthMenu;
QMenu *alphaChannelMenu;
TabletCanvas *m_canvas;
QColorDialog *m_colorDialog;
};
//! [0]

View File

@ -47,7 +47,7 @@ bool TabletApplication::event(QEvent *event)
{
if (event->type() == QEvent::TabletEnterProximity ||
event->type() == QEvent::TabletLeaveProximity) {
myCanvas->setTabletDevice(static_cast<QTabletEvent *>(event));
m_canvas->setTabletDevice(static_cast<QTabletEvent *>(event));
return true;
}
return QApplication::event(event);

View File

@ -56,10 +56,10 @@ public:
bool event(QEvent *event) Q_DECL_OVERRIDE;
void setCanvas(TabletCanvas *canvas)
{ myCanvas = canvas; }
{ m_canvas = canvas; }
private:
TabletCanvas *myCanvas;
TabletCanvas *m_canvas;
};
//! [0]

View File

@ -45,17 +45,18 @@
//! [0]
TabletCanvas::TabletCanvas()
: QWidget(Q_NULLPTR)
, m_alphaChannelValuator(TangentialPressureValuator)
, m_colorSaturationValuator(NoValuator)
, m_lineWidthValuator(PressureValuator)
, m_color(Qt::red)
, m_brush(m_color)
, m_pen(m_brush, 1.0, Qt::SolidLine, Qt::RoundCap, Qt::RoundJoin)
, m_deviceDown(false)
{
resize(500, 500);
myColor = Qt::red;
myBrush = QBrush(myColor);
myPen = QPen(myBrush, 1.0, Qt::SolidLine, Qt::RoundCap, Qt::RoundJoin);
initPixmap();
setAutoFillBackground(true);
deviceDown = false;
alphaChannelType = AlphaTangentialPressure;
colorSaturationType = NoSaturation;
lineWidthType = LineWidthPressure;
}
void TabletCanvas::initPixmap()
@ -63,24 +64,24 @@ void TabletCanvas::initPixmap()
QPixmap newPixmap = QPixmap(width(), height());
newPixmap.fill(Qt::white);
QPainter painter(&newPixmap);
if (!pixmap.isNull())
painter.drawPixmap(0, 0, pixmap);
if (!m_pixmap.isNull())
painter.drawPixmap(0, 0, m_pixmap);
painter.end();
pixmap = newPixmap;
m_pixmap = newPixmap;
}
//! [0]
//! [1]
bool TabletCanvas::saveImage(const QString &file)
{
return pixmap.save(file);
return m_pixmap.save(file);
}
//! [1]
//! [2]
bool TabletCanvas::loadImage(const QString &file)
{
bool success = pixmap.load(file);
bool success = m_pixmap.load(file);
if (success) {
update();
@ -96,8 +97,8 @@ void TabletCanvas::tabletEvent(QTabletEvent *event)
switch (event->type()) {
case QEvent::TabletPress:
if (!deviceDown) {
deviceDown = true;
if (!m_deviceDown) {
m_deviceDown = true;
lastPoint.pos = event->posF();
lastPoint.rotation = event->rotation();
}
@ -105,17 +106,17 @@ void TabletCanvas::tabletEvent(QTabletEvent *event)
case QEvent::TabletMove:
if (event->device() == QTabletEvent::RotationStylus)
updateCursor(event);
if (deviceDown) {
if (m_deviceDown) {
updateBrush(event);
QPainter painter(&pixmap);
QPainter painter(&m_pixmap);
paintPixmap(painter, event);
lastPoint.pos = event->posF();
lastPoint.rotation = event->rotation();
}
break;
case QEvent::TabletRelease:
if (deviceDown && event->buttons() == Qt::NoButton)
deviceDown = false;
if (m_deviceDown && event->buttons() == Qt::NoButton)
m_deviceDown = false;
break;
default:
break;
@ -128,7 +129,7 @@ void TabletCanvas::tabletEvent(QTabletEvent *event)
void TabletCanvas::paintEvent(QPaintEvent *)
{
QPainter painter(this);
painter.drawPixmap(0, 0, pixmap);
painter.drawPixmap(0, 0, m_pixmap);
}
//! [4]
@ -142,10 +143,10 @@ void TabletCanvas::paintPixmap(QPainter &painter, QTabletEvent *event)
case QTabletEvent::Airbrush:
{
painter.setPen(Qt::NoPen);
QRadialGradient grad(lastPoint.pos, myPen.widthF() * 10.0);
QColor color = myBrush.color();
QRadialGradient grad(lastPoint.pos, m_pen.widthF() * 10.0);
QColor color = m_brush.color();
color.setAlphaF(color.alphaF() * 0.25);
grad.setColorAt(0, myBrush.color());
grad.setColorAt(0, m_brush.color());
grad.setColorAt(0.5, Qt::transparent);
painter.setBrush(grad);
qreal radius = grad.radius();
@ -154,11 +155,11 @@ void TabletCanvas::paintPixmap(QPainter &painter, QTabletEvent *event)
break;
case QTabletEvent::RotationStylus:
{
myBrush.setStyle(Qt::SolidPattern);
m_brush.setStyle(Qt::SolidPattern);
painter.setPen(Qt::NoPen);
painter.setBrush(myBrush);
painter.setBrush(m_brush);
QPolygonF poly;
qreal halfWidth = myPen.widthF();
qreal halfWidth = m_pen.widthF();
QPointF brushAdjust(qSin(qDegreesToRadians(lastPoint.rotation)) * halfWidth,
qCos(qDegreesToRadians(lastPoint.rotation)) * halfWidth);
poly << lastPoint.pos + brushAdjust;
@ -195,7 +196,7 @@ void TabletCanvas::paintPixmap(QPainter &painter, QTabletEvent *event)
}
// FALL-THROUGH
case QTabletEvent::Stylus:
painter.setPen(myPen);
painter.setPen(m_pen);
painter.drawLine(lastPoint.pos, event->posF());
break;
}
@ -206,68 +207,69 @@ void TabletCanvas::paintPixmap(QPainter &painter, QTabletEvent *event)
void TabletCanvas::updateBrush(const QTabletEvent *event)
{
int hue, saturation, value, alpha;
myColor.getHsv(&hue, &saturation, &value, &alpha);
m_color.getHsv(&hue, &saturation, &value, &alpha);
int vValue = int(((event->yTilt() + 60.0) / 120.0) * 255);
int hValue = int(((event->xTilt() + 60.0) / 120.0) * 255);
//! [7] //! [8]
switch (alphaChannelType) {
case AlphaPressure:
myColor.setAlphaF(event->pressure());
switch (m_alphaChannelValuator) {
case PressureValuator:
m_color.setAlphaF(event->pressure());
break;
case AlphaTangentialPressure:
case TangentialPressureValuator:
if (event->device() == QTabletEvent::Airbrush)
myColor.setAlphaF(qMax(0.01, (event->tangentialPressure() + 1.0) / 2.0));
m_color.setAlphaF(qMax(0.01, (event->tangentialPressure() + 1.0) / 2.0));
else
myColor.setAlpha(255);
m_color.setAlpha(255);
break;
case AlphaTilt:
myColor.setAlpha(maximum(abs(vValue - 127), abs(hValue - 127)));
case TiltValuator:
m_color.setAlpha(maximum(abs(vValue - 127), abs(hValue - 127)));
break;
default:
myColor.setAlpha(255);
m_color.setAlpha(255);
}
//! [8] //! [9]
switch (colorSaturationType) {
case SaturationVTilt:
myColor.setHsv(hue, vValue, value, alpha);
switch (m_colorSaturationValuator) {
case VTiltValuator:
m_color.setHsv(hue, vValue, value, alpha);
break;
case SaturationHTilt:
myColor.setHsv(hue, hValue, value, alpha);
case HTiltValuator:
m_color.setHsv(hue, hValue, value, alpha);
break;
case SaturationPressure:
myColor.setHsv(hue, int(event->pressure() * 255.0), value, alpha);
case PressureValuator:
m_color.setHsv(hue, int(event->pressure() * 255.0), value, alpha);
break;
default:
;
}
//! [9] //! [10]
switch (lineWidthType) {
case LineWidthPressure:
myPen.setWidthF(event->pressure() * 10 + 1);
switch (m_lineWidthValuator) {
case PressureValuator:
m_pen.setWidthF(event->pressure() * 10 + 1);
break;
case LineWidthTilt:
myPen.setWidthF(maximum(abs(vValue - 127), abs(hValue - 127)) / 12);
case TiltValuator:
m_pen.setWidthF(maximum(abs(vValue - 127), abs(hValue - 127)) / 12);
break;
default:
myPen.setWidthF(1);
m_pen.setWidthF(1);
}
//! [10] //! [11]
if (event->pointerType() == QTabletEvent::Eraser) {
myBrush.setColor(Qt::white);
myPen.setColor(Qt::white);
myPen.setWidthF(event->pressure() * 10 + 1);
m_brush.setColor(Qt::white);
m_pen.setColor(Qt::white);
m_pen.setWidthF(event->pressure() * 10 + 1);
} else {
myBrush.setColor(myColor);
myPen.setColor(myColor);
m_brush.setColor(m_color);
m_pen.setColor(m_color);
}
}
//! [11]
//! [12]
void TabletCanvas::updateCursor(const QTabletEvent *event)
{
QCursor cursor;
@ -285,7 +287,7 @@ void TabletCanvas::updateCursor(const QTabletEvent *event)
case QTabletEvent::RotationStylus: {
QImage origImg(QLatin1String(":/images/cursor-felt-marker.png"));
QImage img(32, 32, QImage::Format_ARGB32);
QColor solid = myColor;
QColor solid = m_color;
solid.setAlpha(255);
img.fill(solid);
QPainter painter(&img);
@ -307,6 +309,7 @@ void TabletCanvas::updateCursor(const QTabletEvent *event)
}
setCursor(cursor);
}
//! [12]
void TabletCanvas::resizeEvent(QResizeEvent *)
{

View File

@ -61,27 +61,26 @@ class TabletCanvas : public QWidget
Q_OBJECT
public:
enum AlphaChannelType { AlphaPressure, AlphaTangentialPressure, AlphaTilt, NoAlpha };
enum ColorSaturationType { SaturationVTilt, SaturationHTilt,
SaturationPressure, NoSaturation };
enum LineWidthType { LineWidthPressure, LineWidthTilt, NoLineWidth };
enum Valuator { PressureValuator, TangentialPressureValuator,
TiltValuator, VTiltValuator, HTiltValuator, NoValuator };
Q_ENUM(Valuator)
TabletCanvas();
bool saveImage(const QString &file);
bool loadImage(const QString &file);
void setAlphaChannelType(AlphaChannelType type)
{ alphaChannelType = type; }
void setColorSaturationType(ColorSaturationType type)
{ colorSaturationType = type; }
void setLineWidthType(LineWidthType type)
{ lineWidthType = type; }
void setColor(const QColor &color)
{ myColor = color; }
void setAlphaChannelValuator(Valuator type)
{ m_alphaChannelValuator = type; }
void setColorSaturationValuator(Valuator type)
{ m_colorSaturationValuator = type; }
void setLineWidthType(Valuator type)
{ m_lineWidthValuator = type; }
void setColor(const QColor &c)
{ if (c.isValid()) m_color = c; }
QColor color() const
{ return myColor; }
{ return m_color; }
void setTabletDevice(QTabletEvent *event)
{ myTabletDevice = event->device(); updateCursor(event); }
{ updateCursor(event); }
int maximum(int a, int b)
{ return a > b ? a : b; }
@ -97,17 +96,14 @@ private:
void updateBrush(const QTabletEvent *event);
void updateCursor(const QTabletEvent *event);
AlphaChannelType alphaChannelType;
ColorSaturationType colorSaturationType;
LineWidthType lineWidthType;
QTabletEvent::PointerType pointerType;
QTabletEvent::TabletDevice myTabletDevice;
QColor myColor;
QPixmap pixmap;
QBrush myBrush;
QPen myPen;
bool deviceDown;
Valuator m_alphaChannelValuator;
Valuator m_colorSaturationValuator;
Valuator m_lineWidthValuator;
QColor m_color;
QPixmap m_pixmap;
QBrush m_brush;
QPen m_pen;
bool m_deviceDown;
struct Point {
QPointF pos;

View File

@ -29,6 +29,7 @@
\example dombookmarks
\title DOM Bookmarks Example
\ingroup xml-examples
\brief Provides a reader for XML Bookmark Exchange Language files
The DOM Bookmarks example provides a reader for XML Bookmark Exchange Language (XBEL)
files that uses Qt's DOM-based XML API to read and parse the files. The SAX Bookmarks

View File

@ -29,6 +29,8 @@
\example xmlstreamlint
\title XML Stream Lint Example
\ingroup xml-examples
\brief A commandline tool reading from an input file and writing to
the standard output file.
The XML Stream Lint example provides a simple command line utility that
accepts a file name as its single argument and writes it to the standard

View File

@ -4,7 +4,8 @@
xmlns=\"http://schemas.microsoft.com/appx/manifest/foundation/windows10\"
xmlns:mp=\"http://schemas.microsoft.com/appx/2014/phone/manifest\"
xmlns:uap=\"http://schemas.microsoft.com/appx/manifest/uap/windows10\"
IgnorableNamespaces=\"uap mp\">
xmlns:mobile=\"http://schemas.microsoft.com/appx/manifest/mobile/windows10\"
IgnorableNamespaces=\"uap mp mobile\">
<Identity
Name=\"$${WINRT_MANIFEST.identity}\"
@ -21,7 +22,7 @@
</Properties>
<Dependencies>
<TargetDeviceFamily Name=\"Windows.Universal\" MinVersion=\"10.0.10069.0\" MaxVersionTested=\"10.0.10069.0\" />$${WINRT_MANIFEST.dependencies}
<TargetDeviceFamily Name=\"Windows.Universal\" MinVersion=\"10.0.10240.0\" MaxVersionTested=\"10.0.10586.0\" />$${WINRT_MANIFEST.dependencies}
</Dependencies>
<Resources>

