Buffer painting which is hopefully flicker free and it works

with Phase and Liquid Styles

2 files changed, 64 insertions, 51 deletions

diff --git a/noncore/tools/clock/analogclock.cpp b/noncore/tools/clock/analogclock.cpp
index c5f0155..16ecc5c 100644
--- a/noncore/tools/clock/analogclock.cpp
+++ b/noncore/tools/clock/analogclock.cpp
@@ -7,132 +7,147 @@
 ** GNU General Public License version 2 as published by the Free Software
 ** Foundation and appearing in the file LICENSE.GPL included in the
 ** packaging of this file.
 **
 ** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 ** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 **
 ** See http://www.trolltech.com/gpl/ for GPL licensing information.
 **
 ** Contact info@trolltech.com if any conditions of this licensing are
 ** not clear to you.
 **
 **********************************************************************/
 
 #include "analogclock.h"
 
+#include <qtopia/global.h>
+
 #include <qlayout.h>
 #include <qpainter.h>
-#include <qtopia/global.h>
+#include <qpixmap.h>
+
 
 #include <math.h>
 
 const double deg2rad = 0.017453292519943295769;	// pi/180
 
 AnalogClock::AnalogClock( QWidget *parent, const char *name )
-    : QFrame( parent, name ), clear(false)
+    : QFrame( parent, name )
 {
     setMinimumSize(50,50);
+
+    /* initial the buffer pixmap */
+    QRect r = contentsRect();
+    _pixmap = new QPixmap( r.width(), r.height() );
+}
+
+AnalogClock::~AnalogClock() {
+    delete _pixmap;
 }
 
 QSizePolicy AnalogClock::sizePolicy() const
 {
     return QSizePolicy( QSizePolicy::Expanding, QSizePolicy::Expanding );
 }
 
-void AnalogClock::drawContents( QPainter *p )
+void AnalogClock::drawContents( QPainter * )
 {
-#if !defined(NO_DEBUG)
-    static bool first = true;
-    if ( first ) {
-//	QTOPIA_PROFILE("first paint event");
-	first = false;
-    }
-#endif
+    /* no need to draw... */
+    if ( !isVisible() )
+        return;
+
 
     QRect r = contentsRect();
 
     if ( r.width() < r.height() ) {
 	r.setY( (r.height() - r.width())/2 );
 	r.setHeight( r.width() );
     }
 
+    /* resize the buffer */
+    if ( r.width()  != _pixmap->width() ||
+         r.height() != _pixmap->height() )
+        _pixmap->resize( r.width(), r.height() );
+
+    QPainter p;
+    p.begin( _pixmap );
+
+
     QPoint center( r.x() + r.width() / 2, r.y() + r.height() / 2 );
 
     const int w_tick = r.width()/300+1;
     const int w_sec = r.width()/400+1;
     const int w_hour = r.width()/80+1;
 
     QPoint l1( r.x() + r.width() / 2, r.y() + 2 );
     QPoint l2( r.x() + r.width() / 2, r.y() + 8 );
 
     QPoint h1( r.x() + r.width() / 2, r.y() + r.height() / 4 );
     QPoint h2( r.x() + r.width() / 2, r.y() + r.height() / 2 );
 
     QPoint m1( r.x() + r.width() / 2, r.y() + r.height() / 9 );
     QPoint m2( r.x() + r.width() / 2, r.y() + r.height() / 2 );
 
     QPoint s1( r.x() + r.width() / 2, r.y() + 8 );
     QPoint s2( r.x() + r.width() / 2, r.y() + r.height() / 2 );
 
-    QColor color( clear ? backgroundColor() : black );
-    QTime time = clear ? prevTime : currTime;
+    /* fill the pixmap */
+    _pixmap->fill( this, 0, 0 );
 
-    if ( clear && prevTime.secsTo(currTime) > 1 ) {
-	p->eraseRect( rect() );
-	return;
-    }
 
-    if ( !clear ) {
-	// draw ticks
-	p->setPen( QPen( color, w_tick ) );
-	for ( int i = 0; i < 12; i++ )
-	    p->drawLine( rotate( center, l1, i * 30 ), rotate( center, l2, i * 30 ) );
-    }
+    // draw ticks
+    QColor color = black;
+    p.setPen( QPen( color, w_tick ) );
+    for ( int i = 0; i < 12; i++ )
+        p.drawLine( rotate( center, l1, i * 30 ), rotate( center, l2, i * 30 ) );
 
-    if ( !clear || prevTime.minute() != currTime.minute() ||
-	    prevTime.hour() != currTime.hour() ) {
-	// draw hour pointer
-	h1 = rotate( center, h1, 30 * ( time.hour() % 12 ) + time.minute() / 2 );
-	h2 = rotate( center, h2, 30 * ( time.hour() % 12 ) + time.minute() / 2 );
-	p->setPen( color );
-	p->setBrush( color );
-	drawHand( p, h1, h2 );
-    }
 
