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/****************************************************************************
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**
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** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of an example program for TQt. This example
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** program may be used, distributed and modified without limitation.
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**
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*****************************************************************************/
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#include <tqimage.h>
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#include <ntqbitmap.h>
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#include <ntqpainter.h>
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#include <ntqapplication.h>
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#include <tqdropsite.h>
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#include <tqdragobject.h>
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#include <stdio.h>
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static double seed = 0.353535353535;
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static const int KINDA_RAND_MAX = 32767;
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static int kindaRand()
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{
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seed = seed*147;
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seed = seed - (double) ((int) seed);
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return (int) ( seed*(KINDA_RAND_MAX + 1) );
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}
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static int velocity( int i ) // change velocity
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{
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const int velmax = 15;
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const int velmin = 4;
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if ( i == 1 || i == 2 )
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i = (kindaRand()&0x7fff % velmax)/3 + velmin;
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else
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i = (kindaRand()&0x7fff % velmax) + velmin;
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return i;
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}
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//
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// Draw polygon on desktop.
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//
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void poly()
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{
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TQWidget *d = TQApplication::desktop();
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d->setBackgroundColor( TQt::white ); // white desktop
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const int maxpoints = 5;
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const int maxcurves = 8;
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static int xvel[maxpoints];
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static int yvel[maxpoints];
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int head = 0;
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int tail = -maxcurves + 2;
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TQPointArray *a = new TQPointArray[ maxcurves ];
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TQPointArray *p;
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TQRect r = d->rect(); // desktop rectangle
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int i;
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for ( i=0; i<maxcurves; i++ )
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a[i].resize( maxpoints );
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p = &a[0];
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for ( i=0; i<maxpoints; i++ ) { // setup first polygon points
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p->setPoint( i, (kindaRand()&0x7fff) % r.width(),
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(kindaRand()&0x7fff) % r.height() );
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xvel[i] = velocity(i);
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yvel[i] = velocity(i);
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}
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TQPainter paint;
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paint.begin( d ); // start painting desktop
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for ( int ntimes=0; ntimes<2000; ntimes++ ) {
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paint.setBrush( TQColor(kindaRand()%360, 180, 255, TQColor::Hsv) );
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paint.drawPolygon( a[head] );
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if ( ++tail >= maxcurves )
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tail = 0;
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int minx=r.left(), maxx=r.right();
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int miny=r.top(), maxy=r.bottom();
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int x, y;
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p = &a[head];
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if ( ++head >= maxcurves )
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head = 0;
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for ( i=0; i<maxpoints; i++ ) { // calc new curve
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p->point( i, &x, &y );
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x += xvel[i];
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y += yvel[i];
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if ( x >= maxx ) {
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x = maxx - (x - maxx + 1);
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xvel[i] = -velocity(i);
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}
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if ( x <= minx ) {
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x = minx + (minx - x + 1);
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xvel[i] = velocity(i);
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}
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if ( y >= maxy ) {
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y = maxy - (y - maxy + 1);
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yvel[i] = -velocity(i);
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}
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if ( y <= miny ) {
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y = miny + (miny - y + 1);
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yvel[i] = velocity(i);
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}
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a[head].setPoint( i, x, y );
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}
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}
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paint.end(); // painting done
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delete[] a;
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}
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//
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// Rotate pattern on desktop.
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//
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void rotate()
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{
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int i;
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const int w = 64;
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const int h = 64;
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TQImage image( w, h, 8, 128 ); // create image
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for ( i=0; i<128; i++ ) // build color table
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image.setColor( i, tqRgb(i,0,0) );
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for ( int y=0; y<h; y++ ) { // set image pixels
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uchar *p = image.scanLine(y);
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for ( int x=0; x<w; x++ )
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*p++ = (x+y)%128;
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}
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TQPixmap pm;
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pm = image; // convert image to pixmap
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pm.setOptimization( TQPixmap::BestOptim ); // rotation will be faster
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TQWidget *d = TQApplication::desktop(); // w = desktop widget
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for ( i=0; i<=360; i += 2 ) {
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TQWMatrix m;
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m.rotate( i ); // rotate coordinate system
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TQPixmap rpm = pm.xForm( m ); // rpm = rotated pixmap
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d->setBackgroundPixmap( rpm ); // set desktop pixmap
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d->update(); // repaint desktop
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}
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}
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//
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// Generates a marble-like pattern in pm.