View File

@ -0,0 +1,216 @@
#!/bin/bash
#############################################################################
##
## Copyright (C) 2015 The Qt Company Ltd.
## Contact: http://www.qt.io/licensing/
##
## This file is the build configuration utility of the Qt Toolkit.
##
## $QT_BEGIN_LICENSE:LGPL21$
## Commercial License Usage
## Licensees holding valid commercial Qt licenses may use this file in
## accordance with the commercial license agreement provided with the
## Software or, alternatively, in accordance with the terms contained in
## a written agreement between you and The Qt Company. For licensing terms
## and conditions see http://www.qt.io/terms-conditions. For further
## information use the contact form at http://www.qt.io/contact-us.
##
## GNU Lesser General Public License Usage
## Alternatively, this file may be used under the terms of the GNU Lesser
## General Public License version 2.1 or version 3 as published by the Free
## Software Foundation and appearing in the file LICENSE.LGPLv21 and
## LICENSE.LGPLv3 included in the packaging of this file. Please review the
## following information to ensure the GNU Lesser General Public License
## requirements will be met: https://www.gnu.org/licenses/lgpl.html and
## http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
##
## As a special exception, The Qt Company gives you certain additional
## rights. These rights are described in The Qt Company LGPL Exception
## version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
##
## $QT_END_LICENSE$
##
#############################################################################
script_argument_prefix="-Wobjc_namespace,--"
required_arguments="target suffix original_ld"
optional_arguments="exclude_list exclude_regex slient"
for argument in $required_arguments $optional_arguments; do
declare "$argument="
done
declare -i silent=0
declare -a linker_arguments
for i in "$@"; do
case $1 in
$script_argument_prefix*)
declare "${1#$script_argument_prefix}"
;;
-o)
if [ -n "$2" ]; then
target="$2"
fi
linker_arguments+=("$1")
;;
*)
linker_arguments+=("$1")
;;
esac
shift
done
get_entry() {
local map=$1 key=$2
local i="${map}_map_${2}"
printf '%s' "${!i}"
}
error() {
echo "$0: error: $*" >&2
exit 1
}
for argument in $required_arguments; do
if [ -z "${!argument}" ]; then
error "missing argument --${argument}"
fi
done
# Normalize suffix so we can use it as a bash variable
suffix=${suffix//[-. ]/_}
link_binary() {
(PS4=; test $silent -ne 1 && set -x; $original_ld "${linker_arguments[@]}" "$@") 2>&1 || exit 1
}
sanitize_address() {
local address="$1"
address=${address#0x} # Remove hex prefix
address=${address: ${#address} < 8 ? 0 : -8} # Limit to 32-bit
echo "0x$address"
}
read_binary() {
local address=$1
local length=$2
dd if="$target" bs=1 iseek=$address count=$length 2>|/dev/null
}
read_32bit_value() {
local address=$1
read_binary $address 4 | xxd -p | dd conv=swab 2>/dev/null | rev
}
inspect_binary() {
inspect_mode="$1"
echo -n "🔎 Inspecting binary '$target', "
if [ ! -f "$target" ]; then
echo "target does not exist!"
exit 1
fi
read -a mach_header <<< "$(otool -h "$target" -v | tail -n 1)"
if [ "${mach_header[1]}" != "X86_64" ]; then
echo "binary is not 64-bit, only 64-bit binaries are supported!"
exit 1
fi
classnames_section="__objc_classname"
classnames=$(otool -v -s __TEXT $classnames_section "$target" | tail -n +3)
while read -a classname; do
address=$(sanitize_address ${classname[0]})
name=${classname[1]}
declare "address_to_classname_map_$address=$name"
declare "classname_to_address_map_$name=$address"
done <<< "$classnames"
extra_classnames_file="$(mktemp -t ${classnames_section}_additions).S"
if [ "$inspect_mode" == "inject_classnames" ]; then
echo "class names have not been namespaced, adding suffix '$suffix'..."
printf ".section __TEXT,$classnames_section,cstring_literals,no_dead_strip\n" > $extra_classnames_file
elif [ "$inspect_mode" == "patch_classes" ]; then
echo "found namespaced class names, updating class entries..."
fi
classes=$(otool -o "$target" | grep class_ro_t)
while read -a class; do
address="$(sanitize_address ${class[1]})"
class_flags="0x$(read_32bit_value $address)"
if [ -z "$class_flags" ]; then
echo " 💥 failed to read class flags for class at $address"
continue
fi
is_metaclass=$(($class_flags & 0x1))
name_offset=$(($address + 24))
classname_address="0x$(read_32bit_value $name_offset)"
if [ -z "$classname_address" ]; then
echo " 💥 failed to read class name address for class at $address"
continue
fi
classname=$(get_entry address_to_classname $classname_address)
if [ -z "$classname" ]; then
echo " 💥 failed to resolve class name for address '$classname_address'"
continue
fi
if [[ $exclude_list =~ $classname || $classname =~ $exclude_regex ]]; then
if [ $is_metaclass -eq 1 ]; then
class_type="meta class"
else
class_type="class"
fi
echo " 🚽 skipping excluded $class_type '$classname'"
continue
fi
newclassname="${classname}_${suffix}"
if [ "$inspect_mode" == "inject_classnames" ]; then
if [ $is_metaclass -eq 1 ]; then
continue
fi
echo " 💉 injecting $classnames_section entry '$newclassname' for '$classname'"
printf ".asciz \"$newclassname\"\n" >> $extra_classnames_file
elif [ "$inspect_mode" == "patch_classes" ]; then
newclassname_address=$(get_entry classname_to_address ${newclassname})
if [ -z "$newclassname_address" ]; then
echo " 💥 failed to resolve class name address for class '$newclassname'"
continue
fi
if [ $is_metaclass -eq 1 ]; then
class_type="meta"
else
class_type="class"
fi
echo " 🔨 patching class_ro_t at $address ($class_type) from $classname_address ($classname) to $newclassname_address ($newclassname)"
echo ${newclassname_address: -8} | rev | dd conv=swab 2>/dev/null | xxd -p -r -seek $name_offset -l 4 - "$target"
fi
done <<< "$classes"
}
echo "🔩 Linking binary using '$original_ld'..."
link_binary
inspect_binary inject_classnames
echo "🔩 Re-linking binary with extra __objc_classname section..."
link_binary $extra_classnames_file
inspect_binary patch_classes

View File

@ -0,0 +1,50 @@
#
# W A R N I N G
# -------------
#
# This file is not part of the Qt API. It exists purely as an
# implementation detail. It may change from version to version
# without notice, or even be removed.
#
# We mean it.
#
# The Objective-C runtime will complain when loading a binary that
# introduces as class name that already exists in the global namespace.
# This may happen when linking Qt statically into a plugin, and then
# loading more than two plugins into the same host, both using Qt.
#
# We work around this by doing a bit of post-processing on the final
# binary, adding new suffixed class name entries to the __objc_classname
# section of the __TEXT segment, and then patching the class_ro_t
# entries to point to the newly added class names.
#
# By linking the binary between these two steps we avoid having to
# manually remap all the offsets in the Mach-O binary due to the
# added class names, instead relying on the linker to do this
# for us by linking in an assembly file with the added names.
objc_namespace_script = $$clean_path($$PWD/../../data/mac/objc_namespace.sh)
isEmpty(QMAKE_OBJC_NAMESPACE_SUFFIX) {
QMAKE_OBJC_NAMESPACE_SUFFIX = $$TARGET
!isEmpty(QMAKE_TARGET_BUNDLE_PREFIX): \
QMAKE_OBJC_NAMESPACE_SUFFIX = $${QMAKE_TARGET_BUNDLE_PREFIX}.$${QMAKE_OBJC_NAMESPACE_SUFFIX}
}
QMAKE_LFLAGS += \
-Wobjc_namespace,--target=$$shell_quote($$TARGET) \
-Wobjc_namespace,--suffix=$$shell_quote($$QMAKE_OBJC_NAMESPACE_SUFFIX) \
-Wobjc_namespace,--original_ld=$$shell_quote($$QMAKE_LINK)
!isEmpty(QMAKE_OBJC_NAMESPACE_EXCLUDE): \
QMAKE_LFLAGS += -Wobjc_namespace,--exclude_list=$$shell_quote($$QMAKE_OBJC_NAMESPACE_EXCLUDE)
!isEmpty(QMAKE_OBJC_NAMESPACE_EXCLUDE_REGEX) {
equals(MAKEFILE_GENERATOR, UNIX): \
QMAKE_OBJC_NAMESPACE_EXCLUDE_REGEX ~= s/\\$/\$\$/
QMAKE_LFLAGS += -Wobjc_namespace,--exclude_regex=$$shell_quote($$QMAKE_OBJC_NAMESPACE_EXCLUDE_REGEX)
}
slient: QMAKE_LFLAGS += -Wobjc_namespace,--silent=1
QMAKE_LINK = $$objc_namespace_script

View File

@ -3,7 +3,8 @@ TARGET = qtfreetype
CONFIG += \
static \
hide_symbols \
exceptions_off rtti_off warn_off
exceptions_off rtti_off warn_off \
installed
load(qt_helper_lib)

View File

@ -42,6 +42,7 @@ import android.content.pm.PackageManager;
import android.content.pm.PackageManager.NameNotFoundException;
import android.content.res.Configuration;
import android.graphics.drawable.ColorDrawable;
import android.graphics.Rect;
import android.net.LocalServerSocket;
import android.net.LocalSocket;
import android.os.Build;
@ -67,7 +68,6 @@ import android.view.ViewGroup;
import android.view.WindowManager;
import android.view.inputmethod.InputMethodManager;
import android.view.ViewTreeObserver;
import android.graphics.Rect;
import java.io.BufferedReader;
import java.io.DataOutputStream;
@ -125,6 +125,9 @@ public class QtActivityDelegate
private boolean m_keyboardIsVisible = false;
public boolean m_backKeyPressedSent = false;
private long m_showHideTimeStamp = System.nanoTime();
private int m_portraitKeyboardHeight = 0;
private int m_landscapeKeyboardHeight = 0;
private int m_probeKeyboardHeightDelay = 50; // ms
public void setFullScreen(boolean enterFullScreen)
{
@ -247,19 +250,26 @@ public class QtActivityDelegate
}, 5);
}
public void showSoftwareKeyboard(int x, int y, int width, int height, int inputHints, int enterKeyType)
public void showSoftwareKeyboard(final int x, final int y, final int width, final int height, final int inputHints, final int enterKeyType)
{
if (m_imm == null)
return;
DisplayMetrics metrics = new DisplayMetrics();
m_activity.getWindowManager().getDefaultDisplay().getMetrics(metrics);
// If the screen is in portrait mode than we estimate that keyboard height will not be higher than 2/5 of the screen.
// else than we estimate that keyboard height will not be higher than 2/3 of the screen
final int visibleHeight;
if (metrics.widthPixels < metrics.heightPixels)
visibleHeight = m_portraitKeyboardHeight != 0 ? m_portraitKeyboardHeight : metrics.heightPixels * 3 / 5;
else
visibleHeight = m_landscapeKeyboardHeight != 0 ? m_landscapeKeyboardHeight : metrics.heightPixels / 3;
if (m_softInputMode != 0) {
m_activity.getWindow().setSoftInputMode(m_softInputMode);
// softInputIsHidden is true if SOFT_INPUT_STATE_HIDDEN or SOFT_INPUT_STATE_ALWAYS_HIDDEN is set.
final boolean softInputIsHidden = (m_softInputMode & WindowManager.LayoutParams.SOFT_INPUT_STATE_HIDDEN) != 0;
if (softInputIsHidden)
return;
} else {
if (height > m_layout.getHeight() * 2 / 3)
if (height > visibleHeight)
m_activity.getWindow().setSoftInputMode(WindowManager.LayoutParams.SOFT_INPUT_STATE_UNCHANGED | WindowManager.LayoutParams.SOFT_INPUT_ADJUST_RESIZE);
else
m_activity.getWindow().setSoftInputMode(WindowManager.LayoutParams.SOFT_INPUT_STATE_UNCHANGED | WindowManager.LayoutParams.SOFT_INPUT_ADJUST_PAN);
@ -366,6 +376,38 @@ public class QtActivityDelegate
//FALLTHROUGH
case InputMethodManager.RESULT_UNCHANGED_SHOWN:
setKeyboardVisibility(true, System.nanoTime());
if (m_softInputMode == 0) {
// probe for real keyboard height
m_layout.postDelayed(new Runnable() {
@Override
public void run() {
if (!m_keyboardIsVisible)
return;
DisplayMetrics metrics = new DisplayMetrics();
m_activity.getWindowManager().getDefaultDisplay().getMetrics(metrics);
Rect r = new Rect();
m_activity.getWindow().getDecorView().getWindowVisibleDisplayFrame(r);
if (metrics.heightPixels != r.bottom) {
if (metrics.widthPixels > metrics.heightPixels) { // landscape
if (m_landscapeKeyboardHeight != r.bottom) {
m_landscapeKeyboardHeight = r.bottom;
showSoftwareKeyboard(x, y, width, height, inputHints, enterKeyType);
}
} else {
if (m_portraitKeyboardHeight != r.bottom) {
m_portraitKeyboardHeight = r.bottom;
showSoftwareKeyboard(x, y, width, height, inputHints, enterKeyType);
}
}
} else {
// no luck ?
// maybe the delay was too short, so let's make it longer
if (m_probeKeyboardHeightDelay < 1000)
m_probeKeyboardHeightDelay *= 2;
}
}
}, m_probeKeyboardHeightDelay);
}
break;
case InputMethodManager.RESULT_HIDDEN:
case InputMethodManager.RESULT_UNCHANGED_HIDDEN:

View File

@ -214,6 +214,16 @@ public class QtNative
});
}
private static void setViewVisibility(final View view, final boolean visible)
{
runAction(new Runnable() {
@Override
public void run() {
view.setVisibility(visible ? View.VISIBLE : View.GONE);
}
});
}
public static boolean startApplication(String params,
String environment,
String mainLibrary,

View File

@ -647,7 +647,7 @@ extern "C" void qt_core_boilerplate();
void qt_core_boilerplate()
{
printf("This is the QtCore library version " QT_BUILD_STR "\n"
"Copyright (C) 2015 The Qt Company Ltd.\n"
"Copyright (C) 2016 The Qt Company Ltd.\n"
"Contact: http://www.qt.io/licensing/\n"
"\n"
"Installation prefix: %s\n"

View File

@ -107,8 +107,6 @@ win32 {
!winrt {
SOURCES += io/qsettings_win.cpp
HEADERS += io/qwindowspipewriter_p.h
SOURCES += io/qwindowspipewriter.cpp
SOURCES += io/qstandardpaths_win.cpp
wince* {
@ -117,11 +115,13 @@ win32 {
} else {
HEADERS += \
io/qwinoverlappedionotifier_p.h \
io/qwindowspipereader_p.h
io/qwindowspipereader_p.h \
io/qwindowspipewriter_p.h
SOURCES += \
io/qprocess_win.cpp \
io/qwinoverlappedionotifier.cpp \
io/qwindowspipereader.cpp \
io/qwindowspipewriter.cpp \
io/qstorageinfo_win.cpp
LIBS += -lmpr
}

View File

@ -747,7 +747,7 @@ QFile::copy(const QString &newName)
qWarning("QFile::copy: Empty or null file name");
return false;
}
if (QFile(newName).exists()) {
if (QFile::exists(newName)) {
// ### Race condition. If a file is moved in after this, it /will/ be
// overwritten. On Unix, the proper solution is to use hardlinks:
// return ::link(old, new) && ::remove(old); See also rename().

