author | brad <brad> | 2004-04-06 11:28:32 (UTC) |
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committer | brad <brad> | 2004-04-06 11:28:32 (UTC) |
commit | cbedf80c65fe86d0ca901a9f5f4519564ffdc90a (patch) (side-by-side diff) | |
tree | ecaecc6ea6734fb07cdaf2bdd33b2206b7a54628 | |
parent | 4738d39e8168e24cbaae8a7ea3c71f00552d5dac (diff) | |
download | opie-cbedf80c65fe86d0ca901a9f5f4519564ffdc90a.zip opie-cbedf80c65fe86d0ca901a9f5f4519564ffdc90a.tar.gz opie-cbedf80c65fe86d0ca901a9f5f4519564ffdc90a.tar.bz2 |
Simple math rearrangement that fixes the drawing of the battery meter on my iPAQ
-rw-r--r-- | core/applets/batteryapplet/batterystatus.cpp | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/core/applets/batteryapplet/batterystatus.cpp b/core/applets/batteryapplet/batterystatus.cpp index bd86f77..858a794 100644 --- a/core/applets/batteryapplet/batterystatus.cpp +++ b/core/applets/batteryapplet/batterystatus.cpp @@ -86,166 +86,166 @@ bool BatteryStatus::getProcApmStatusIpaq() { }else if( (*line).startsWith(" Chemistry") ) { if (bat2 == true) { jackChem = (*line).mid((*line).find('('), (*line).find(')')-(*line).find('(')+1); } else { ipaqChem = (*line).mid((*line).find('('), (*line).find(')')-(*line).find('(')+1); } } } } else { QMessageBox::warning(this, tr("Failure"),tr("could not open file")); } procApmIpaq.close(); jackPercent = perc2.toInt(); ipaqPercent = perc1.toInt(); if (perc2.isEmpty()) { perc2 = tr("no data"); } else { perc2 += " %"; } if (sec2 == "0" || sec2 == "" || sec2.isEmpty()) { sec2 = tr("no data"); } else { sec2 += " min"; } jackStatus == (" ( " + jackStatus + " )"); return true; } void BatteryStatus::updatePercent( int pc ) { percent = pc; repaint(FALSE); } void BatteryStatus::drawSegment( QPainter *p, const QRect &r, const QColor &topgrad, const QColor &botgrad, const QColor &highlight, int hightlight_height ) { int h1, h2, s1, s2, v1, v2, ng = r.height(), hy = ng*30/100, hh = hightlight_height; topgrad.hsv( &h1, &s1, &v1 ); botgrad.hsv( &h2, &s2, &v2 ); for ( int j = 0; j < hy-2; j++ ) { p->setPen( QColor( h1 + ((h2-h1)*j)/(ng-1), s1 + ((s2-s1)*j)/(ng-1), v1 + ((v2-v1)*j)/(ng-1), QColor::Hsv ) ); p->drawLine( r.x(), r.top()+hy-2-j, r.x()+r.width(), r.top()+hy-2-j ); } for ( int j = 0; j < hh; j++ ) { p->setPen( highlight ); p->drawLine( r.x(), r.top()+hy-2+j, r.x()+r.width(), r.top()+hy-2+j ); } for ( int j = 0; j < ng-hy-hh; j++ ) { p->setPen( QColor( h1 + ((h2-h1)*j)/(ng-1), s1 + ((s2-s1)*j)/(ng-1), v1 + ((v2-v1)*j)/(ng-1), QColor::Hsv ) ); p->drawLine( r.x(), r.top()+hy+hh-2+j, r.x()+r.width(), r.top()+hy+hh-2+j ); } } void BatteryStatus::paintEvent( QPaintEvent * ) { QPainter p(this); QString text; if ( ps->batteryStatus() == PowerStatus::Charging ) { if (bat2) { text = tr("Charging both devices"); } else { text = tr("Charging"); } } else if ( ps->batteryPercentAccurate() ) { text.sprintf( tr("Percentage battery remaining") + ": %i%%", percent ); } else { text = tr("Battery status: "); switch ( ps->batteryStatus() ) { case PowerStatus::High: text += tr("Good"); break; case PowerStatus::Low: text += tr("Low"); break; case PowerStatus::VeryLow: text += tr("Very Low"); break; case PowerStatus::Critical: text += tr("Critical"); break; default: // NotPresent, etc. text += tr("Unknown"); } } p.drawText( 10, 90, text ); if ( ps->acStatus() == PowerStatus::Backup ) p.drawText( 10, 110, tr("On backup power") ); else if ( ps->acStatus() == PowerStatus::Online ) p.drawText( 10, 110, tr("Power on-line") ); else if ( ps->acStatus() == PowerStatus::Offline ) p.drawText( 10, 110, tr("External power disconnected") ); if ( ps->batteryTimeRemaining() >= 0 ) { text.sprintf( tr("Battery time remaining") + ": %im %02is", ps->batteryTimeRemaining() / 60, ps->batteryTimeRemaining() % 60 ); p.drawText( 10, 130, text ); } QColor c; QColor darkc; QColor lightc; if ( ps->acStatus() == PowerStatus::Offline ) { c = blue.light(120); darkc = c.dark(280); lightc = c.light(145); } else if ( ps->acStatus() == PowerStatus::Online ) { c = green.dark(130); darkc = c.dark(200); lightc = c.light(220); } else { c = red; darkc = c.dark(280); lightc = c.light(140); } if ( percent < 0 ) return; int rightEnd1 = width() - 47; int rightEnd2 = width() - 35; - int percent2 = ( percent / 100 ) * rightEnd1 ; + int percent2 = (percent * rightEnd1) / 100; p.setPen( black ); qDrawShadePanel( &p, 9, 30, rightEnd1 , 39, colorGroup(), TRUE, 1, NULL); qDrawShadePanel( &p, rightEnd2, 37, 12, 24, colorGroup(), TRUE, 1, NULL); drawSegment( &p, QRect( 10, 30, percent2, 40 ), lightc, darkc, lightc.light(115), 6 ); drawSegment( &p, QRect( 11 + percent2, 30, rightEnd1 - percent2, 40 ), white.light(80), black, white.light(90), 6 ); drawSegment( &p, QRect( rightEnd2, 37, 10, 25 ), white.light(80), black, white.light(90), 2 ); p.setPen( black); if ( ODevice::inst ( )-> series ( ) == Model_iPAQ ) { p.drawText(15, 50, tr ("Ipaq ") + ipaqChem); QString jacketMsg; if (bat2) { p.setPen(black); p.drawText(10,220, tr("Percentage battery remaining: ") + perc2 + " " + jackStatus); p.drawText(10,240, tr("Battery time remaining: ") + sec2); jacketMsg = tr("Jacket ") + jackChem; } else { jackPercent = 0; jacketMsg = tr("No jacket with battery inserted"); } int jackPerc = ( jackPercent / 100 ) * ( width() - 47 ) ; qDrawShadePanel( &p, 9, 160, rightEnd1, 39, colorGroup(), TRUE, 1, NULL); qDrawShadePanel( &p, rightEnd2, 167, 12, 24, colorGroup(), TRUE, 1, NULL); drawSegment( &p, QRect( 10, 160, jackPerc, 40 ), lightc, darkc, lightc.light(115), 6 ); drawSegment( &p, QRect( 11 + jackPerc, 160, rightEnd1 - jackPerc, 40 ), white.light(80), black, white.light(90), 6 ); drawSegment( &p, QRect( rightEnd2, 167, 10, 25 ), white.light(80), black, white.light(90), 2 ); p.setPen( black ); p.drawText(15, 180, jacketMsg); } } |