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/****************************************************************************
** $Id$
**
** Copyright (C) 1992-2000 Trolltech AS. All rights reserved.
**
** This file is part of an example program for Qt. This example
** program may be used, distributed and modified without limitation.
**
*****************************************************************************/
import org.trinitydesktop.qt.*;
import java.util.Date;
class AnalogClock extends TQWidget // analog clock widget
{
private Date time;
//
// Constructs an analog clock widget that uses an internal TQTimer.
//
public AnalogClock( TQWidget parent )
{
this(parent, null);
}
public AnalogClock( TQWidget parent, String name )
{
super( parent, name );
time = new Date(); // get current time
TQTimer internalTimer = new TQTimer( this ); // create internal timer
connect( internalTimer, SIGNAL("timeout()"), SLOT("timeout()") );
internalTimer.start( 5000 ); // emit signal every 5 seconds
}
public void setTime( Date t )
{
time = t;
timeout();
}
//
// The TQTimer.timeout() signal is received by this slot.
//
public void timeout()
{
Date old_time = new Date(); // get the current time
old_time.setTime( time.getTime() - 5000 );
time.setTime( time.getTime() + 5000 );
if ( old_time.getMinutes() != time.getMinutes() ) { // minute has changed
if (autoMask())
updateMask();
else
update();
}
}
public void paintEvent( TQPaintEvent event )
{
if ( autoMask() )
return;
TQPainter paint = new TQPainter( this );
paint.setBrush( colorGroup().foreground() );
drawClock( paint );
}
// If the clock is transparent, we use updateMask()
// instead of paintEvent()
public void updateMask() // paint clock mask
{
TQBitmap bm = new TQBitmap( size() );
bm.fill( color0() ); //transparent
TQPainter paint = new TQPainter();
paint.begin( bm, this );
paint.setBrush( color1() ); // use non-transparent color
paint.setPen( color1() );
drawClock( paint );
paint.end();
setMask( bm );
}
//
// The clock is painted using a 1000x1000 square coordinate system, in
// the a centered square, as big as possible. The painter's pen and
// brush colors are used.
//
public void drawClock( TQPainter paint )
{
paint.save();
paint.setWindow( -500,-500, 1000,1000 );
TQRect v = paint.viewport();
int d = v.width() < v.height() ? v.width() : v.height();
paint.setViewport( v.left() + (v.width()-d)/2,
v.top() + (v.height()-d)/2, d, d );
// time = TQTime.currentTime();
TQPointArray pts = new TQPointArray();
paint.save();
paint.rotate( 30*(time.getHours()%12-3) + time.getMinutes()/2 );
pts.setPoints( 4, new short[] { -20,0, 0,-20, 300,0, 0,20 } );
paint.drawConvexPolygon( pts );
paint.restore();
paint.save();
paint.rotate( (time.getMinutes()-15)*6 );
pts.setPoints( 4, new short[] { -10,0, 0,-10, 400,0, 0,10 } );
paint.drawConvexPolygon( pts );
paint.restore();
for ( int i=0; i<12; i++ ) {
paint.drawLine( 440,0, 460,0 );
paint.rotate( 30 );
}
paint.restore();
}
public void setAutoMask(boolean b)
{
if (b)
setBackgroundMode( PaletteForeground );
else
setBackgroundMode( PaletteBackground );
super.setAutoMask(b);
}
public static void main( String[] args )
{
TQApplication a = new TQApplication( args );
AnalogClock clock = new AnalogClock(null, null);
if ( args.length == 1 && args[0].equals("-transparent") )
clock.setAutoMask( true );
clock.resize( 100, 100 );
a.setMainWidget( clock );
clock.setCaption("Qt Example - Analog Clock");
clock.show();
int result = a.exec();
return;
}
static {
qtjava.initialize();
}
}
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