View File

@ -33,7 +33,6 @@
#include "qprocess.h"
#include "qprocess_p.h"
#include "qwindowspipewriter_p.h"
#include <qdir.h>
#include <qfileinfo.h>
@ -156,7 +155,7 @@ void QProcessPrivate::startProcess()
}
// give the process a chance to start ...
Sleep(SLEEPMIN * 2);
Sleep(20);
_q_startupNotification();
}

View File

@ -41,9 +41,7 @@
#include <qcoreapplication.h>
#endif
#if !defined(Q_OS_WINCE)
const GUID qCLSID_FOLDERID_Downloads = { 0x374de290, 0x123f, 0x4565, { 0x91, 0x64, 0x39, 0xc4, 0x92, 0x5e, 0x46, 0x7b } };
#endif
#include <qt_windows.h>
#include <shlobj.h>
@ -64,113 +62,152 @@ const GUID qCLSID_FOLDERID_Downloads = { 0x374de290, 0x123f, 0x4565, { 0x91, 0x6
QT_BEGIN_NAMESPACE
#if !defined(Q_OS_WINCE)
typedef HRESULT (WINAPI *GetKnownFolderPath)(const GUID&, DWORD, HANDLE, LPWSTR*);
#endif
static QString convertCharArray(const wchar_t *path)
{
return QDir::fromNativeSeparators(QString::fromWCharArray(path));
}
static inline int clsidForAppDataLocation(QStandardPaths::StandardLocation type)
static inline bool isGenericConfigLocation(QStandardPaths::StandardLocation type)
{
#ifndef Q_OS_WINCE
return type == QStandardPaths::AppDataLocation ?
CSIDL_APPDATA : // "Roaming" path
CSIDL_LOCAL_APPDATA; // Local path
#else
Q_UNUSED(type)
return CSIDL_APPDATA;
return type == QStandardPaths::GenericConfigLocation || type == QStandardPaths::GenericDataLocation;
}
static inline bool isConfigLocation(QStandardPaths::StandardLocation type)
{
return type == QStandardPaths::ConfigLocation || type == QStandardPaths::AppConfigLocation
|| type == QStandardPaths::AppDataLocation || type == QStandardPaths::AppLocalDataLocation
|| isGenericConfigLocation(type);
}
static void appendOrganizationAndApp(QString &path) // Courtesy qstandardpaths_unix.cpp
{
#ifndef QT_BOOTSTRAPPED
const QString &org = QCoreApplication::organizationName();
if (!org.isEmpty())
path += QLatin1Char('/') + org;
const QString &appName = QCoreApplication::applicationName();
if (!appName.isEmpty())
path += QLatin1Char('/') + appName;
#else // !QT_BOOTSTRAPPED
Q_UNUSED(path)
#endif
}
static inline QString displayName(QStandardPaths::StandardLocation type)
{
#ifndef QT_BOOTSTRAPPED
return QStandardPaths::displayName(type);
#else
return QString::number(type);
#endif
}
static inline void appendTestMode(QString &path)
{
if (QStandardPaths::isTestModeEnabled())
path += QLatin1String("/qttest");
}
// Map QStandardPaths::StandardLocation to CLSID of SHGetSpecialFolderPath()
static int writableSpecialFolderClsid(QStandardPaths::StandardLocation type)
{
static const int clsids[] = {
CSIDL_DESKTOPDIRECTORY, // DesktopLocation
CSIDL_PERSONAL, // DocumentsLocation
CSIDL_FONTS, // FontsLocation
CSIDL_PROGRAMS, // ApplicationsLocation
CSIDL_MYMUSIC, // MusicLocation
CSIDL_MYVIDEO, // MoviesLocation
CSIDL_MYPICTURES, // PicturesLocation
-1, -1, // TempLocation/HomeLocation
CSIDL_LOCAL_APPDATA, // AppLocalDataLocation ("Local" path), AppLocalDataLocation = DataLocation
-1, // CacheLocation
CSIDL_LOCAL_APPDATA, // GenericDataLocation ("Local" path)
-1, // RuntimeLocation
CSIDL_LOCAL_APPDATA, // ConfigLocation ("Local" path)
-1, -1, // DownloadLocation/GenericCacheLocation
CSIDL_LOCAL_APPDATA, // GenericConfigLocation ("Local" path)
CSIDL_APPDATA, // AppDataLocation ("Roaming" path)
CSIDL_LOCAL_APPDATA, // AppConfigLocation ("Local" path)
};
Q_STATIC_ASSERT(sizeof(clsids) / sizeof(clsids[0]) == size_t(QStandardPaths::AppConfigLocation + 1));
return size_t(type) < sizeof(clsids) / sizeof(clsids[0]) ? clsids[type] : -1;
};
// Convenience for SHGetSpecialFolderPath().
static QString sHGetSpecialFolderPath(int clsid, QStandardPaths::StandardLocation type, bool warn = false)
{
QString result;
wchar_t path[MAX_PATH];
if (Q_LIKELY(clsid >= 0 && SHGetSpecialFolderPath(0, path, clsid, FALSE))) {
result = convertCharArray(path);
} else {
if (warn) {
qErrnoWarning("SHGetSpecialFolderPath() failed for standard location \"%s\", clsid=0x%x.",
qPrintable(displayName(type)), clsid);
}
}
return result;
}
// Convenience for SHGetKnownFolderPath().
static QString sHGetKnownFolderPath(const GUID &clsid, QStandardPaths::StandardLocation type, bool warn = false)
{
QString result;
#ifndef Q_OS_WINCE
typedef HRESULT (WINAPI *GetKnownFolderPath)(const GUID&, DWORD, HANDLE, LPWSTR*);
static const GetKnownFolderPath sHGetKnownFolderPath = // Vista onwards.
reinterpret_cast<GetKnownFolderPath>(QSystemLibrary::resolve(QLatin1String("shell32"), "SHGetKnownFolderPath"));
LPWSTR path;
if (Q_LIKELY(sHGetKnownFolderPath && SUCCEEDED(sHGetKnownFolderPath(clsid, 0, 0, &path)))) {
result = convertCharArray(path);
CoTaskMemFree(path);
} else {
if (warn) {
qErrnoWarning("SHGetKnownFolderPath() failed for standard location \"%s\".",
qPrintable(displayName(type)));
}
}
#else // !Q_OS_WINCE
Q_UNUSED(clsid)
Q_UNUSED(type)
Q_UNUSED(warn)
#endif
return result;
}
QString QStandardPaths::writableLocation(StandardLocation type)
{
QString result;
#if !defined(Q_OS_WINCE)
static GetKnownFolderPath SHGetKnownFolderPath = (GetKnownFolderPath)QSystemLibrary::resolve(QLatin1String("shell32"), "SHGetKnownFolderPath");
#endif
wchar_t path[MAX_PATH];
switch (type) {
case ConfigLocation: // same as AppLocalDataLocation, on Windows
case GenericConfigLocation: // same as GenericDataLocation on Windows
case AppConfigLocation:
case AppDataLocation:
case AppLocalDataLocation:
case GenericDataLocation:
if (SHGetSpecialFolderPath(0, path, clsidForAppDataLocation(type), FALSE))
result = convertCharArray(path);
if (isTestModeEnabled())
result += QLatin1String("/qttest");
#ifndef QT_BOOTSTRAPPED
if (type != GenericDataLocation && type != GenericConfigLocation) {
if (!QCoreApplication::organizationName().isEmpty())
result += QLatin1Char('/') + QCoreApplication::organizationName();
if (!QCoreApplication::applicationName().isEmpty())
result += QLatin1Char('/') + QCoreApplication::applicationName();
}
#endif
break;
case DesktopLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_DESKTOPDIRECTORY, FALSE))
result = convertCharArray(path);
break;
case DownloadLocation:
#if !defined(Q_OS_WINCE)
if (SHGetKnownFolderPath) {
LPWSTR path;
if (SHGetKnownFolderPath(qCLSID_FOLDERID_Downloads, 0, 0, &path) == S_OK) {
result = convertCharArray(path);
CoTaskMemFree(path);
}
break;
}
#endif
// fall through
case DocumentsLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_PERSONAL, FALSE))
result = convertCharArray(path);
break;
case FontsLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_FONTS, FALSE))
result = convertCharArray(path);
break;
case ApplicationsLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_PROGRAMS, FALSE))
result = convertCharArray(path);
break;
case MusicLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_MYMUSIC, FALSE))
result = convertCharArray(path);
break;
case MoviesLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_MYVIDEO, FALSE))
result = convertCharArray(path);
break;
case PicturesLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_MYPICTURES, FALSE))
result = convertCharArray(path);
result = sHGetKnownFolderPath(qCLSID_FOLDERID_Downloads, type);
if (result.isEmpty())
result = QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation);
break;
case CacheLocation:
// Although Microsoft has a Cache key it is a pointer to IE's cache, not a cache
// location for everyone. Most applications seem to be using a
// cache directory located in their AppData directory
return writableLocation(AppLocalDataLocation) + QLatin1String("/cache");
result = sHGetSpecialFolderPath(writableSpecialFolderClsid(AppLocalDataLocation), type, /* warn */ true);
if (!result.isEmpty()) {
appendTestMode(result);
appendOrganizationAndApp(result);
result += QLatin1String("/cache");
}
break;
case GenericCacheLocation:
return writableLocation(GenericDataLocation) + QLatin1String("/cache");
result = sHGetSpecialFolderPath(writableSpecialFolderClsid(GenericDataLocation), type, /* warn */ true);
if (!result.isEmpty()) {
appendTestMode(result);
result += QLatin1String("/cache");
}
break;
case RuntimeLocation:
case HomeLocation:
@ -180,6 +217,15 @@ QString QStandardPaths::writableLocation(StandardLocation type)
case TempLocation:
result = QDir::tempPath();
break;
default:
result = sHGetSpecialFolderPath(writableSpecialFolderClsid(type), type, /* warn */ isConfigLocation(type));
if (!result.isEmpty() && isConfigLocation(type)) {
appendTestMode(result);
if (!isGenericConfigLocation(type))
appendOrganizationAndApp(result);
}
break;
}
return result;
}
@ -187,44 +233,26 @@ QString QStandardPaths::writableLocation(StandardLocation type)
QStringList QStandardPaths::standardLocations(StandardLocation type)
{
QStringList dirs;
const QString localDir = writableLocation(type);
if (!localDir.isEmpty())
dirs.append(localDir);
// type-specific handling goes here
#ifndef Q_OS_WINCE
{
wchar_t path[MAX_PATH];
switch (type) {
case ConfigLocation: // same as AppLocalDataLocation, on Windows (oversight, but too late to fix it)
case GenericConfigLocation: // same as GenericDataLocation, on Windows
case AppConfigLocation: // same as AppLocalDataLocation, that one on purpose
case AppDataLocation:
case AppLocalDataLocation:
case GenericDataLocation:
if (SHGetSpecialFolderPath(0, path, CSIDL_COMMON_APPDATA, FALSE)) {
QString result = convertCharArray(path);
if (type != GenericDataLocation && type != GenericConfigLocation) {
#ifndef QT_BOOTSTRAPPED
if (!QCoreApplication::organizationName().isEmpty())
result += QLatin1Char('/') + QCoreApplication::organizationName();
if (!QCoreApplication::applicationName().isEmpty())
result += QLatin1Char('/') + QCoreApplication::applicationName();
#endif
}
dirs.append(result);
#ifndef QT_BOOTSTRAPPED
dirs.append(QCoreApplication::applicationDirPath());
dirs.append(QCoreApplication::applicationDirPath() + QLatin1String("/data"));
#endif
}
break;
default:
break;
if (isConfigLocation(type)) {
QString programData = sHGetSpecialFolderPath(CSIDL_COMMON_APPDATA, type);
if (!programData.isEmpty()) {
if (!isGenericConfigLocation(type))
appendOrganizationAndApp(programData);
dirs.append(programData);
}
}
#endif
# ifndef QT_BOOTSTRAPPED
dirs.append(QCoreApplication::applicationDirPath());
dirs.append(QCoreApplication::applicationDirPath() + QLatin1String("/data"));
# endif // !QT_BOOTSTRAPPED
} // isConfigLocation()
#endif // !Q_OS_WINCE
const QString localDir = writableLocation(type);
dirs.prepend(localDir);
return dirs;
}

View File

@ -679,8 +679,11 @@ QJsonObject::const_iterator QJsonObject::constFind(const QString &key) const
/*! \typedef QJsonObject::iterator::iterator_category
A synonym for \e {std::bidirectional_iterator_tag} indicating
this iterator is a bidirectional iterator.
A synonym for \e {std::random_access_iterator_tag} indicating
this iterator is a random-access iterator.
\note In Qt versions before 5.6, this was set by mistake to
\e {std::bidirectional_iterator_tag}.
*/
/*! \typedef QJsonObject::iterator::reference
@ -886,8 +889,11 @@ QJsonObject::const_iterator QJsonObject::constFind(const QString &key) const
/*! \typedef QJsonObject::const_iterator::iterator_category
A synonym for \e {std::bidirectional_iterator_tag} indicating
this iterator is a bidirectional iterator.
A synonym for \e {std::random_access_iterator_tag} indicating
this iterator is a random-access iterator.
\note In Qt versions before 5.6, this was set by mistake to
\e {std::bidirectional_iterator_tag}.
*/
/*! \typedef QJsonObject::const_iterator::reference

View File

@ -100,7 +100,7 @@ public:
int i;
public:
typedef std::bidirectional_iterator_tag iterator_category;
typedef std::random_access_iterator_tag iterator_category;
typedef int difference_type;
typedef QJsonValue value_type;
typedef QJsonValueRef reference;
@ -143,7 +143,7 @@ public:
int i;
public:
typedef std::bidirectional_iterator_tag iterator_category;
typedef std::random_access_iterator_tag iterator_category;
typedef int difference_type;
typedef QJsonValue value_type;
typedef QJsonValue reference;

View File

@ -34,6 +34,11 @@
#include <private/qcore_mac_p.h>
#ifdef Q_OS_OSX
#include <AppKit/NSText.h>
#include <Carbon/Carbon.h>
#endif
#include <qdebug.h>
#ifdef Q_OS_IOS
@ -148,5 +153,148 @@ QMacAutoReleasePool::~QMacAutoReleasePool()
// -------------------------------------------------------------------------
#ifdef Q_OS_OSX
// Use this method to keep all the information in the TextSegment. As long as it is ordered
// we are in OK shape, and we can influence that ourselves.
struct KeyPair
{
QChar cocoaKey;
Qt::Key qtKey;
};
bool operator==(const KeyPair &entry, QChar qchar)
{
return entry.cocoaKey == qchar;
}
bool operator<(const KeyPair &entry, QChar qchar)
{
return entry.cocoaKey < qchar;
}
bool operator<(QChar qchar, const KeyPair &entry)
{
return qchar < entry.cocoaKey;
}
bool operator<(const Qt::Key &key, const KeyPair &entry)
{
return key < entry.qtKey;
}
bool operator<(const KeyPair &entry, const Qt::Key &key)
{
return entry.qtKey < key;
}
struct qtKey2CocoaKeySortLessThan
{
typedef bool result_type;
Q_DECL_CONSTEXPR result_type operator()(const KeyPair &entry1, const KeyPair &entry2) const Q_DECL_NOTHROW
{
return entry1.qtKey < entry2.qtKey;
}
};
static const int NumEntries = 59;
static const KeyPair entries[NumEntries] = {
{ NSEnterCharacter, Qt::Key_Enter },
{ NSBackspaceCharacter, Qt::Key_Backspace },
{ NSTabCharacter, Qt::Key_Tab },
{ NSNewlineCharacter, Qt::Key_Return },
{ NSCarriageReturnCharacter, Qt::Key_Return },
{ NSBackTabCharacter, Qt::Key_Backtab },
{ kEscapeCharCode, Qt::Key_Escape },
// Cocoa sends us delete when pressing backspace!
// (NB when we reverse this list in qtKey2CocoaKey, there
// will be two indices of Qt::Key_Backspace. But is seems to work
// ok for menu shortcuts (which uses that function):
{ NSDeleteCharacter, Qt::Key_Backspace },
{ NSUpArrowFunctionKey, Qt::Key_Up },
{ NSDownArrowFunctionKey, Qt::Key_Down },
{ NSLeftArrowFunctionKey, Qt::Key_Left },
{ NSRightArrowFunctionKey, Qt::Key_Right },
{ NSF1FunctionKey, Qt::Key_F1 },
{ NSF2FunctionKey, Qt::Key_F2 },
{ NSF3FunctionKey, Qt::Key_F3 },
{ NSF4FunctionKey, Qt::Key_F4 },
{ NSF5FunctionKey, Qt::Key_F5 },
{ NSF6FunctionKey, Qt::Key_F6 },
{ NSF7FunctionKey, Qt::Key_F7 },
{ NSF8FunctionKey, Qt::Key_F8 },
{ NSF9FunctionKey, Qt::Key_F9 },
{ NSF10FunctionKey, Qt::Key_F10 },
{ NSF11FunctionKey, Qt::Key_F11 },
{ NSF12FunctionKey, Qt::Key_F12 },
{ NSF13FunctionKey, Qt::Key_F13 },
{ NSF14FunctionKey, Qt::Key_F14 },
{ NSF15FunctionKey, Qt::Key_F15 },
{ NSF16FunctionKey, Qt::Key_F16 },
{ NSF17FunctionKey, Qt::Key_F17 },
{ NSF18FunctionKey, Qt::Key_F18 },
{ NSF19FunctionKey, Qt::Key_F19 },
{ NSF20FunctionKey, Qt::Key_F20 },
{ NSF21FunctionKey, Qt::Key_F21 },
{ NSF22FunctionKey, Qt::Key_F22 },
{ NSF23FunctionKey, Qt::Key_F23 },
{ NSF24FunctionKey, Qt::Key_F24 },
{ NSF25FunctionKey, Qt::Key_F25 },
{ NSF26FunctionKey, Qt::Key_F26 },
{ NSF27FunctionKey, Qt::Key_F27 },
{ NSF28FunctionKey, Qt::Key_F28 },
{ NSF29FunctionKey, Qt::Key_F29 },
{ NSF30FunctionKey, Qt::Key_F30 },
{ NSF31FunctionKey, Qt::Key_F31 },
{ NSF32FunctionKey, Qt::Key_F32 },
{ NSF33FunctionKey, Qt::Key_F33 },
{ NSF34FunctionKey, Qt::Key_F34 },
{ NSF35FunctionKey, Qt::Key_F35 },
{ NSInsertFunctionKey, Qt::Key_Insert },
{ NSDeleteFunctionKey, Qt::Key_Delete },
{ NSHomeFunctionKey, Qt::Key_Home },
{ NSEndFunctionKey, Qt::Key_End },
{ NSPageUpFunctionKey, Qt::Key_PageUp },
{ NSPageDownFunctionKey, Qt::Key_PageDown },
{ NSPrintScreenFunctionKey, Qt::Key_Print },
{ NSScrollLockFunctionKey, Qt::Key_ScrollLock },
{ NSPauseFunctionKey, Qt::Key_Pause },
{ NSSysReqFunctionKey, Qt::Key_SysReq },
{ NSMenuFunctionKey, Qt::Key_Menu },
{ NSHelpFunctionKey, Qt::Key_Help },
};
static const KeyPair * const end = entries + NumEntries;
QChar qt_mac_qtKey2CocoaKey(Qt::Key key)
{
// The first time this function is called, create a reverse
// lookup table sorted on Qt Key rather than Cocoa key:
static QVector<KeyPair> rev_entries(NumEntries);
static bool mustInit = true;
if (mustInit){
mustInit = false;
for (int i=0; i<NumEntries; ++i)
rev_entries[i] = entries[i];
std::sort(rev_entries.begin(), rev_entries.end(), qtKey2CocoaKeySortLessThan());
}
const QVector<KeyPair>::iterator i
= std::lower_bound(rev_entries.begin(), rev_entries.end(), key);
if ((i == rev_entries.end()) || (key < *i))
return QChar();
return i->cocoaKey;
}
Qt::Key qt_mac_cocoaKey2QtKey(QChar keyCode)
{
const KeyPair *i = std::lower_bound(entries, end, keyCode);
if ((i == end) || (keyCode < *i))
return Qt::Key(keyCode.toUpper().unicode());
return i->qtKey;
}
#endif // Q_OS_OSX
// -------------------------------------------------------------------------
QT_END_NAMESPACE

