GLGaze::GLGaze(Store* st)
{
// Make our GL Gaze widget self-contained.
setWindowTitle("GorgonEye - Gaze Control");
setWindowFlags(Qt::FramelessWindowHint);
setFrameShape(QFrame::NoFrame);
// Create new viewport with OpenGL capabilities
setViewport(new QGLWidget(QGLFormat(QGL::SampleBuffers)));
setViewportUpdateMode(QGraphicsView::FullViewportUpdate);
// Create scene and attempt to use full screen res for training/gaze estimation
setScene(new GLGazeScene(st, DPI_SCALE, logicalDpiX(), logicalDpiY()));
setGeometry(QApplication::desktop()->screenGeometry()); // other: availableGeometry
}
WebView::WebView(KWebKitPart* part, QWidget* parent)
:KWebView(parent, false),
m_actionCollection(new KActionCollection(this)),
m_part(part),
m_webInspector(0),
m_autoScrollTimerId(-1),
m_verticalAutoScrollSpeed(0),
m_horizontalAutoScrollSpeed(0),
m_accessKeyActivated(NotActivated)
{
setAcceptDrops(true);
// Create the custom page...
setPage(new WebPage(part, this));
connect(this, SIGNAL(loadStarted()), this, SLOT(slotStopAutoScroll()));
connect(this, SIGNAL(loadStarted()), this, SLOT(hideAccessKeys()));
connect(page(), SIGNAL(scrollRequested(int,int,QRect)), this, SLOT(hideAccessKeys()));
if (WebKitSettings::self()->zoomToDPI())
setZoomFactor(logicalDpiY() / 96.0f);
}
/*!
Maps \a point from viewport co-ordinates to eye co-ordinates.
The returned vector will have its x and y components set to the
position of the point on the near plane, and the z component
set to the inverse of the camera's near plane.
This function is used for converting a mouse event's position
into eye co-ordinates within the current camera view.
\sa QGLCamera::mapPoint()
*/
QVector3D QGLView::mapPoint(const QPoint &point) const
{
QSize viewportSize(size());
qreal aspectRatio;
// Get the size of the underlying paint device.
int width = viewportSize.width();
int height = viewportSize.height();
// Use the device's DPI setting to determine the pixel aspect ratio.
int dpiX = logicalDpiX();
int dpiY = logicalDpiY();
if (dpiX <= 0 || dpiY <= 0)
dpiX = dpiY = 1;
// Derive the aspect ratio based on window and pixel size.
if (width <= 0 || height <= 0)
aspectRatio = 1.0f;
else
aspectRatio = ((qreal)(width * dpiY)) / ((qreal)(height * dpiX));
// Map the point into eye co-ordinates.
return d->camera->mapPoint(point, aspectRatio, viewportSize);
}
SoundSlider::SoundSlider( QWidget *_parent, float _i_step,
char *psz_colors, int max )
: QAbstractSlider( _parent )
{
qreal scalingFactorX = static_cast<qreal>(logicalDpiX()) / DPI_REF_VALUE;
qreal scalingFactorY = static_cast<qreal>(logicalDpiY()) / DPI_REF_VALUE;
wlength = WLENGTH_BASE * scalingFactorX;
wheight = WHEIGHT_BASE * scalingFactorY;
f_step = (float)(_i_step * 10000)
/ (float)((max - SOUNDMIN) * AOUT_VOLUME_DEFAULT);
setRange( SOUNDMIN, max);
setMouseTracking( true );
isSliding = false;
b_mouseOutside = true;
b_isMuted = false;
const QPixmap pixOutsideRaw(Helper::getIconPath("volume-slider-outside.png"));
const QSize pixOutsideSize(
static_cast<qreal>(pixOutsideRaw.width()) * scalingFactorX,
static_cast<qreal>(pixOutsideRaw.height()) * scalingFactorY
);
pixOutside = pixOutsideRaw.scaled(pixOutsideSize);
const QPixmap tempRaw(Helper::getIconPath("volume-slider-inside.png"));
const QSize tempSize(
static_cast<qreal>(tempRaw.width()) * scalingFactorX,
static_cast<qreal>(tempRaw.height()) * scalingFactorY
);
const QPixmap temp = tempRaw.scaled(tempSize);
const QBitmap mask( temp.createHeuristicMask() );
setFixedSize( pixOutside.size() );
pixGradient = QPixmap( mask.size() );
pixGradient2 = QPixmap( mask.size() );
/* Gradient building from the preferences */
QLinearGradient gradient( paddingL, 2, wlength + paddingL , 2 );
QLinearGradient gradient2( paddingL, 2, wlength + paddingL , 2 );
QStringList colorList = qfu( psz_colors ).split( ";" );
free( psz_colors );
/* Fill with 255 if the list is too short */
if( colorList.count() < 12 )
for( int i = colorList.count(); i < 12; i++)
colorList.append( "255" );
background = palette().color( QPalette::Active, QPalette::Window );
foreground = palette().color( QPalette::Active, QPalette::WindowText );
foreground.setHsv( foreground.hue(),
( background.saturation() + foreground.saturation() ) / 2,
( background.value() + foreground.value() ) / 2 );
textfont.setPointSize( 9 );
textrect.setRect( 0, 0, 34.0*scalingFactorX, 15.0*scalingFactorY );
/* Regular colors */
#define c(i) colorList.at(i).toInt()
#define add_color(gradient, range, c1, c2, c3) \
gradient.setColorAt( range, QColor( c(c1), c(c2), c(c3) ) );
/* Desaturated colors */
#define desaturate(c) c->setHsvF( c->hueF(), 0.2 , 0.5, 1.0 )
#define add_desaturated_color(gradient, range, c1, c2, c3) \
foo = new QColor( c(c1), c(c2), c(c3) );\
desaturate( foo ); gradient.setColorAt( range, *foo );\
delete foo;
/* combine the two helpers */
#define add_colors( gradient1, gradient2, range, c1, c2, c3 )\
add_color( gradient1, range, c1, c2, c3 ); \
add_desaturated_color( gradient2, range, c1, c2, c3 );
float f_mid_point = ( 100.0 / maximum() );
QColor * foo;
add_colors( gradient, gradient2, 0.0, 0, 1, 2 );
if (f_mid_point + 0.05 <= 1.0) {
add_colors( gradient, gradient2, f_mid_point - 0.05, 3, 4, 5 );
add_colors( gradient, gradient2, f_mid_point + 0.05, 6, 7, 8 );
}
add_colors( gradient, gradient2, 1.0, 9, 10, 11 );
painter.begin( &pixGradient );
painter.setPen( Qt::NoPen );
painter.setBrush( gradient );
painter.drawRect( pixGradient.rect() );
painter.end();
painter.begin( &pixGradient2 );
painter.setPen( Qt::NoPen );
painter.setBrush( gradient2 );
painter.drawRect( pixGradient2.rect() );
painter.end();
pixGradient.setMask( mask );
pixGradient2.setMask( mask );
}