-    if ( !clear || prevTime.minute() != currTime.minute() ) {
-	// draw minute pointer
-	m1 = rotate( center, m1, time.minute() * 6 );
-	m2 = rotate( center, m2, time.minute() * 6 );
-	p->setPen( color );
-	p->setBrush( color );
-	drawHand( p, m1, m2 );
-    }
+    // draw hour pointer
+    h1 = rotate( center, h1, 30 * ( currTime.hour() % 12 ) + currTime.minute() / 2 );
+    h2 = rotate( center, h2, 30 * ( currTime.hour() % 12 ) + currTime.minute() / 2 );
+    p.setPen( color );
+    p.setBrush( color  );
+    drawHand( &p, h1, h2 );
+
+
+    // draw minute pointer
+    m1 = rotate( center, m1, currTime.minute() * 6 );
+    m2 = rotate( center, m2, currTime.minute() * 6 );
+    p.setPen( color );
+    p.setBrush( color );
+    drawHand( &p, m1, m2 );
 
     // draw second pointer
-    s1 = rotate( center, s1, time.second() * 6 );
-    s2 = rotate( center, s2, time.second() * 6 );
-    p->setPen( QPen( color, w_sec ) );
-    p->drawLine( s1, s2 );
+    s1 = rotate( center, s1, currTime.second() * 6 );
+    s2 = rotate( center, s2, currTime.second() * 6 );
+    p.setPen( QPen( color, w_sec ) );
+    p.drawLine( s1, s2 );
 
     // cap
-    p->setBrush(color);
-    p->drawEllipse( center.x()-w_hour/2, center.y()-w_hour/2, w_hour, w_hour );
+    p.setBrush(color);
+    p.drawEllipse( center.x()-w_hour/2, center.y()-w_hour/2, w_hour, w_hour );
+
+    prevTime = currTime;
+
+    p.end();
 
-    if ( !clear )
-	prevTime = currTime;
+    p.begin( this );
+    p.drawPixmap( 0, 0, *_pixmap );
+
+    /* leave */
 }
 
 // Dijkstra's bisection algorithm to find the square root as an integer.
 
 static uint int_sqrt(uint n)
 {
     if ( n >= UINT_MAX>>2 ) // n must be in the range 0...UINT_MAX/2-1
 	return 2*int_sqrt( n/4 );
     uint h, p= 0, q= 1, r= n;
     while ( q <= n )
 	q <<= 2;
     while ( q != 1 ) {
 	q >>= 2;
 	h= p + q;
 	p >>= 1;
 	if ( r >= h ) {
@@ -173,31 +188,28 @@ void AnalogClock::drawHand( QPainter *p, QPoint p1, QPoint p2 )
 	niy = (iy+1)/2;
 	iy = iy/2;
     }
 
     QPointArray pa(4);
     pa[0] = p1;
     pa[1] = QPoint( p2.x()+iy, p2.y()-nix );
     pa[2] = QPoint( p2.x()-niy, p2.y()+ix );
     pa[3] = p1;
 
     p->drawPolygon( pa );
 }
 
 void AnalogClock::display( const QTime& t )
 {
     currTime = t;
-    clear = true;
-    repaint( false );
-    clear = false;
     repaint( false );
 }
 
 QPoint AnalogClock::rotate( QPoint c, QPoint p, int a )
 {
     double angle = deg2rad * ( - a + 180 );
     double nx = c.x() - ( p.x() - c.x() ) * cos( angle ) -
 		( p.y() - c.y() ) * sin( angle );
     double ny = c.y() - ( p.y() - c.y() ) * cos( angle ) +
 		( p.x() - c.x() ) * sin( angle );
     return QPoint( int(nx), int(ny) );
 }
diff --git a/noncore/tools/clock/analogclock.h b/noncore/tools/clock/analogclock.h
index 3aa035e..2287888 100644
--- a/noncore/tools/clock/analogclock.h
+++ b/noncore/tools/clock/analogclock.h
@@ -15,35 +15,36 @@
 **
 ** Contact info@trolltech.com if any conditions of this licensing are
 ** not clear to you.
 **
 **********************************************************************/
 #ifndef ANALOGCLOCK_H
 #define ANALOGCLOCK_H
 
 #include <qdatetime.h>
 #include <qframe.h>
 
 class AnalogClock : public QFrame
 {
     Q_OBJECT
 public:
     AnalogClock( QWidget *parent=0, const char *name=0 );
+    ~AnalogClock();
 
     QSizePolicy sizePolicy() const;
 
     void display( const QTime& time );
 
 protected:
     void drawContents( QPainter *p );
     void drawHand( QPainter *p, QPoint, QPoint );
 
 private:
     QPoint rotate( QPoint center, QPoint p, int angle );
 
     QTime currTime;
     QTime prevTime;
-    bool clear;
+    QPixmap *_pixmap;
 };
 
 #endif