View File

@ -137,6 +137,11 @@ typedef struct {
QAppleOperatingSystemVersion qt_apple_os_version();
#ifdef Q_OS_OSX
Q_CORE_EXPORT QChar qt_mac_qtKey2CocoaKey(Qt::Key key);
Q_CORE_EXPORT Qt::Key qt_mac_cocoaKey2QtKey(QChar keyCode);
#endif
QT_END_NAMESPACE
#endif // QCORE_MAC_P_H

View File

@ -1698,8 +1698,9 @@ bool QMetaType::load(QDataStream &stream, int type, void *data)
void *QMetaType::create(int type, const void *copy)
{
QMetaType info(type);
int size = info.sizeOf();
return info.construct(operator new(size), copy);
if (int size = info.sizeOf())
return info.construct(operator new(size), copy);
return 0;
}
/*!

View File

@ -47,7 +47,7 @@ QT_BEGIN_NAMESPACE
static const char boilerplate_supported_but_time_limited[] =
"\nQt %1 Evaluation License\n"
"Copyright (C) 2015 The Qt Company Ltd.\n"
"Copyright (C) 2016 The Qt Company Ltd.\n"
"This trial version may only be used for evaluation purposes\n"
"and will shut down after 120 minutes.\n"
"Registered to:\n"
@ -57,7 +57,7 @@ static const char boilerplate_supported_but_time_limited[] =
static const char boilerplate_supported[] =
"\nQt %1 Evaluation License\n"
"Copyright (C) 2015 The Qt Company Ltd.\n"
"Copyright (C) 2016 The Qt Company Ltd.\n"
"This trial version may only be used for evaluation purposes\n"
"Registered to:\n"
" Licensee: %2\n\n"

View File

@ -31,12 +31,10 @@
**
****************************************************************************/
#include "qfinalstate.h"
#include "qfinalstate_p.h"
#ifndef QT_NO_STATEMACHINE
#include "qabstractstate_p.h"
QT_BEGIN_NAMESPACE
/*!
@ -76,19 +74,16 @@ QT_BEGIN_NAMESPACE
\sa QState::finished()
*/
class QFinalStatePrivate : public QAbstractStatePrivate
{
Q_DECLARE_PUBLIC(QFinalState)
public:
QFinalStatePrivate();
};
QFinalStatePrivate::QFinalStatePrivate()
: QAbstractStatePrivate(FinalState)
{
}
QFinalStatePrivate::~QFinalStatePrivate()
{
// to prevent vtables being generated in every file that includes the private header
}
/*!
Constructs a new QFinalState object with the given \a parent state.
*/
@ -97,6 +92,15 @@ QFinalState::QFinalState(QState *parent)
{
}
/*!
\internal
*/
QFinalState::QFinalState(QFinalStatePrivate &dd, QState *parent)
: QAbstractState(dd, parent)
{
}
/*!
Destroys this final state.
*/

View File

@ -38,7 +38,6 @@
QT_BEGIN_NAMESPACE
#ifndef QT_NO_STATEMACHINE
class QFinalStatePrivate;
@ -55,6 +54,9 @@ protected:
bool event(QEvent *e) Q_DECL_OVERRIDE;
protected:
explicit QFinalState(QFinalStatePrivate &dd, QState *parent);
private:
Q_DISABLE_COPY(QFinalState)
Q_DECLARE_PRIVATE(QFinalState)

View File

@ -0,0 +1,68 @@
/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: http://www.qt.io/licensing/
**
** This file is part of the QtCore module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL21$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see http://www.qt.io/terms-conditions. For further
** information use the contact form at http://www.qt.io/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 or version 3 as published by the Free
** Software Foundation and appearing in the file LICENSE.LGPLv21 and
** LICENSE.LGPLv3 included in the packaging of this file. Please review the
** following information to ensure the GNU Lesser General Public License
** requirements will be met: https://www.gnu.org/licenses/lgpl.html and
** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** As a special exception, The Qt Company gives you certain additional
** rights. These rights are described in The Qt Company LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** $QT_END_LICENSE$
**
****************************************************************************/
#ifndef QFINALSTATE_P_H
#define QFINALSTATE_P_H
//
// W A R N I N G
// -------------
//
// This file is not part of the Qt API. It exists purely as an
// implementation detail. This header file may change from version to
// version without notice, or even be removed.
//
// We mean it.
//
#include "qfinalstate.h"
#include "private/qabstractstate_p.h"
#ifndef QT_NO_STATEMACHINE
QT_BEGIN_NAMESPACE
class Q_CORE_EXPORT QFinalStatePrivate : public QAbstractStatePrivate
{
Q_DECLARE_PUBLIC(QFinalState)
public:
QFinalStatePrivate();
~QFinalStatePrivate();
};
QT_END_NAMESPACE
#endif // QT_NO_STATEMACHINE
#endif // QFINALSTATE_P_H

View File

@ -31,11 +31,10 @@
**
****************************************************************************/
#include "qstate.h"
#include "qstate_p.h"
#ifndef QT_NO_STATEMACHINE
#include "qstate_p.h"
#include "qhistorystate.h"
#include "qhistorystate_p.h"
#include "qabstracttransition.h"

View File

@ -45,6 +45,7 @@
// We mean it.
//
#include "qstate.h"
#include "private/qabstractstate_p.h"
#include <QtCore/qlist.h>
@ -52,6 +53,8 @@
#include <QtCore/qpointer.h>
#include <QtCore/qvariant.h>
#ifndef QT_NO_STATEMACHINE
QT_BEGIN_NAMESPACE
#ifndef QT_NO_PROPERTIES
@ -83,7 +86,7 @@ class QAbstractTransition;
class QHistoryState;
class QState;
class Q_AUTOTEST_EXPORT QStatePrivate : public QAbstractStatePrivate
class Q_CORE_EXPORT QStatePrivate : public QAbstractStatePrivate
{
Q_DECLARE_PUBLIC(QState)
public:
@ -115,4 +118,6 @@ public:
QT_END_NAMESPACE
#endif // QT_NO_STATEMACHINE
#endif

View File

@ -6,6 +6,7 @@ HEADERS += $$PWD/qstatemachine.h \
$$PWD/qstate.h \
$$PWD/qstate_p.h \
$$PWD/qfinalstate.h \
$$PWD/qfinalstate_p.h \
$$PWD/qhistorystate.h \
$$PWD/qhistorystate_p.h \
$$PWD/qabstracttransition.h \

View File

@ -125,14 +125,13 @@ bool QDateTimeParser::setDigit(QDateTime &v, int index, int newVal) const
}
const SectionNode &node = sectionNodes.at(index);
int year, month, day, hour, minute, second, msec;
year = v.date().year();
month = v.date().month();
day = v.date().day();
hour = v.time().hour();
minute = v.time().minute();
second = v.time().second();
msec = v.time().msec();
int year = v.date().year();
int month = v.date().month();
int day = v.date().day();
int hour = v.time().hour();
int minute = v.time().minute();
int second = v.time().second();
int msec = v.time().msec();
switch (node.type) {
case Hour24Section: case Hour12Section: hour = newVal; break;
@ -670,15 +669,7 @@ QString QDateTimeParser::sectionText(const QString &text, int sectionIndex, int
QString QDateTimeParser::sectionText(int sectionIndex) const
{
const SectionNode &sn = sectionNode(sectionIndex);
switch (sn.type) {
case NoSectionIndex:
case FirstSectionIndex:
case LastSectionIndex:
return QString();
default: break;
}
return displayText().mid(sn.pos, sectionSize(sectionIndex));
return sectionText(displayText(), sectionIndex, sn.pos);
}
@ -1006,8 +997,10 @@ QDateTimeParser::StateNode QDateTimeParser::parse(QString &input, int &cursorPos
const QDate date(year, month, day);
const int diff = dayofweek - date.dayOfWeek();
if (diff != 0 && state == Acceptable && isSet & (DayOfWeekSectionShort|DayOfWeekSectionLong)) {
conflicts = isSet & DaySection;
if (diff != 0 && state == Acceptable
&& isSet & (DayOfWeekSectionShort | DayOfWeekSectionLong)) {
if (isSet & DaySection)
conflicts = true;
const SectionNode &sn = sectionNode(currentSectionIndex);
if (sn.type & (DayOfWeekSectionShort|DayOfWeekSectionLong) || currentSectionIndex == -1) {
// dayofweek should be preferred
@ -1371,9 +1364,9 @@ int QDateTimeParser::findDay(const QString &str1, int startDay, int sectionIndex
*/
int QDateTimeParser::findAmPm(QString &str, int index, int *used) const
int QDateTimeParser::findAmPm(QString &str, int sectionIndex, int *used) const
{
const SectionNode &s = sectionNode(index);
const SectionNode &s = sectionNode(sectionIndex);
if (s.type != AmPmSection) {
qWarning("QDateTimeParser::findAmPm Internal error");
return -1;
@ -1384,7 +1377,7 @@ int QDateTimeParser::findAmPm(QString &str, int index, int *used) const
return PossibleBoth;
}
const QLatin1Char space(' ');
int size = sectionMaxSize(index);
int size = sectionMaxSize(sectionIndex);
enum {
amindex = 0,

View File

@ -87,7 +87,7 @@ public:
first.pos = -1;
first.count = -1;
first.zeroesAdded = 0;
last.type = FirstSection;
last.type = LastSection;
last.pos = -1;
last.count = -1;
last.zeroesAdded = 0;

View File

@ -236,9 +236,9 @@ template <> struct QConcatenable<QLatin1String> : private QAbstractConcatenable
}
static inline void appendTo(const QLatin1String a, char *&out)
{
if (a.data()) {
for (const char *s = a.data(); *s; )
*out++ = *s++;
if (const char *data = a.data()) {
memcpy(out, data, a.size());
out += a.size();
}
}
};

View File

@ -807,7 +807,6 @@ bool QDBusConnectionPrivate::activateCall(QObject* object, int flags, const QDBu
if (!object)
return false;
#ifndef QT_NO_PROPERTIES
Q_ASSERT_X(QThread::currentThread() == object->thread(),
"QDBusConnection: internal threading error",
"function called for an object that is in another thread!!");
@ -866,7 +865,6 @@ bool QDBusConnectionPrivate::activateCall(QObject* object, int flags, const QDBu
deliverCall(object, flags, msg, cacheIt->metaTypes, cacheIt->slotIdx);
return true;
}
#endif // QT_NO_PROPERTIES
return false;
}

View File

@ -1758,15 +1758,8 @@ QAccessibleInterface *QAccessibleEvent::accessibleInterface() const
return QAccessible::accessibleInterface(m_uniqueId);
QAccessibleInterface *iface = QAccessible::queryAccessibleInterface(m_object);
if (!iface || !iface->isValid()) {
static bool hasWarned = false;
if (!iface && !hasWarned) {
qWarning() << "Problem creating accessible interface for: " << m_object << endl
<< "Make sure to deploy Qt with accessibility plugins.";
hasWarned = true;
}
if (!iface || !iface->isValid())
return 0;
}
if (m_child >= 0) {
QAccessibleInterface *child = iface->child(m_child);

View File

@ -921,15 +921,10 @@ QList<QScreen *> QGuiApplication::screens()
/*!
\property QGuiApplication::primaryScreen
\brief the primary (or default) screen of the application, or null if there is none.
\brief the primary (or default) screen of the application.
This will be the screen where QWindows are initially shown, unless otherwise specified.
On some platforms, it may be null when there are actually no screens connected.
It is not possible to start a new QGuiApplication while there are no screens.
Applications which were running at the time the primary screen was removed
will stop rendering graphics until one or more screens are restored.
The primaryScreenChanged signal was introduced in Qt 5.6.
\sa screens()
@ -1058,7 +1053,7 @@ static void init_platform(const QString &pluginArgument, const QString &platform
QStringList keys = QPlatformIntegrationFactory::keys(platformPluginPath);
QString fatalMessage
= QStringLiteral("This application failed to start because it could not find or load the Qt platform plugin \"%1\".\n\n").arg(name);
= QStringLiteral("This application failed to start because it could not find or load the Qt platform plugin \"%1\"\nin \"%2\".\n\n").arg(name, QDir::toNativeSeparators(platformPluginPath));
if (!keys.isEmpty()) {
fatalMessage += QStringLiteral("Available platform plugins are: %1.\n\n").arg(
keys.join(QStringLiteral(", ")));
@ -1960,6 +1955,16 @@ void QGuiApplicationPrivate::processKeyEvent(QWindowSystemInterfacePrivate::KeyE
window = QGuiApplication::focusWindow();
}
#if !defined(Q_OS_OSX)
// FIXME: Include OS X in this code path by passing the key event through
// QPlatformInputContext::filterEvent().
if (e->keyType == QEvent::KeyPress && window) {
if (QWindowSystemInterface::handleShortcutEvent(window, e->timestamp, e->key, e->modifiers,
e->nativeScanCode, e->nativeVirtualKey, e->nativeModifiers, e->unicode, e->repeat, e->repeatCount))
return;
}
#endif
QKeyEvent ev(e->keyType, e->key, e->modifiers,
e->nativeScanCode, e->nativeVirtualKey, e->nativeModifiers,
e->unicode, e->repeat, e->repeatCount);

View File

@ -140,6 +140,23 @@ static int qtkeyForMacSymbol(const QChar ch)
#else
static bool qt_sequence_no_mnemonics = false;
#endif
/*!
\fn void qt_set_sequence_auto_mnemonic(bool b)
\relates QKeySequence
Specifies whether mnemonics for menu items, labels, etc., should
be honored or not. On Windows and X11, this feature is
on by default; on OS X, it is off. When this feature is off
(that is, when \a b is false), QKeySequence::mnemonic() always
returns an empty string.
\note This function is not declared in any of Qt's header files.
To use it in your application, declare the function prototype
before calling it.
\sa QShortcut
*/
void Q_GUI_EXPORT qt_set_sequence_auto_mnemonic(bool b) { qt_sequence_no_mnemonics = !b; }
/*!

