Qt Reference Documentation

tabletcanvas.cpp Example File

widgets/tablet/tabletcanvas.cpp
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 #include <QtGui>
 #include <math.h>

 #include "tabletcanvas.h"

 TabletCanvas::TabletCanvas()
 {
     resize(500, 500);
     myBrush = QBrush();
     myPen = QPen();
     initPixmap();
     setAutoFillBackground(true);
     deviceDown = false;
     myColor = Qt::red;
     myTabletDevice = QTabletEvent::Stylus;
     alphaChannelType = NoAlpha;
     colorSaturationType = NoSaturation;
     lineWidthType = LineWidthPressure;
 }

 void TabletCanvas::initPixmap()
 {
     QPixmap newPixmap = QPixmap(width(), height());
     newPixmap.fill(Qt::white);
     QPainter painter(&newPixmap);
     if (!pixmap.isNull())
         painter.drawPixmap(0, 0, pixmap);
     painter.end();
     pixmap = newPixmap;
 }

 bool TabletCanvas::saveImage(const QString &file)
 {
     return pixmap.save(file);
 }

 bool TabletCanvas::loadImage(const QString &file)
 {
     bool success = pixmap.load(file);

     if (success) {
         update();
         return true;
     }
     return false;
 }

 void TabletCanvas::tabletEvent(QTabletEvent *event)
 {

     switch (event->type()) {
         case QEvent::TabletPress:
             if (!deviceDown) {
                 deviceDown = true;
                 polyLine[0] = polyLine[1] = polyLine[2] = event->pos();
             }
             break;
         case QEvent::TabletRelease:
             if (deviceDown)
                 deviceDown = false;
             break;
         case QEvent::TabletMove:
             polyLine[2] = polyLine[1];
             polyLine[1] = polyLine[0];
             polyLine[0] = event->pos();

             if (deviceDown) {
                 updateBrush(event);
                 QPainter painter(&pixmap);
                 paintPixmap(painter, event);
             }
             break;
         default:
             break;
     }
     update();
 }

 void TabletCanvas::paintEvent(QPaintEvent *)
 {
     QPainter painter(this);
     painter.drawPixmap(0, 0, pixmap);
 }

 void TabletCanvas::paintPixmap(QPainter &painter, QTabletEvent *event)
 {
     QPoint brushAdjust(10, 10);

     switch (myTabletDevice) {
         case QTabletEvent::Airbrush:
             myBrush.setColor(myColor);
             myBrush.setStyle(brushPattern(event->pressure()));
             painter.setPen(Qt::NoPen);
             painter.setBrush(myBrush);

             for (int i = 0; i < 3; ++i) {
                 painter.drawEllipse(QRect(polyLine[i] - brushAdjust,
                                     polyLine[i] + brushAdjust));
             }
             break;
         case QTabletEvent::Puck:
         case QTabletEvent::FourDMouse:
         case QTabletEvent::RotationStylus:
             {
                 const QString error(tr("This input device is not supported by the example."));
 #ifndef QT_NO_STATUSTIP
                 QStatusTipEvent status(error);
                 QApplication::sendEvent(this, &status);
 #else
                 qWarning() << error;
 #endif
             }
             break;
         default:
             {
                 const QString error(tr("Unknown tablet device - treating as stylus"));
 #ifndef QT_NO_STATUSTIP
                 QStatusTipEvent status(error);
                 QApplication::sendEvent(this, &status);
 #else
                 qWarning() << error;
 #endif
             }
             // FALL-THROUGH
         case QTabletEvent::Stylus:
             painter.setBrush(myBrush);
             painter.setPen(myPen);
             painter.drawLine(polyLine[1], event->pos());
             break;
     }
 }

 Qt::BrushStyle TabletCanvas::brushPattern(qreal value)
 {
     int pattern = int((value) * 100.0) % 7;

     switch (pattern) {
         case 0:
             return Qt::SolidPattern;
         case 1:
             return Qt::Dense1Pattern;
         case 2:
             return Qt::Dense2Pattern;
         case 3:
             return Qt::Dense3Pattern;
         case 4:
             return Qt::Dense4Pattern;
         case 5:
             return Qt::Dense5Pattern;
         case 6:
             return Qt::Dense6Pattern;
         default:
             return Qt::Dense7Pattern;
     }
 }

 void TabletCanvas::updateBrush(QTabletEvent *event)
 {
     int hue, saturation, value, alpha;
     myColor.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);

     switch (alphaChannelType) {
         case AlphaPressure:
             myColor.setAlpha(int(event->pressure() * 255.0));
             break;
         case AlphaTilt:
             myColor.setAlpha(maximum(abs(vValue - 127), abs(hValue - 127)));
             break;
         default:
             myColor.setAlpha(255);
     }

     switch (colorSaturationType) {
         case SaturationVTilt:
             myColor.setHsv(hue, vValue, value, alpha);
             break;
         case SaturationHTilt:
             myColor.setHsv(hue, hValue, value, alpha);
             break;
         case SaturationPressure:
             myColor.setHsv(hue, int(event->pressure() * 255.0), value, alpha);
             break;
         default:
             ;
     }

     switch (lineWidthType) {
         case LineWidthPressure:
             myPen.setWidthF(event->pressure() * 10 + 1);
             break;
         case LineWidthTilt:
             myPen.setWidthF(maximum(abs(vValue - 127), abs(hValue - 127)) / 12);
             break;
         default:
             myPen.setWidthF(1);
     }

     if (event->pointerType() == QTabletEvent::Eraser) {
         myBrush.setColor(Qt::white);
         myPen.setColor(Qt::white);
         myPen.setWidthF(event->pressure() * 10 + 1);
     } else {
         myBrush.setColor(myColor);
         myPen.setColor(myColor);
     }
 }

 void TabletCanvas::resizeEvent(QResizeEvent *)
 {
     initPixmap();
     polyLine[0] = polyLine[1] = polyLine[2] = QPoint();
 }