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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. 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. The example consists of the following: \list \o The \c MainWindow class inherits QMainWindow and creates the examples menus and connect their slots and signals. \o The \c TabletCanvas class inherits QWidget and receives tablet events. It uses the events to paint on a QImage, which it draws onto itself. \o The \c TabletApplication class inherits QApplication. This class handles tablet events that are not sent to \c tabletEvent(). We will look at this later. \o The \c main() function creates a \c MainWindow and shows it as a top level window. \endlist \section1 MainWindow Class Definition The \c MainWindow creates a \c TabletCanvas and sets it as its center widget. \snippet examples/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. \section1 MainWindow Class Implementation We start width a look at the constructor \c MainWindow(): \snippet examples/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. Here is the implementation of \c brushColorAct(): \snippet examples/widgets/tablet/mainwindow.cpp 1 We let the user pick a color with a QColorDialog. If it is valid, we set a new drawing color with \c setColor(). Here is the implementation of \c alphaActionTriggered(): \snippet examples/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. Here is the implementation of \c lineWidthActionTriggered(): \snippet examples/widgets/tablet/mainwindow.cpp 3 We check which action is selected in \c lineWidthGroup, and set how the canvas should change the drawing line width. Here is the implementation of \c saturationActionTriggered(): \snippet examples/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(): \snippet examples/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. Here is the implementation of \c loadAct(): \snippet examples/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(). Here is the implementation of \c aboutAct(): \snippet examples/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 examples/widgets/tablet/mainwindow.cpp 8 \dots \snippet examples/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 examples/widgets/tablet/mainwindow.cpp 10 Here is the implementation of \c createMenus(): \snippet examples/widgets/tablet/mainwindow.cpp 11 We create the menus of the example and add the actions to them. \section1 TabletCanvas Class Definition The \c TabletCanvas class provides a surface on which the user can draw with a tablet. \snippet examples/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. We draw on a QImage with \c myPen and \c myBrush using \c myColor. The \c saveImage() and \c loadImage() saves and loads the QImage to disk. The image 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. The interpretation of events from the tablet is done in \c tabletEvent(); \c paintImage(), \c updateBrush(), and \c brushPattern() are helper functions used by \c tabletEvent(). \section1 TabletCanvas Class Implementation We start with a look at the constructor: \snippet examples/widgets/tablet/tabletcanvas.cpp 0 In the constructor we initialize our class variables. We need to draw the background of our image, as the default is gray. Here is the implementation of \c saveImage(): \snippet examples/widgets/tablet/tabletcanvas.cpp 1 QImage implements functionality to save itself to disk, so we simply call \l{QImage::}{save()}. Here is the implementation of \c loadImage(): \snippet examples/widgets/tablet/tabletcanvas.cpp 2 We simply call \l{QImage::}{load()}, which loads the image in \a file. Here is the implementation of \c tabletEvent(): \snippet examples/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 paintImage() helper functions to update \c myBrush and \c myPen after the state of \c alphaChannelType, \c colorSaturationType, and \c lineWidthType. Here is the implementation of \c paintEvent(): \snippet examples/widgets/tablet/tabletcanvas.cpp 4 We simply draw the image to the top left of the widget. Here is the implementation of \c paintImage(): \snippet examples/widgets/tablet/tabletcanvas.cpp 5 In this function we draw on the image based on the movement of the device. If the device used on the tablet is a stylus we want to draw a line between the positions of the stylus recorded in \c polyLine. We also assume that this is a reasonable handling of any unknown device, but update the statusbar with a warning so that the user can see that for his tablet he might have to implement special handling. If it is an airbrush we want to draw a circle of points with a point density based on the tangential pressure, which is the position of the finger wheel on the airbrush. We use the Qt::BrushStyle to draw the points as it has styles that draw points with different density; we select the style based on the tangential pressure in \c brushPattern(). \snippet examples/widgets/tablet/tabletcanvas.cpp 6 We return a brush style with a point density that increases with the tangential pressure. 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: \snippet examples/widgets/tablet/tabletcanvas.cpp 7 We fetch the current drawingcolor's hue, saturation, value, and alpha values. \c hValue and \c vValue are set to the horizontal and vertical tilt as a number from 0 to 255. The original values are in degrees from -60 to 60, i.e., 0 equals -60, 127 equals 0, and 255 equals 60 degrees. The angle measured is between the device and the perpendicular of the tablet (see QTabletEvent for an illustration). \snippet examples/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. \snippet examples/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. \snippet examples/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. \snippet examples/widgets/tablet/tabletcanvas.cpp 11 We finally check wether the pointer is the stylus or the eraser. If it is the eraser, we set the color to the background color of the image an let the pressure decide the pen width, else we set the colors we have set up previously in the function. \section1 TabletApplication Class Definition We inherit QApplication in this class because we want to reimplement the \l{QApplication::}{event()} function. \snippet examples/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. \section1 TabletApplication Class Implementation Here is the implementation of \c event(): \snippet examples/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. \section1 The \c main() function Here is the examples \c main() function: \snippet examples/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. */