View File

@ -52,7 +52,7 @@
QT_BEGIN_NAMESPACE
#ifndef QT_NO_SHORTCUT
struct Q_AUTOTEST_EXPORT QKeyBinding
struct QKeyBinding
{
QKeySequence::StandardKey standardKey;
uchar priority;
@ -60,7 +60,7 @@ struct Q_AUTOTEST_EXPORT QKeyBinding
uint platform;
};
class Q_AUTOTEST_EXPORT QKeySequencePrivate
class QKeySequencePrivate
{
public:
enum { MaxKeyCount = 4 }; // also used in QKeySequenceEdit

View File

@ -249,8 +249,10 @@ bool QWindowSystemInterface::handleKeyEvent(QWindow *w, QEvent::Type t, int k, Q
bool QWindowSystemInterface::handleKeyEvent(QWindow *tlw, ulong timestamp, QEvent::Type t, int k, Qt::KeyboardModifiers mods, const QString & text, bool autorep, ushort count)
{
#if defined(Q_OS_OSX)
if (t == QEvent::KeyPress && QWindowSystemInterface::handleShortcutEvent(tlw, timestamp, k, mods, 0, 0, 0, text, autorep, count))
return true;
#endif
QWindowSystemInterfacePrivate::KeyEvent * e =
new QWindowSystemInterfacePrivate::KeyEvent(tlw, timestamp, t, k, mods, text, autorep, count);
@ -275,10 +277,14 @@ bool QWindowSystemInterface::handleExtendedKeyEvent(QWindow *tlw, ulong timestam
const QString& text, bool autorep,
ushort count, bool tryShortcutOverride)
{
#if defined(Q_OS_OSX)
if (tryShortcutOverride && type == QEvent::KeyPress && QWindowSystemInterface::handleShortcutEvent(tlw,
timestamp, key, modifiers, nativeScanCode, nativeVirtualKey, nativeModifiers, text, autorep, count)) {
return true;
}
#else
Q_UNUSED(tryShortcutOverride)
#endif
QWindowSystemInterfacePrivate::KeyEvent * e =
new QWindowSystemInterfacePrivate::KeyEvent(tlw, timestamp, type, key, modifiers,

View File

@ -2809,6 +2809,10 @@ QFontEngine *QFontCache::findEngine(const Key &key)
EngineCache::Iterator it = engineCache.find(key),
end = engineCache.end();
if (it == end) return 0;
Q_ASSERT(it.value().data != Q_NULLPTR);
Q_ASSERT(key.multi == (it.value().data->type() == QFontEngine::Multi));
// found... update the hitcount and timestamp
updateHitCountAndTimeStamp(it.value());
@ -2829,6 +2833,9 @@ void QFontCache::updateHitCountAndTimeStamp(Engine &value)
void QFontCache::insertEngine(const Key &key, QFontEngine *engine, bool insertMulti)
{
Q_ASSERT(engine != Q_NULLPTR);
Q_ASSERT(key.multi == (engine->type() == QFontEngine::Multi));
#ifdef QFONTCACHE_DEBUG
FC_DEBUG("QFontCache: inserting new engine %p, refcount %d", engine, engine->ref.load());
if (!insertMulti && engineCache.contains(key)) {

View File

@ -921,23 +921,28 @@ QFontEngine *loadSingleEngine(int script,
QFontDef def = request;
def.pixelSize = pixelSize;
QFontCache *fontCache = QFontCache::instance();
QFontCache::Key key(def,script);
QFontEngine *engine = QFontCache::instance()->findEngine(key);
QFontEngine *engine = fontCache->findEngine(key);
if (!engine) {
if (script != QChar::Script_Common) {
const bool cacheForCommonScript = script != QChar::Script_Common
&& (family->writingSystems[QFontDatabase::Latin] & QtFontFamily::Supported) != 0;
if (Q_LIKELY(cacheForCommonScript)) {
// fast path: check if engine was loaded for another script
key.script = QChar::Script_Common;
engine = QFontCache::instance()->findEngine(key);
engine = fontCache->findEngine(key);
key.script = script;
if (engine) {
Q_ASSERT(engine->type() != QFontEngine::Multi);
// Also check for OpenType tables when using complex scripts
if (Q_UNLIKELY(!engine->supportsScript(QChar::Script(script)))) {
qWarning(" OpenType support missing for script %d", script);
return 0;
}
QFontCache::instance()->insertEngine(key, engine);
fontCache->insertEngine(key, engine);
return engine;
}
}
@ -945,13 +950,13 @@ QFontEngine *loadSingleEngine(int script,
// If the font data's native stretch matches the requested stretch we need to set stretch to 100
// to avoid the fontengine synthesizing stretch. If they didn't match exactly we need to calculate
// the new stretch factor. This only done if not matched by styleName.
bool styleNameMatch = !request.styleName.isEmpty() && request.styleName == style->styleName;
if (!styleNameMatch && style->key.stretch != 0 && request.stretch != 0)
if (style->key.stretch != 0 && request.stretch != 0
&& (request.styleName.isEmpty() || request.styleName != style->styleName)) {
def.stretch = (request.stretch * 100 + 50) / style->key.stretch;
}
engine = pfdb->fontEngine(def, size->handle);
if (engine) {
Q_ASSERT(engine->type() != QFontEngine::Multi);
// Also check for OpenType tables when using complex scripts
if (!engine->supportsScript(QChar::Script(script))) {
qWarning(" OpenType support missing for script %d", script);
@ -960,13 +965,13 @@ QFontEngine *loadSingleEngine(int script,
return 0;
}
QFontCache::instance()->insertEngine(key, engine);
fontCache->insertEngine(key, engine);
if (!engine->symbol && script != QChar::Script_Common && (family->writingSystems[QFontDatabase::Latin] & QtFontFamily::Supported) != 0) {
if (Q_LIKELY(cacheForCommonScript && !engine->symbol)) {
// cache engine for Common script as well
key.script = QChar::Script_Common;
if (!QFontCache::instance()->findEngine(key))
QFontCache::instance()->insertEngine(key, engine);
if (!fontCache->findEngine(key))
fontCache->insertEngine(key, engine);
}
}
}
@ -979,7 +984,7 @@ QFontEngine *loadEngine(int script, const QFontDef &request,
QtFontStyle *style, QtFontSize *size)
{
QFontEngine *engine = loadSingleEngine(script, request, family, foundry, style, size);
Q_ASSERT(!engine || engine->type() != QFontEngine::Multi);
if (engine && !(request.styleStrategy & QFont::NoFontMerging) && !engine->symbol) {
QPlatformFontDatabase *pfdb = QGuiApplicationPrivate::platformIntegration()->fontDatabase();
QFontEngineMulti *pfMultiEngine = pfdb->fontEngineMulti(engine, QChar::Script(script));
@ -2635,12 +2640,14 @@ QFontEngine *QFontDatabase::findFont(const QFontDef &request, int script)
}
#endif
QFontCache *fontCache = QFontCache::instance();
// Until we specifically asked not to, try looking for Multi font engine
// first, the last '1' indicates that we want Multi font engine instead
// of single ones
bool multi = !(request.styleStrategy & QFont::NoFontMerging);
QFontCache::Key key(request, script, multi ? 1 : 0);
engine = QFontCache::instance()->findEngine(key);
engine = fontCache->findEngine(key);
if (engine) {
FM_DEBUG("Cache hit level 1");
return engine;
@ -2681,7 +2688,7 @@ QFontEngine *QFontDatabase::findFont(const QFontDef &request, int script)
QFontDef def = request;
def.family = fallbacks.at(i);
QFontCache::Key key(def, script, multi ? 1 : 0);
engine = QFontCache::instance()->findEngine(key);
engine = fontCache->findEngine(key);
if (!engine) {
QtFontDesc desc;
do {
@ -2725,13 +2732,21 @@ void QFontDatabase::load(const QFontPrivate *d, int script)
if (req.stretch == 0)
req.stretch = 100;
// respect the fallback families that might be passed through the request
const QStringList fallBackFamilies = familyList(req);
if (!d->engineData) {
QFontCache *fontCache = QFontCache::instance();
// look for the requested font in the engine data cache
d->engineData = QFontCache::instance()->findEngineData(req);
// note: fallBackFamilies are not respected in the EngineData cache key;
// join them with the primary selection family to avoid cache misses
req.family = fallBackFamilies.join(QLatin1Char(','));
d->engineData = fontCache->findEngineData(req);
if (!d->engineData) {
// create a new one
d->engineData = new QFontEngineData;
QFontCache::instance()->insertEngineData(req, d->engineData);
fontCache->insertEngineData(req, d->engineData);
}
d->engineData->ref.ref();
}
@ -2740,25 +2755,18 @@ void QFontDatabase::load(const QFontPrivate *d, int script)
if (d->engineData->engines[script])
return;
// Until we specifically asked not to, try looking for Multi font engine
// first, the last '1' indicates that we want Multi font engine instead
// of single ones
bool multi = !(req.styleStrategy & QFont::NoFontMerging);
QFontCache::Key key(req, script, multi ? 1 : 0);
QFontEngine *fe = Q_NULLPTR;
QFontEngine *fe = QFontCache::instance()->findEngine(key);
req.fallBackFamilies = fallBackFamilies;
if (!req.fallBackFamilies.isEmpty())
req.family = req.fallBackFamilies.takeFirst();
// list of families to try
QStringList family_list;
if (!req.family.isEmpty()) {
QStringList familiesForRequest = familyList(req);
// Add primary selection
family_list << familiesForRequest.takeFirst();
// Fallbacks requested in font request
req.fallBackFamilies = familiesForRequest;
family_list << req.family;
// add the default family
QString defaultFamily = QGuiApplication::font().family();

View File

@ -2290,7 +2290,7 @@ QFontEngine *QFontEngineMulti::createMultiFontEngine(QFontEngine *fe, int script
}
if (!engine) {
engine = QGuiApplicationPrivate::instance()->platformIntegration()->fontDatabase()->fontEngineMulti(fe, QChar::Script(script));
QFontCache::instance()->insertEngine(key, engine, /* insertMulti */ !faceIsLocal);
fc->insertEngine(key, engine, /* insertMulti */ !faceIsLocal);
}
Q_ASSERT(engine);
return engine;

View File

@ -121,14 +121,15 @@ QList<QNetworkProxy> QNetworkProxyFactory::systemProxyForQuery(const QNetworkPro
bool haveDirectConnection = false;
foreach (const QUrl& url, rawProxies) {
QNetworkProxy::ProxyType type;
if (url.scheme() == QStringLiteral("http")) {
const QString scheme = url.scheme();
if (scheme == QLatin1String("http")) {
type = QNetworkProxy::HttpProxy;
} else if (url.scheme() == QStringLiteral("socks")
|| url.scheme() == QStringLiteral("socks5")) {
} else if (scheme == QLatin1String("socks")
|| scheme == QLatin1String("socks5")) {
type = QNetworkProxy::Socks5Proxy;
} else if (url.scheme() == QStringLiteral("ftp")) {
} else if (scheme == QLatin1String("ftp")) {
type = QNetworkProxy::FtpCachingProxy;
} else if (url.scheme() == QStringLiteral("direct")) {
} else if (scheme == QLatin1String("direct")) {
type = QNetworkProxy::NoProxy;
haveDirectConnection = true;
} else {

View File

@ -49,7 +49,7 @@ QDBusPlatformMenuItem::QDBusPlatformMenuItem(quintptr tag)
: m_tag(tag ? tag : reinterpret_cast<quintptr>(this)) // QMenu will overwrite this later
, m_subMenu(Q_NULLPTR)
, m_role(NoRole)
, m_isEnabled(false)
, m_isEnabled(true)
, m_isVisible(true)
, m_isSeparator(false)
, m_isCheckable(false)
@ -146,7 +146,7 @@ QList<const QDBusPlatformMenuItem *> QDBusPlatformMenuItem::byIds(const QList<in
QDBusPlatformMenu::QDBusPlatformMenu(quintptr tag)
: m_tag(tag ? tag : reinterpret_cast<quintptr>(this))
, m_isEnabled(false)
, m_isEnabled(true)
, m_isVisible(true)
, m_isSeparator(false)
, m_dbusID(nextDBusID++)

View File

@ -1961,71 +1961,71 @@ namespace
// https://bugzilla.gnome.org/show_bug.cgi?id=744553 "ATK docs provide no guidance for allowed values of some text attributes"
// specifically for "weight", "invalid", "language" and value range for colors
if (ia2Name == QStringLiteral("background-color")) {
if (ia2Name == QLatin1String("background-color")) {
name = QStringLiteral("bg-color");
value = atspiColor(value);
} else if (ia2Name == QStringLiteral("font-family")) {
} else if (ia2Name == QLatin1String("font-family")) {
name = QStringLiteral("family-name");
} else if (ia2Name == QStringLiteral("color")) {
} else if (ia2Name == QLatin1String("color")) {
name = QStringLiteral("fg-color");
value = atspiColor(value);
} else if (ia2Name == QStringLiteral("text-align")) {
} else if (ia2Name == QLatin1String("text-align")) {
name = QStringLiteral("justification");
if (value == QStringLiteral("justify")) {
if (value == QLatin1String("justify")) {
value = QStringLiteral("fill");
} else {
if (value != QStringLiteral("left") &&
value != QStringLiteral("right") &&
value != QStringLiteral("center")
if (value != QLatin1String("left") &&
value != QLatin1String("right") &&
value != QLatin1String("center")
) {
value = QString();
qAtspiDebug() << "Unknown text-align attribute value \"" << value << "\" cannot be translated to AT-SPI.";
}
}
} else if (ia2Name == QStringLiteral("font-size")) {
} else if (ia2Name == QLatin1String("font-size")) {
name = QStringLiteral("size");
value = atspiSize(value);
} else if (ia2Name == QStringLiteral("font-style")) {
} else if (ia2Name == QLatin1String("font-style")) {
name = QStringLiteral("style");
if (value != QStringLiteral("normal") &&
value != QStringLiteral("italic") &&
value != QStringLiteral("oblique")
if (value != QLatin1String("normal") &&
value != QLatin1String("italic") &&
value != QLatin1String("oblique")
) {
value = QString();
qAtspiDebug() << "Unknown font-style attribute value \"" << value << "\" cannot be translated to AT-SPI.";
}
} else if (ia2Name == QStringLiteral("text-underline-type")) {
} else if (ia2Name == QLatin1String("text-underline-type")) {
name = QStringLiteral("underline");
if (value != QStringLiteral("none") &&
value != QStringLiteral("single") &&
value != QStringLiteral("double")
if (value != QLatin1String("none") &&
value != QLatin1String("single") &&
value != QLatin1String("double")
) {
value = QString();
qAtspiDebug() << "Unknown text-underline-type attribute value \"" << value << "\" cannot be translated to AT-SPI.";
}
} else if (ia2Name == QStringLiteral("font-weight")) {
} else if (ia2Name == QLatin1String("font-weight")) {
name = QStringLiteral("weight");
if (value == QStringLiteral("normal"))
if (value == QLatin1String("normal"))
// Orca seems to accept all IAccessible2 values except for "normal"
// (on which it produces traceback and fails to read any following text attributes),
// but that is the default value, so omit it anyway
value = QString();
} else if (ia2Name == QStringLiteral("text-position")) {
} else if (ia2Name == QLatin1String("text-position")) {
name = QStringLiteral("vertical-align");
if (value != QStringLiteral("baseline") &&
value != QStringLiteral("super") &&
value != QStringLiteral("sub")
if (value != QLatin1String("baseline") &&
value != QLatin1String("super") &&
value != QLatin1String("sub")
) {
value = QString();
qAtspiDebug() << "Unknown text-position attribute value \"" << value << "\" cannot be translated to AT-SPI.";
}
} else if (ia2Name == QStringLiteral("writing-mode")) {
} else if (ia2Name == QLatin1String("writing-mode")) {
name = QStringLiteral("direction");
if (value == QStringLiteral("lr"))
if (value == QLatin1String("lr"))
value = QStringLiteral("ltr");
else if (value == QStringLiteral("rl"))
else if (value == QLatin1String("rl"))
value = QStringLiteral("rtl");
else if (value == QStringLiteral("tb")) {
else if (value == QLatin1String("tb")) {
// IAccessible2 docs refer to XSL, which specifies "tb" is shorthand for "tb-rl"; so at least give a hint about the horizontal direction (ATK does not support vertical direction in this attribute (yet))
value = QStringLiteral("rtl");
qAtspiDebug() << "writing-mode attribute value \"tb\" translated only w.r.t. horizontal direction; vertical direction ignored";
@ -2033,9 +2033,9 @@ namespace
value = QString();
qAtspiDebug() << "Unknown writing-mode attribute value \"" << value << "\" cannot be translated to AT-SPI.";
}
} else if (ia2Name == QStringLiteral("language")) {
} else if (ia2Name == QLatin1String("language")) {
// OK - ATK has no docs on the format of the value, IAccessible2 has reasonable format - leave it at that now
} else if (ia2Name == QStringLiteral("invalid")) {
} else if (ia2Name == QLatin1String("invalid")) {
// OK - ATK docs are vague but suggest they support the same range of values as IAccessible2
} else {
// attribute we know nothing about