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//
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void generateStone( TQPixmap *pm,
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const TQColor &c1, const TQColor &c2, const TQColor &c3 )
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{
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TQPainter p;
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TQPen p1 ( c1, 0 );
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TQPen p2 ( c2, 0 );
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TQPen p3 ( c3, 0 );
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p.begin( pm );
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for( int i = 0 ; i < pm->width() ; i++ )
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for( int j = 0 ; j < pm->height() ; j++ ) {
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int r = kindaRand();
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if ( r < KINDA_RAND_MAX / 3 )
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p.setPen( p1 );
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else if ( r < KINDA_RAND_MAX / 3 * 2 )
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p.setPen( p2 );
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else
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p.setPen( p3 );
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p.drawPoint( i,j );
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}
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p.end();
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}
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void drawShadeText( TQPainter *p, int x, int y, const char *text,
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const TQColor &topColor, const TQColor &bottomColor,
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int sw = 2 )
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{
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if ( !p->isActive() )
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return;
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p->setPen( bottomColor );
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p->drawText( x+sw, y+sw, text );
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p->setPen( topColor );
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p->drawText( x, y, text );
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}
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// NOTE: desktop drag/drop is experimental
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class DesktopWidget : public TQWidget, private TQDropSite
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{
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public:
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DesktopWidget( const char *s, TQWidget *parent=0, const char *name=0 );
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~DesktopWidget();
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void paintEvent( TQPaintEvent * );
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void dragEnterEvent( TQDragEnterEvent *e )
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{
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if ( TQImageDrag::canDecode(e) )
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e->accept();
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}
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void dragLeaveEvent( TQDragLeaveEvent * )
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{
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}
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void dragMoveEvent( TQDragMoveEvent *e )
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{
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e->accept();
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}
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void dropEvent( TQDropEvent * e )
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{
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TQPixmap pmp;
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if ( TQImageDrag::decode( e, pmp ) ) {
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setBackgroundPixmap( pmp );
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update();
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}
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}
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private:
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TQPixmap *pm;
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TQString text;
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};
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DesktopWidget::DesktopWidget( const char *s, TQWidget *parent, const char *name )
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: TQWidget( parent, name, WType_Desktop | WPaintDesktop),
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TQDropSite(this)
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{
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text = s;
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pm = 0;
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}
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DesktopWidget::~DesktopWidget()
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{
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delete pm;
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}
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void DesktopWidget::paintEvent( TQPaintEvent * )
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{
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TQColor c1 = backgroundColor();
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TQColor c2 = c1.light(104);
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TQColor c3 = c1.dark(106);
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if ( !pm ) {
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pm = new TQPixmap( 64, 64 );
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generateStone( pm, c1, c2, c3 );
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setBackgroundPixmap( *pm );
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update();
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}
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TQRect br = fontMetrics().boundingRect( text );
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TQPixmap offscreen( br.width(), br.height() );
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int x = width()/2 - br.width()/2;
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int y = height()/2 - br.height()/2;
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offscreen.fill( this, x, y );
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TQPainter p;
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p.begin( &offscreen );
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drawShadeText( &p, -br.x(), -br.y(), text, c2, c3, 3 );
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p.end();
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bitBlt( this, x, y, &offscreen );
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}
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void desktopWidget( const char *s = "Trolltech" )
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{
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DesktopWidget *t = new DesktopWidget(s);
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t->update();
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tqApp->exec();
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delete t;
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}
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void desktopText( const char *s = "Trolltech" )
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{
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const int border = 20;
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TQColor c1 = tqApp->palette().inactive().background();
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TQColor c2 = c1.light(104);
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TQColor c3 = c1.dark(106);
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TQPixmap pm(10,10);
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TQPainter p;
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p.begin( &pm );
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TQRect r = p.fontMetrics().boundingRect( s );
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p.end();
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int appWidth = tqApp->desktop()->width();
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int appHeight = tqApp->desktop()->height();
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if ( r.width() > appWidth - border*2 )
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r.setWidth( appWidth - border*2 );
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if ( r.height() > appHeight - border*2 )
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r.setHeight( appHeight - border*2 );
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pm.resize( r.size() + TQSize( border*2, border*2 ) );
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generateStone( &pm, c1, c2, c3 );
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p.begin( &pm );
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drawShadeText( &p, -r.x() + border, -r.y() + border, s, c2, c3 );
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p.end();
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tqApp->desktop()->setBackgroundPixmap( pm );
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}
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//
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// The program starts here.
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//
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int main( int argc, char **argv )
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{
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TQApplication app( argc, argv );
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if ( argc > 1 ) {
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TQFont f( "charter", 96, TQFont::Black );
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f.setStyleHint( TQFont::Times );
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app.setFont( f );
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}
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bool validOptions = FALSE;
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if ( argc == 2 ) {
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validOptions = TRUE;
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if ( strcmp(argv[1],"-poly") == 0 )
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poly();
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else if ( strcmp(argv[1],"-rotate") == 0 )
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rotate();
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else if ( strcmp(argv[1],"-troll") == 0 )
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desktopText();
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else if ( strcmp(argv[1],"-trollwidget") == 0 )
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desktopWidget();
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else
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validOptions = FALSE;
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}
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if ( argc == 3 ) {
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validOptions = TRUE;
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if ( strcmp(argv[1],"-shadetext") == 0 )
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desktopText( argv[2] );
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else if ( strcmp(argv[1],"-shadewidget") == 0 )
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desktopWidget( argv[2] );
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else
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validOptions = FALSE;
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}
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if ( !validOptions ) {
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fprintf( stderr, "Usage:\n\tdesktop -poly"
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"\n\tdesktop -rotate"
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"\n\tdesktop -troll"
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"\n\tdesktop -trollwidget"
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"\n\tdesktop -shadetext <text>"
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"\n\tdesktop -shadewidget <text>\n" );
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rotate();
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}
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return 0;
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}
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