View File

@ -1030,17 +1030,17 @@ QNetworkConfiguration::BearerType QNetworkManagerEngine::currentBearerType(const
QString bearer = i.value()->bearer();
if (bearer == QStringLiteral("gsm")) {
if (bearer == QLatin1String("gsm")) {
return QNetworkConfiguration::Bearer2G;
} else if (bearer == QStringLiteral("edge")) {
} else if (bearer == QLatin1String("edge")) {
return QNetworkConfiguration::Bearer2G;
} else if (bearer == QStringLiteral("umts")) {
} else if (bearer == QLatin1String("umts")) {
return QNetworkConfiguration::BearerWCDMA;
} else if (bearer == QStringLiteral("hspa")
|| bearer == QStringLiteral("hsdpa")
|| bearer == QStringLiteral("hsupa")) {
} else if (bearer == QLatin1String("hspa")
|| bearer == QLatin1String("hsdpa")
|| bearer == QLatin1String("hsupa")) {
return QNetworkConfiguration::BearerHSPA;
} else if (bearer == QStringLiteral("lte")) {
} else if (bearer == QLatin1String("lte")) {
return QNetworkConfiguration::BearerLTE;
}
}

View File

@ -214,7 +214,7 @@ void QNetworkManagerInterface::propertiesSwap(QMap<QString,QVariant> map)
i.next();
propertyMap.insert(i.key(),i.value());
if (i.key() == QStringLiteral("State")) {
if (i.key() == QLatin1String("State")) {
quint32 state = i.value().toUInt();
if (state == NM_DEVICE_STATE_ACTIVATED
|| state == NM_DEVICE_STATE_DISCONNECTED
@ -223,7 +223,7 @@ void QNetworkManagerInterface::propertiesSwap(QMap<QString,QVariant> map)
Q_EMIT propertiesChanged(map);
Q_EMIT stateChanged(state);
}
} else if (i.key() == QStringLiteral("ActiveConnections")) {
} else if (i.key() == QLatin1String("ActiveConnections")) {
Q_EMIT propertiesChanged(map);
}
}
@ -418,7 +418,7 @@ void QNetworkManagerInterfaceDevice::propertiesSwap(QMap<QString,QVariant> map)
QMapIterator<QString, QVariant> i(map);
while (i.hasNext()) {
i.next();
if (i.key() == QStringLiteral("AvailableConnections")) { //Device
if (i.key() == QLatin1String("AvailableConnections")) { //Device
const QDBusArgument &dbusArgs = i.value().value<QDBusArgument>();
QDBusObjectPath path;
QStringList paths;
@ -514,9 +514,8 @@ void QNetworkManagerInterfaceDeviceWired::propertiesSwap(QMap<QString,QVariant>
while (i.hasNext()) {
i.next();
propertyMap.insert(i.key(),i.value());
if (i.key() == QStringLiteral("Carrier")) {
if (i.key() == QLatin1String("Carrier"))
Q_EMIT carrierChanged(i.value().toBool());
}
}
Q_EMIT propertiesChanged(map);
}
@ -693,9 +692,8 @@ void QNetworkManagerInterfaceDeviceWireless::propertiesSwap(QMap<QString,QVarian
while (i.hasNext()) {
i.next();
propertyMap.insert(i.key(),i.value());
if (i.key() == QStringLiteral("ActiveAccessPoint")) { //DeviceWireless
if (i.key() == QLatin1String("ActiveAccessPoint")) //DeviceWireless
Q_EMIT propertiesChanged(map);
}
}
}
@ -1051,7 +1049,7 @@ void QNetworkManagerConnectionActive::propertiesSwap(QMap<QString,QVariant> map)
while (i.hasNext()) {
i.next();
propertyMap.insert(i.key(),i.value());
if (i.key() == QStringLiteral("State")) {
if (i.key() == QLatin1String("State")) {
quint32 state = i.value().toUInt();
if (state == NM_ACTIVE_CONNECTION_STATE_ACTIVATED
|| state == NM_ACTIVE_CONNECTION_STATE_DEACTIVATED) {

View File

@ -273,7 +273,7 @@ QString TableGenerator::findComposeFile()
// check if users home directory has a file named .XCompose
if (cleanState()) {
QString path = qgetenv("HOME") + QStringLiteral("/.XCompose");
if (QFile(path).exists())
if (QFile::exists(path))
return path;
}
@ -286,7 +286,7 @@ QString TableGenerator::findComposeFile()
m_state = UnsupportedLocale;
else {
QString path = QDir(systemComposeDir()).filePath(table);
if (QFile(path).exists())
if (QFile::exists(path))
return path;
}
}
@ -308,7 +308,7 @@ bool TableGenerator::findSystemComposeDir()
bool found = false;
for (int i = 0; i < m_possibleLocations.size(); ++i) {
QString path = m_possibleLocations.at(i);
if (QFile(path + QLatin1String("/compose.dir")).exists()) {
if (QFile::exists(path + QLatin1String("/compose.dir"))) {
m_systemComposeDir = path;
found = true;
break;

View File

@ -356,6 +356,15 @@ namespace QtAndroid
return surfaceId;
}
void setViewVisibility(jobject view, bool visible)
{
QJNIObjectPrivate::callStaticMethod<void>(m_applicationClass,
"setViewVisibility",
"(Landroid/view/View;Z)V",
view,
visible);
}
void setSurfaceGeometry(int surfaceId, const QRect &geometry)
{
if (surfaceId == -1)

View File

@ -62,6 +62,7 @@ namespace QtAndroid
int createSurface(AndroidSurfaceClient * client, const QRect &geometry, bool onTop, int imageDepth);
int insertNativeView(jobject view, const QRect &geometry);
void setViewVisibility(jobject view, bool visible);
void setSurfaceGeometry(int surfaceId, const QRect &geometry);
void destroySurface(int surfaceId);
void bringChildToFront(int surfaceId);

View File

@ -45,10 +45,14 @@ QAndroidPlatformForeignWindow::QAndroidPlatformForeignWindow(QWindow *window)
{
const WId wId = window->property("_q_foreignWinId").value<WId>();
m_view = reinterpret_cast<jobject>(wId);
if (m_view.isValid())
QtAndroid::setViewVisibility(m_view.object(), false);
}
QAndroidPlatformForeignWindow::~QAndroidPlatformForeignWindow()
{
if (m_view.isValid())
QtAndroid::setViewVisibility(m_view.object(), false);
if (m_surfaceId != -1)
QtAndroid::destroySurface(m_surfaceId);
}
@ -84,8 +88,9 @@ void QAndroidPlatformForeignWindow::setVisible(bool visible)
if (!m_view.isValid())
return;
QAndroidPlatformWindow::setVisible(visible);
QtAndroid::setViewVisibility(m_view.object(), visible);
QAndroidPlatformWindow::setVisible(visible);
if (!visible && m_surfaceId != -1) {
QtAndroid::destroySurface(m_surfaceId);
m_surfaceId = -1;

View File

@ -120,7 +120,9 @@ Qt::DropAction QCocoaDrag::drag(QDrag *o)
QPoint hotSpot = m_drag->hotSpot();
QPixmap pm = dragPixmap(m_drag, hotSpot);
QSize pmDeviceIndependentSize = pm.size() / pm.devicePixelRatio();
NSImage *nsimage = qt_mac_create_nsimage(pm);
[nsimage setSize : qt_mac_toNSSize(pmDeviceIndependentSize)];
QMacPasteboard dragBoard((CFStringRef) NSDragPboard, QMacInternalPasteboardMime::MIME_DND);
m_drag->mimeData()->setData(QLatin1String("application/x-qt-mime-type-name"), QByteArray("dummy"));
@ -130,7 +132,7 @@ Qt::DropAction QCocoaDrag::drag(QDrag *o)
NSWindow *theWindow = [m_lastEvent window];
Q_ASSERT(theWindow != nil);
event_location.x -= hotSpot.x();
CGFloat flippedY = pm.height() - hotSpot.y();
CGFloat flippedY = pmDeviceIndependentSize.height() - hotSpot.y();
event_location.y -= flippedY;
NSSize mouseOffset_unused = NSMakeSize(0.0, 0.0);
NSPasteboard *pboard = [NSPasteboard pasteboardWithName:NSDragPboard];

View File

@ -80,9 +80,6 @@ HIMutableShapeRef qt_mac_QRegionToHIMutableShape(const QRegion &region);
OSStatus qt_mac_drawCGImage(CGContextRef inContext, const CGRect *inBounds, CGImageRef inImage);
QChar qt_mac_qtKey2CocoaKey(Qt::Key key);
Qt::Key qt_mac_cocoaKey2QtKey(QChar keyCode);
NSDragOperation qt_mac_mapDropAction(Qt::DropAction action);
NSDragOperation qt_mac_mapDropActions(Qt::DropActions actions);
Qt::DropAction qt_mac_mapNSDragOperation(NSDragOperation nsActions);

View File

@ -236,143 +236,6 @@ QColor qt_mac_toQColor(CGColorRef color)
return qtColor;
}
// Use this method to keep all the information in the TextSegment. As long as it is ordered
// we are in OK shape, and we can influence that ourselves.
struct KeyPair
{
QChar cocoaKey;
Qt::Key qtKey;
};
bool operator==(const KeyPair &entry, QChar qchar)
{
return entry.cocoaKey == qchar;
}
bool operator<(const KeyPair &entry, QChar qchar)
{
return entry.cocoaKey < qchar;
}
bool operator<(QChar qchar, const KeyPair &entry)
{
return qchar < entry.cocoaKey;
}
bool operator<(const Qt::Key &key, const KeyPair &entry)
{
return key < entry.qtKey;
}
bool operator<(const KeyPair &entry, const Qt::Key &key)
{
return entry.qtKey < key;
}
struct qtKey2CocoaKeySortLessThan
{
typedef bool result_type;
Q_DECL_CONSTEXPR result_type operator()(const KeyPair &entry1, const KeyPair &entry2) const Q_DECL_NOTHROW
{
return entry1.qtKey < entry2.qtKey;
}
};
static const int NumEntries = 59;
static const KeyPair entries[NumEntries] = {
{ NSEnterCharacter, Qt::Key_Enter },
{ NSBackspaceCharacter, Qt::Key_Backspace },
{ NSTabCharacter, Qt::Key_Tab },
{ NSNewlineCharacter, Qt::Key_Return },
{ NSCarriageReturnCharacter, Qt::Key_Return },
{ NSBackTabCharacter, Qt::Key_Backtab },
{ kEscapeCharCode, Qt::Key_Escape },
// Cocoa sends us delete when pressing backspace!
// (NB when we reverse this list in qtKey2CocoaKey, there
// will be two indices of Qt::Key_Backspace. But is seems to work
// ok for menu shortcuts (which uses that function):
{ NSDeleteCharacter, Qt::Key_Backspace },
{ NSUpArrowFunctionKey, Qt::Key_Up },
{ NSDownArrowFunctionKey, Qt::Key_Down },
{ NSLeftArrowFunctionKey, Qt::Key_Left },
{ NSRightArrowFunctionKey, Qt::Key_Right },
{ NSF1FunctionKey, Qt::Key_F1 },
{ NSF2FunctionKey, Qt::Key_F2 },
{ NSF3FunctionKey, Qt::Key_F3 },
{ NSF4FunctionKey, Qt::Key_F4 },
{ NSF5FunctionKey, Qt::Key_F5 },
{ NSF6FunctionKey, Qt::Key_F6 },
{ NSF7FunctionKey, Qt::Key_F7 },
{ NSF8FunctionKey, Qt::Key_F8 },
{ NSF9FunctionKey, Qt::Key_F9 },
{ NSF10FunctionKey, Qt::Key_F10 },
{ NSF11FunctionKey, Qt::Key_F11 },
{ NSF12FunctionKey, Qt::Key_F12 },
{ NSF13FunctionKey, Qt::Key_F13 },
{ NSF14FunctionKey, Qt::Key_F14 },
{ NSF15FunctionKey, Qt::Key_F15 },
{ NSF16FunctionKey, Qt::Key_F16 },
{ NSF17FunctionKey, Qt::Key_F17 },
{ NSF18FunctionKey, Qt::Key_F18 },
{ NSF19FunctionKey, Qt::Key_F19 },
{ NSF20FunctionKey, Qt::Key_F20 },
{ NSF21FunctionKey, Qt::Key_F21 },
{ NSF22FunctionKey, Qt::Key_F22 },
{ NSF23FunctionKey, Qt::Key_F23 },
{ NSF24FunctionKey, Qt::Key_F24 },
{ NSF25FunctionKey, Qt::Key_F25 },
{ NSF26FunctionKey, Qt::Key_F26 },
{ NSF27FunctionKey, Qt::Key_F27 },
{ NSF28FunctionKey, Qt::Key_F28 },
{ NSF29FunctionKey, Qt::Key_F29 },
{ NSF30FunctionKey, Qt::Key_F30 },
{ NSF31FunctionKey, Qt::Key_F31 },
{ NSF32FunctionKey, Qt::Key_F32 },
{ NSF33FunctionKey, Qt::Key_F33 },
{ NSF34FunctionKey, Qt::Key_F34 },
{ NSF35FunctionKey, Qt::Key_F35 },
{ NSInsertFunctionKey, Qt::Key_Insert },
{ NSDeleteFunctionKey, Qt::Key_Delete },
{ NSHomeFunctionKey, Qt::Key_Home },
{ NSEndFunctionKey, Qt::Key_End },
{ NSPageUpFunctionKey, Qt::Key_PageUp },
{ NSPageDownFunctionKey, Qt::Key_PageDown },
{ NSPrintScreenFunctionKey, Qt::Key_Print },
{ NSScrollLockFunctionKey, Qt::Key_ScrollLock },
{ NSPauseFunctionKey, Qt::Key_Pause },
{ NSSysReqFunctionKey, Qt::Key_SysReq },
{ NSMenuFunctionKey, Qt::Key_Menu },
{ NSHelpFunctionKey, Qt::Key_Help },
};
static const KeyPair * const end = entries + NumEntries;
QChar qt_mac_qtKey2CocoaKey(Qt::Key key)
{
// The first time this function is called, create a reverse
// lookup table sorted on Qt Key rather than Cocoa key:
static QVector<KeyPair> rev_entries(NumEntries);
static bool mustInit = true;
if (mustInit){
mustInit = false;
for (int i=0; i<NumEntries; ++i)
rev_entries[i] = entries[i];
std::sort(rev_entries.begin(), rev_entries.end(), qtKey2CocoaKeySortLessThan());
}
const QVector<KeyPair>::iterator i
= std::lower_bound(rev_entries.begin(), rev_entries.end(), key);
if ((i == rev_entries.end()) || (key < *i))
return QChar();
return i->cocoaKey;
}
Qt::Key qt_mac_cocoaKey2QtKey(QChar keyCode)
{
const KeyPair *i = std::lower_bound(entries, end, keyCode);
if ((i == end) || (keyCode < *i))
return Qt::Key(keyCode.toUpper().unicode());
return i->qtKey;
}
struct dndenum_mapper
{
NSDragOperation mac_code;

View File

@ -86,9 +86,9 @@ QMimeData *QHaikuClipboard::mimeData(QClipboard::Mode mode)
const status_t status = clipboard->FindData(name, B_MIME_TYPE, &data, &dataLen);
if (dataLen && (status == B_OK)) {
const QString format = QString::fromLatin1(name);
if (format == QStringLiteral("text/plain")) {
if (format == QLatin1String("text/plain")) {
m_systemMimeData->setText(QString::fromLocal8Bit(reinterpret_cast<const char*>(data), dataLen));
} else if (format == QStringLiteral("text/html")) {
} else if (format == QLatin1String("text/html")) {
m_systemMimeData->setHtml(QString::fromLocal8Bit(reinterpret_cast<const char*>(data), dataLen));
} else {
m_systemMimeData->setData(format, QByteArray(reinterpret_cast<const char*>(data), dataLen));

View File

@ -282,30 +282,33 @@ void QWindowsOleDropSource::createCursors()
const bool hasPixmap = !pixmap.isNull();
// Find screen for drag. Could be obtained from QDrag::source(), but that might be a QWidget.
qreal scaleFactor = 1;
QPlatformCursor *platformCursor = Q_NULLPTR;
if (const QPlatformScreen *platformScreen = QWindowsContext::instance()->screenManager().screenAtDp(QWindowsCursor::mousePosition())) {
scaleFactor = QHighDpiScaling::factor(platformScreen);
platformCursor = platformScreen->cursor();
const QPlatformScreen *platformScreen = QWindowsContext::instance()->screenManager().screenAtDp(QWindowsCursor::mousePosition());
if (!platformScreen) {
if (const QScreen *primaryScreen = QGuiApplication::primaryScreen())
platformScreen = primaryScreen->handle();
}
if (!platformCursor && QGuiApplication::primaryScreen())
platformCursor = QGuiApplication::primaryScreen()->handle()->cursor();
Q_ASSERT(platformScreen);
QPlatformCursor *platformCursor = platformScreen->cursor();
qreal pixmapScaleFactor = 1;
qreal hotSpotScaleFactor = 1;
if (m_mode != TouchDrag) { // Touch drag: pixmap is shown in a separate QWindow, which will be scaled.)
hotSpotScaleFactor = QHighDpiScaling::factor(platformScreen);
pixmapScaleFactor = hotSpotScaleFactor / pixmap.devicePixelRatio();
}
QPixmap scaledPixmap = qFuzzyCompare(pixmapScaleFactor, 1.0)
? pixmap
: pixmap.scaled((QSizeF(pixmap.size()) * pixmapScaleFactor).toSize(),
Qt::KeepAspectRatio, Qt::SmoothTransformation);
scaledPixmap.setDevicePixelRatio(1);
const bool scalePixmap = hasPixmap
&& m_mode != TouchDrag // Touch drag: pixmap is shown in a separate QWindow, which will be scaled.
&& (scaleFactor != 1 && scaleFactor != qRound(pixmap.devicePixelRatio()));
const QPixmap scaledPixmap = scalePixmap
? pixmap.scaled((QSizeF(pixmap.size()) * scaleFactor).toSize(),
Qt::KeepAspectRatio, Qt::SmoothTransformation)
: pixmap;
Qt::DropAction actions[] = { Qt::MoveAction, Qt::CopyAction, Qt::LinkAction, Qt::IgnoreAction };
int actionCount = int(sizeof(actions) / sizeof(actions[0]));
if (!hasPixmap)
--actionCount; // No Qt::IgnoreAction unless pixmap
const QPoint hotSpot = scalePixmap
? (QPointF(drag->hotSpot()) * scaleFactor).toPoint()
: drag->hotSpot();
const QPoint hotSpot = qFuzzyCompare(hotSpotScaleFactor, 1.0)
? drag->hotSpot()
: (QPointF(drag->hotSpot()) * hotSpotScaleFactor).toPoint();
for (int cnum = 0; cnum < actionCount; ++cnum) {
const Qt::DropAction action = actions[cnum];
QPixmap cursorPixmap = drag->dragCursor(action);
@ -458,7 +461,7 @@ QWindowsOleDropSource::GiveFeedback(DWORD dwEffect)
if (!m_touchDragWindow)
m_touchDragWindow = new QWindowsDragCursorWindow;
m_touchDragWindow->setPixmap(e.pixmap);
m_touchDragWindow->setFramePosition(QWindowsCursor::mousePosition() - e.hotSpot);
m_touchDragWindow->setFramePosition(QCursor::pos() - e.hotSpot);
if (!m_touchDragWindow->isVisible())
m_touchDragWindow->show();
break;

View File

@ -1613,7 +1613,7 @@ LOGFONT QWindowsFontDatabase::fontDefToLOGFONT(const QFontDef &request)
if (fam.isEmpty())
fam = QStringLiteral("MS Sans Serif");
if ((fam == QStringLiteral("MS Sans Serif"))
if (fam == QLatin1String("MS Sans Serif")
&& (request.style == QFont::StyleItalic || (-lf.lfHeight > 18 && -lf.lfHeight != 24))) {
fam = QStringLiteral("Arial"); // MS Sans Serif has bearing problems in italic, and does not scale
}

View File

@ -231,17 +231,10 @@ int QWindowsFontEngine::getGlyphIndexes(const QChar *str, int numChars, QGlyphLa
}
} else {
#endif
wchar_t first = tm.tmFirstChar;
wchar_t last = tm.tmLastChar;
QStringIterator it(str, str + numChars);
while (it.hasNext()) {
const uint uc = it.next();
if (
#ifdef Q_DEAD_CODE_FROM_QT4_WINCE
tm.tmFirstChar > 60000 ||
#endif
uc >= first && uc <= last)
if (uc >= tm.tmFirstChar && uc <= tm.tmLastChar)
glyphs->glyphs[glyph_pos] = uc;
else
glyphs->glyphs[glyph_pos] = 0;
@ -351,11 +344,9 @@ glyph_t QWindowsFontEngine::glyphIndex(uint ucs4) const
glyph = getTrueTypeGlyphIndex(cmap, cmapSize, ucs4 + 0xf000);
} else if (ttf) {
glyph = getTrueTypeGlyphIndex(cmap, cmapSize, ucs4);
#else
if (tm.tmFirstChar > 60000) {
glyph = ucs4;
} else
#endif
} else if (ucs4 >= tm.tmFirstChar && ucs4 <= tm.tmLastChar) {
if (ucs4 >= tm.tmFirstChar && ucs4 <= tm.tmLastChar) {
glyph = ucs4;
} else {
glyph = 0;

View File

@ -1145,7 +1145,7 @@ QVariant QWindowsMimeImage::convertToMime(const QString &mimeType, IDataObject *
{
Q_UNUSED(preferredType);
QVariant result;
if (mimeType != QStringLiteral("application/x-qt-image"))
if (mimeType != QLatin1String("application/x-qt-image"))
return result;
//Try to convert from a format which has more data
//DIBV5, use only if its is not synthesized

View File

@ -224,6 +224,30 @@ static inline QRect frameGeometry(HWND hwnd, bool topLevel)
return qrectFromRECT(rect);
}
// Return the visibility of the Window (except full screen since it is not a window state).
static QWindow::Visibility windowVisibility_sys(HWND hwnd)
{
if (!IsWindowVisible(hwnd))
return QWindow::Hidden;
#ifndef Q_OS_WINCE
WINDOWPLACEMENT windowPlacement;
windowPlacement.length = sizeof(WINDOWPLACEMENT);
if (GetWindowPlacement(hwnd, &windowPlacement)) {
switch (windowPlacement.showCmd) {
case SW_SHOWMINIMIZED:
case SW_MINIMIZE:
case SW_FORCEMINIMIZE:
return QWindow::Minimized;
case SW_SHOWMAXIMIZED:
return QWindow::Maximized;
default:
break;
}
}
#endif // !Q_OS_WINCE
return QWindow::Windowed;
}
static inline QSize clientSize(HWND hwnd)
{
RECT rect = { 0, 0, 0, 0 };
@ -1764,6 +1788,10 @@ void QWindowsWindow::setWindowState_sys(Qt::WindowState newState)
swpf |= SWP_NOSIZE | SWP_NOMOVE;
const bool wasSync = testFlag(SynchronousGeometryChangeEvent);
setFlag(SynchronousGeometryChangeEvent);
// After maximized/fullscreen; the window can be in a maximized state. Clear
// it before applying the normal geometry.
if (windowVisibility_sys(m_data.hwnd) == QWindow::Maximized)
ShowWindow(m_data.hwnd, SW_SHOWNOACTIVATE);
SetWindowPos(m_data.hwnd, 0, m_savedFrameGeometry.x(), m_savedFrameGeometry.y(),
m_savedFrameGeometry.width(), m_savedFrameGeometry.height(), swpf);
if (!wasSync)

View File

@ -1169,7 +1169,7 @@ HRESULT QWinRTScreen::onVisibilityChanged(ICoreWindow *, IVisibilityChangedEvent
Q_D(QWinRTScreen);
boolean visible;
HRESULT hr = args ? args->get_Visible(&visible) : d->coreWindow->get_Visible(&visible);
RETURN_OK_IF_FAILED("Failed to get visbile.");
RETURN_OK_IF_FAILED("Failed to get visibility.");
QWindowSystemInterface::handleApplicationStateChanged(visible ? Qt::ApplicationActive : Qt::ApplicationHidden);
if (visible)
handleExpose();

View File

@ -639,7 +639,7 @@ QXcbConnection::QXcbConnection(QXcbNativeInterface *nativeInterface, bool canGra
QString glIntegrationName = QString::fromLocal8Bit(qgetenv("QT_XCB_GL_INTEGRATION"));
if (!glIntegrationName.isEmpty()) {
qCDebug(QT_XCB_GLINTEGRATION) << "QT_XCB_GL_INTEGRATION is set to" << glIntegrationName;
if (glIntegrationName != QStringLiteral("none")) {
if (glIntegrationName != QLatin1String("none")) {
glIntegrationNames.removeAll(glIntegrationName);
glIntegrationNames.prepend(glIntegrationName);
} else {

View File

@ -2251,12 +2251,13 @@ void QXcbWindow::handleMouseEvent(xcb_timestamp_t time, const QPoint &local, con
static bool ignoreLeaveEvent(const xcb_leave_notify_event_t *event)
{
return event->detail == XCB_NOTIFY_DETAIL_VIRTUAL
|| event->detail == XCB_NOTIFY_DETAIL_NONLINEAR_VIRTUAL;
|| event->detail == XCB_NOTIFY_DETAIL_NONLINEAR_VIRTUAL
|| event->mode == XCB_NOTIFY_MODE_GRAB;
}
static bool ignoreEnterEvent(const xcb_enter_notify_event_t *event)
{
return ((event->mode != XCB_NOTIFY_MODE_NORMAL && event->mode != XCB_NOTIFY_MODE_UNGRAB)
return (event->mode != XCB_NOTIFY_MODE_NORMAL
|| event->detail == XCB_NOTIFY_DETAIL_VIRTUAL
|| event->detail == XCB_NOTIFY_DETAIL_NONLINEAR_VIRTUAL);
}

View File

@ -49,7 +49,7 @@ public:
QPlatformPrinterSupport *QCocoaPrinterSupportPlugin::create(const QString &key)
{
if (key.compare(key, QStringLiteral("cocoaprintersupport"), Qt::CaseInsensitive) != 0)
if (key.compare(key, QLatin1String("cocoaprintersupport"), Qt::CaseInsensitive) != 0)
return 0;
QGuiApplication *app = qobject_cast<QGuiApplication *>(QCoreApplication::instance());
if (!app)

View File

@ -69,11 +69,7 @@ namespace QTest
QEvent::Type type;
type = press ? QEvent::KeyPress : QEvent::KeyRelease;
qt_handleKeyEvent(window, type, code, modifier, text, repeat, delay);
#ifdef QT_MAC_USE_COCOA
QTest::qWait(20);
#else
qApp->processEvents();
#endif
}
static void sendKeyEvent(KeyAction action, QWindow *window, Qt::Key code,

View File

@ -67,7 +67,7 @@ static const char docTypeHeader[] =
#define PROGRAMNAME "qdbuscpp2xml"
#define PROGRAMVERSION "0.2"
#define PROGRAMCOPYRIGHT "Copyright (C) 2015 The Qt Company Ltd."
#define PROGRAMCOPYRIGHT "Copyright (C) 2016 The Qt Company Ltd."
static QString outputFile;
static int flags;

View File

@ -48,7 +48,7 @@
#define PROGRAMNAME "qdbusxml2cpp"
#define PROGRAMVERSION "0.8"
#define PROGRAMCOPYRIGHT "Copyright (C) 2015 The Qt Company Ltd."
#define PROGRAMCOPYRIGHT "Copyright (C) 2016 The Qt Company Ltd."
#define ANNOTATION_NO_WAIT "org.freedesktop.DBus.Method.NoReply"

View File

@ -47,7 +47,7 @@ QString CppGenerator::copyrightHeader() const
return QLatin1String(
"/****************************************************************************\n"
"**\n"
"** Copyright (C) 2015 The Qt Company Ltd.\n"
"** Copyright (C) 2016 The Qt Company Ltd.\n"
"** Contact: http://www.qt.io/licensing/\n"
"**\n"
"** This file is part of the Qt Toolkit.\n"

View File

@ -122,13 +122,13 @@ void Uic::writeCopyrightHeader(DomUI *ui)
if (comment.size())
out << "/*\n" << comment << "\n*/\n\n";
out << "/********************************************************************************\n";
out << "** Form generated from reading UI file '" << QFileInfo(opt.inputFile).fileName() << "'\n";
out << "**\n";
out << "** Created by: Qt User Interface Compiler version " << QLatin1String(QT_VERSION_STR) << "\n";
out << "**\n";
out << "** WARNING! All changes made in this file will be lost when recompiling UI file!\n";
out << "********************************************************************************/\n\n";
out << "/********************************************************************************\n";
out << "** Form generated from reading UI file '" << QFileInfo(opt.inputFile).fileName() << "'\n";
out << "**\n";
out << "** Created by: Qt User Interface Compiler version " << QLatin1String(QT_VERSION_STR) << "\n";
out << "**\n";
out << "** WARNING! All changes made in this file will be lost when recompiling UI file!\n";
out << "********************************************************************************/\n\n";
}
// Check the version with a stream reader at the <ui> element.

View File

@ -3400,27 +3400,27 @@ void QFileDialogPrivate::_q_deleteCurrent()
if (!index.isValid())
continue;
QString fileName = index.data(QFileSystemModel::FileNameRole).toString();
QString filePath = index.data(QFileSystemModel::FilePathRole).toString();
bool isDir = model->isDir(index);
QString fileName = index.data(QFileSystemModel::FileNameRole).toString();
QString filePath = index.data(QFileSystemModel::FilePathRole).toString();
bool isDir = model->isDir(index);
QFile::Permissions p(index.parent().data(QFileSystemModel::FilePermissions).toInt());
QFile::Permissions p(index.parent().data(QFileSystemModel::FilePermissions).toInt());
#ifndef QT_NO_MESSAGEBOX
Q_Q(QFileDialog);
if (!(p & QFile::WriteUser) && (QMessageBox::warning(q_func(), QFileDialog::tr("Delete"),
QFileDialog::tr("'%1' is write protected.\nDo you want to delete it anyway?")
.arg(fileName),
QMessageBox::Yes | QMessageBox::No, QMessageBox::No) == QMessageBox::No))
return;
else if (QMessageBox::warning(q_func(), QFileDialog::tr("Delete"),
QFileDialog::tr("Are you sure you want to delete '%1'?")
.arg(fileName),
QMessageBox::Yes | QMessageBox::No, QMessageBox::No) == QMessageBox::No)
return;
Q_Q(QFileDialog);
if (!(p & QFile::WriteUser) && (QMessageBox::warning(q_func(), QFileDialog::tr("Delete"),
QFileDialog::tr("'%1' is write protected.\nDo you want to delete it anyway?")
.arg(fileName),
QMessageBox::Yes | QMessageBox::No, QMessageBox::No) == QMessageBox::No))
return;
else if (QMessageBox::warning(q_func(), QFileDialog::tr("Delete"),
QFileDialog::tr("Are you sure you want to delete '%1'?")
.arg(fileName),
QMessageBox::Yes | QMessageBox::No, QMessageBox::No) == QMessageBox::No)
return;
#else
if (!(p & QFile::WriteUser))
return;
if (!(p & QFile::WriteUser))
return;
#endif // QT_NO_MESSAGEBOX
// the event loop has run, we can NOT reuse index because the model might have removed it.

View File

@ -1903,7 +1903,7 @@ void QMessageBox::aboutQt(QWidget *parent, const QString &title)
"<p>Qt and the Qt logo are trademarks of The Qt Company Ltd.</p>"
"<p>Qt is The Qt Company Ltd product developed as an open source "
"project. See <a href=\"http://%3/\">%3</a> for more information.</p>"
).arg(QStringLiteral("2015"),
).arg(QStringLiteral("2016"),
QStringLiteral("qt.io/licensing"),
QStringLiteral("qt.io"));
QMessageBox *msgBox = new QMessageBox(parent);

View File

@ -39,8 +39,6 @@
#include <Carbon/Carbon.h>
#ifdef QT_MAC_USE_COCOA
//![0]
SearchWidget::SearchWidget(QWidget *parent)
: QMacCocoaViewContainer(0, parent)
@ -76,57 +74,6 @@ QSize SearchWidget::sizeHint() const
return QSize(150, 40);
}
#else
// The SearchWidget class wraps a native HISearchField.
SearchWidget::SearchWidget(QWidget *parent)
:QWidget(parent)
{
// Create a native search field and pass its window id to QWidget::create.
searchFieldText = CFStringCreateWithCString(0, "search", 0);
HISearchFieldCreate(NULL/*bounds*/, kHISearchFieldAttributesSearchIcon | kHISearchFieldAttributesCancel,
NULL/*menu ref*/, searchFieldText, &searchField);
create(reinterpret_cast<WId>(searchField));
// Use a Qt menu for the search field menu.
QMenu *searchMenu = createMenu(this);
MenuRef menuRef = searchMenu->macMenu(0);
HISearchFieldSetSearchMenu(searchField, menuRef);
setSizePolicy(QSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed));
}
SearchWidget::~SearchWidget()
{
CFRelease(searchField);
CFRelease(searchFieldText);
}
// Get the size hint from the search field.
QSize SearchWidget::sizeHint() const
{
EventRef event;
HIRect optimalBounds;
CreateEvent(0, kEventClassControl,
kEventControlGetOptimalBounds,
GetCurrentEventTime(),
kEventAttributeUserEvent, &event);
SendEventToEventTargetWithOptions(event,
HIObjectGetEventTarget(HIObjectRef(winId())),
kEventTargetDontPropagate);
GetEventParameter(event,
kEventParamControlOptimalBounds, typeHIRect,
0, sizeof(HIRect), 0, &optimalBounds);
ReleaseEvent(event);
return QSize(optimalBounds.size.width + 100, // make it a bit wider.
optimalBounds.size.height);
}
#endif
QMenu *createMenu(QWidget *parent)
{
QMenu *searchMenu = new QMenu(parent);

View File

@ -1173,8 +1173,8 @@ void QGraphicsViewPrivate::updateInputMethodSensitivity()
if (!proxy) {
q->setInputMethodHints(focusItem->inputMethodHints());
} else if (QWidget *widget = proxy->widget()) {
if (QWidget *fw = widget->focusWidget())
widget = fw;
if (QWidget *fw = widget->focusWidget())
widget = fw;
q->setInputMethodHints(widget->inputMethodHints());
} else {
q->setInputMethodHints(0);

View File

@ -39,10 +39,10 @@
#include "qapplication.h"
#include "qevent.h"
#include "qlist.h"
#include "qdebug.h"
#include <private/qshortcutmap_p.h>
#include <private/qapplication_p.h>
#include <private/qmenu_p.h>
#include <private/qdebug_p.h>
#define QAPP_CHECK(functionName) \
if (!qApp) { \
@ -1296,6 +1296,31 @@ bool QAction::isIconVisibleInMenu() const
return d->iconVisibleInMenu;
}
#ifndef QT_NO_DEBUG_STREAM
Q_WIDGETS_EXPORT QDebug operator<<(QDebug d, const QAction *action)
{
QDebugStateSaver saver(d);
d.nospace();
d << "QAction(" << static_cast<const void *>(action);
if (action) {
d << " text=" << action->text();
if (!action->toolTip().isEmpty())
d << " toolTip=" << action->toolTip();
if (action->isCheckable())
d << " checked=" << action->isChecked();
if (!action->shortcut().isEmpty())
d << " shortcut=" << action->shortcut();
d << " menuRole=";
QtDebugUtils::formatQEnum(d, action->menuRole());
d << " visible=" << action->isVisible();
} else {
d << '0';
}
d << ')';
return d;
}
#endif // QT_NO_DEBUG_STREAM
QT_END_NAMESPACE
#include "moc_qaction.cpp"

View File

@ -203,6 +203,10 @@ private:
#endif
};
#ifndef QT_NO_DEBUG_STREAM
Q_WIDGETS_EXPORT QDebug operator<<(QDebug, const QAction *);
#endif
QT_BEGIN_INCLUDE_NAMESPACE
#include <QtWidgets/qactiongroup.h>
QT_END_INCLUDE_NAMESPACE

View File

@ -238,11 +238,6 @@
\property QDesktopWidget::screenCount
\brief the number of screens currently available on the system.
Note that on some platforms, screenCount will be zero if there are actually
no screens connected. Applications which were running at the time the
screenCount went to zero will stop rendering graphics until one or more
screens are restored.
\since 4.6
*/

View File

@ -329,7 +329,7 @@ static bool correctActionContext(Qt::ShortcutContext context, QAction *a, QWidge
shown and the character will be underlined. On Windows, shortcuts
are normally not displayed until the user presses the \uicontrol Alt
key, but this is a setting the user can change. On Mac, shortcuts
are disabled by default. Call qt_set_sequence_auto_mnemonic() to
are disabled by default. Call \l qt_set_sequence_auto_mnemonic() to
enable them. However, because mnemonic shortcuts do not fit in
with Aqua's guidelines, Qt will not show the shortcut character
underlined.

View File

@ -84,6 +84,11 @@ public:
if (usesNativeWidgets || window->parent() == 0)
return;
Q_Q(QWindowContainer);
if (q->internalWinId()) {
// Allow use native widgets if the window container is already a native widget
usesNativeWidgets = true;
return;
}
QWidget *p = q->parentWidget();
while (p) {
if (
@ -147,8 +152,10 @@ public:
as a child of a QAbstractScrollArea or QMdiArea, it will
create a \l {Native Widgets vs Alien Widgets} {native window} for
every widget in its parent chain to allow for proper stacking and
clipping in this use case. Applications with many native child
windows may suffer from performance issues.
clipping in this use case. Creating a native window for the window
container also allows for proper stacking and clipping. This must
be done before showing the window container. Applications with
many native child windows may suffer from performance issues.
The window container has a number of known limitations:

View File

@ -398,7 +398,7 @@ void QWindowsVistaStyle::drawPrimitive(PrimitiveElement element, const QStyleOpt
{
XPThemeData theme(widget, painter, QWindowsXPStylePrivate::TreeViewTheme);
static int decoration_size = 0;
if (d->initTreeViewTheming() && theme.isValid() && !decoration_size) {
if (!decoration_size && d->initTreeViewTheming() && theme.isValid()) {
XPThemeData themeSize = theme;
themeSize.partId = TVP_HOTGLYPH;
themeSize.stateId = GLPS_OPENED;

View File

@ -1311,8 +1311,8 @@ void QComboBoxPrivate::_q_emitCurrentIndexChanged(const QModelIndex &index)
if (!lineEdit)
emit q->currentTextChanged(text);
#ifndef QT_NO_ACCESSIBILITY
QAccessibleValueChangeEvent event(q, text);
QAccessible::updateAccessibility(&event);
QAccessibleValueChangeEvent event(q, text);
QAccessible::updateAccessibility(&event);
#endif
}
@ -2830,8 +2830,8 @@ void QComboBox::clear()
Q_D(QComboBox);
d->model->removeRows(0, d->model->rowCount(d->root), d->root);
#ifndef QT_NO_ACCESSIBILITY
QAccessibleValueChangeEvent event(this, QString());
QAccessible::updateAccessibility(&event);
QAccessibleValueChangeEvent event(this, QString());
QAccessible::updateAccessibility(&event);
#endif
}
@ -2844,8 +2844,8 @@ void QComboBox::clearEditText()
if (d->lineEdit)
d->lineEdit->clear();
#ifndef QT_NO_ACCESSIBILITY
QAccessibleValueChangeEvent event(this, QString());
QAccessible::updateAccessibility(&event);
QAccessibleValueChangeEvent event(this, QString());
QAccessible::updateAccessibility(&event);
#endif
}
@ -2858,8 +2858,8 @@ void QComboBox::setEditText(const QString &text)
if (d->lineEdit)
d->lineEdit->setText(text);
#ifndef QT_NO_ACCESSIBILITY
QAccessibleValueChangeEvent event(this, text);
QAccessible::updateAccessibility(&event);
QAccessibleValueChangeEvent event(this, text);
QAccessible::updateAccessibility(&event);
#endif
}
@ -3004,8 +3004,8 @@ bool QComboBox::event(QEvent *event)
case QEvent::HoverEnter:
case QEvent::HoverLeave:
case QEvent::HoverMove:
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d->updateHoverControl(he->pos());
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d->updateHoverControl(he->pos());
break;
case QEvent::ShortcutOverride:
if (d->lineEdit)

View File

@ -1944,12 +1944,8 @@ bool QDockAreaLayoutInfo::restoreState(QDataStream &stream, QList<QDockWidget*>
qt_mac_set_drawer_preferred_edge(widget, toDockWidgetArea(dockPos));
} else
#endif
if (!testing) {
QRect r(x, y, w, h);
r = QDockAreaLayout::constrainedRect(r, widget);
widget->move(r.topLeft());
widget->resize(r.size());
}
if (!testing)
widget->setGeometry(QDockAreaLayout::constrainedRect(QRect(x, y, w, h), widget));
if (!testing) {
widget->setVisible(flags & StateFlagVisible);

View File

@ -584,7 +584,9 @@ void QMenuPrivate::setCurrentAction(QAction *action, int popup, SelectionReason
if (reason != SelectedFromKeyboard) {
if (QMenu *menu = qobject_cast<QMenu*>(causedPopup.widget)) {
if (causedPopup.action && menu->d_func()->activeMenu == q)
menu->d_func()->setCurrentAction(causedPopup.action, 0, reason, false);
// Reselect parent menu action only if mouse is over a menu and parent menu action is not already selected (QTBUG-47987)
if (hasReceievedEnter && menu->d_func()->currentAction != causedPopup.action)
menu->d_func()->setCurrentAction(causedPopup.action, 0, reason, false);
}
}

View File

@ -98,15 +98,13 @@ void QMenu::setAsDockMenu()
/*! \fn void qt_mac_set_dock_menu(QMenu *menu)
\since 5.2
\relates QMenu
\deprecated
Set this menu to be the dock menu available by option-clicking
Sets this \a menu to be the dock menu available by option-clicking
on the application dock icon. Available on OS X only.
Deprecated; use QMenu:setAsDockMenu() instead.
\sa QMenu:setAsDockMenu()
Deprecated; use \l QMenu::setAsDockMenu() instead.
*/
void QMenuPrivate::moveWidgetToPlatformItem(QWidget *widget, QPlatformMenuItem* item)

View File

@ -479,8 +479,8 @@ bool QScrollBar::event(QEvent *event)
case QEvent::HoverEnter:
case QEvent::HoverLeave:
case QEvent::HoverMove:
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d_func()->updateHoverControl(he->pos());
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d_func()->updateHoverControl(he->pos());
break;
case QEvent::StyleChange:
d_func()->setTransient(style()->styleHint(QStyle::SH_ScrollBar_Transient, 0, this));

View File

@ -120,7 +120,7 @@ bool QToolButtonPrivate::hasMenu() const
One classic use of a tool button is to select tools; for example,
the "pen" tool in a drawing program. This would be implemented
by using a QToolButton as a toggle button (see setToggleButton()).
by using a QToolButton as a toggle button (see setCheckable()).
QToolButton supports auto-raising. In auto-raise mode, the button
draws a 3D frame only when the mouse points at it. The feature is
@ -147,8 +147,8 @@ bool QToolButtonPrivate::hasMenu() const
menu set. The default mode is DelayedPopupMode which is sometimes
used with the "Back" button in a web browser. After pressing and
holding the button down for a while, a menu pops up showing a list
of possible pages to jump to. The default delay is 600 ms; you can
adjust it with setPopupDelay().
of possible pages to jump to. The timeout is style dependent,
see QStyle::SH_ToolButton_PopupDelay.
\table 100%
\row \li \inlineimage assistant-toolbar.png Qt Assistant's toolbar with tool buttons
@ -820,7 +820,7 @@ void QToolButtonPrivate::_q_menuTriggered(QAction *action)
a menu set or contains a list of actions.
\value DelayedPopup After pressing and holding the tool button
down for a certain amount of time (the timeout is style dependant,
down for a certain amount of time (the timeout is style dependent,
see QStyle::SH_ToolButton_PopupDelay), the menu is displayed. A
typical application example is the "back" button in some web
browsers's tool bars. If the user clicks it, the browser simply
@ -961,8 +961,8 @@ bool QToolButton::event(QEvent *event)
case QEvent::HoverEnter:
case QEvent::HoverLeave:
case QEvent::HoverMove:
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d_func()->updateHoverControl(he->pos());
if (const QHoverEvent *he = static_cast<const QHoverEvent *>(event))
d_func()->updateHoverControl(he->pos());
break;
default:
break;

View File

@ -5,6 +5,7 @@ HEADERS = plugin1.h
SOURCES = plugin1.cpp
TARGET = $$qtLibraryTarget(plugin1)
DESTDIR = ../bin
winrt:include(../winrt.pri)
# This is testdata for the tst_qpluginloader test.
target.path = $$[QT_INSTALL_TESTS]/tst_qfactoryloader/bin

View File

@ -5,6 +5,7 @@ HEADERS = plugin2.h
SOURCES = plugin2.cpp
TARGET = $$qtLibraryTarget(plugin2)
DESTDIR = ../bin
winrt:include(../winrt.pri)
# This is testdata for the tst_qpluginloader test.
target.path = $$[QT_INSTALL_TESTS]/tst_qfactoryloader/bin

Some files were not shown because too many files have changed in this diff Show More