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tdebase/kcontrol/background/bgrender.cpp

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/* vi: ts=8 sts=4 sw=4
* kate: space-indent on; tab-width 8; indent-width 4; indent-mode cstyle;
*
* This file is part of the KDE project, module kdesktop.
* Copyright (C) 1999 Geert Jansen <g.t.jansen@stud.tue.nl>
*
* You can Freely distribute this program under the GNU Library General
* Public License. See the file "COPYING.LIB" for the exact licensing terms.
*/
#include <config.h>
#include "KCrossBGRender.h"
#include <time.h>
#include <stdlib.h>
#include <utime.h>
#include <tqtimer.h>
#include <tqpainter.h>
#include <tqimage.h>
#include <tqfileinfo.h>
#include <tqdir.h>
#include <dcopclient.h>
#include <tdeapplication.h>
#include <kdebug.h>
#include <kstandarddirs.h>
#include <kimageeffect.h>
#include <kprocess.h>
#include <kpixmapio.h>
#include <tdetempfile.h>
#include <kcursor.h>
#include <kmimetype.h>
#include <tdefilemetainfo.h>
#ifdef HAVE_LIBART
#include <ksvgiconengine.h>
#endif
#include "bgdefaults.h"
#include "bghash.h"
#include "bgrender.h"
#include <X11/Xlib.h>
#include <config.h>
/**** KBackgroundRenderer ****/
KBackgroundRenderer::KBackgroundRenderer(int desk, int screen, bool drawBackgroundPerScreen, TDEConfig *config)
: KBackgroundSettings(desk, screen, drawBackgroundPerScreen, config)
{
m_State = 0;
m_isBusyCursor = false;
m_enableBusyCursor = false;
m_pDirs = TDEGlobal::dirs();
m_rSize = m_Size = drawBackgroundPerScreen ? TDEApplication::desktop()->screenGeometry(screen).size() : TDEApplication::desktop()->geometry().size();
m_pProc = 0L;
m_Tempfile = 0L;
m_bPreview = false;
m_Cached = false;
m_TilingEnabled = false;
m_pTimer = new TQTimer(this);
connect(m_pTimer, TQT_SIGNAL(timeout()), TQT_SLOT(render()));
}
KBackgroundRenderer::~KBackgroundRenderer()
{
cleanup();
delete m_Tempfile;
m_Tempfile = 0;
}
void KBackgroundRenderer::setSize(const TQSize &size)
{
m_rSize = m_Size = size;
}
/*
* Re-configure because the desktop has been resized.
*/
void KBackgroundRenderer::desktopResized()
{
m_State = 0;
m_rSize = drawBackgroundPerScreen() ? TDEApplication::desktop()->screenGeometry(screen()).size() : TDEApplication::desktop()->geometry().size();
if( !m_bPreview )
m_Size = m_rSize;
}
void KBackgroundRenderer::tile(TQImage& dest, TQRect rect, const TQImage& src)
{
rect &= dest.rect();
int x, y;
int h = rect.height(), w = rect.width();
int offx = rect.x(), offy = rect.y();
int sw = src.width(), sh = src.height();
for (y=offy; y<offy+h; y++)
for (x=offx; x<offx+w; x++)
dest.setPixel(x, y, src.pixel(x%sw, y%sh));
}
/*
* Build a command line to run the program.
*/
TQString KBackgroundRenderer::buildCommand()
{
TQString num;
int pos = 0;
TQString cmd;
if (m_bPreview)
cmd = previewCommand();
else
cmd = command();
if (cmd.isEmpty())
return TQString();
while ((pos = cmd.find('%', pos)) != -1) {
if (pos == (int) (cmd.length() - 1))
break;
switch (cmd.at(pos+1).latin1()) {
case 'f':
createTempFile();
cmd.replace(pos, 2, KShellProcess::quote(m_Tempfile->name()));
pos += m_Tempfile->name().length() - 2;
break;
case 'x':
num.setNum(m_Size.width());
cmd.replace(pos, 2, num);
pos += num.length() - 2;
break;
case 'y':
num.setNum(m_Size.height());
cmd.replace(pos, 2, num);
pos += num.length() - 2;
break;
case '%':
cmd.replace(pos, 2, "%");
pos--;
break;
default:
++pos; // avoid infinite loop
break;
}
}
return cmd;
}
/*
* Create a background tile. If the background mode is `Program',
* this is asynchronous.
*/
int KBackgroundRenderer::doBackground(bool quit)
{
if (m_State & BackgroundDone)
return Done;
int bgmode = backgroundMode();
if (!enabled())
bgmode= Flat;
if (quit) {
if (bgmode == Program && m_pProc)
m_pProc->kill();
return Done;
}
int retval = Done;
TQString file;
static unsigned int tileWidth = 0;
static unsigned int tileHeight = 0;
if( tileWidth == 0 )
{
int tile_val = TQPixmap::defaultDepth() >= 24 ? 1 : 2;
// some dithering may be needed even with bpb==15/16, so don't use tileWidth==1
// for them
// with tileWidth>2, repainting the desktop causes nasty effect (XFree86 4.1.0 )
if( XQueryBestTile( tqt_xdisplay(), tqt_xrootwin(), tile_val, tile_val,
&tileWidth, &tileHeight ) != Success )
tileWidth = tileHeight = tile_val; // some defaults
}
switch (bgmode) {
case Flat:
// this can be tiled correctly without problems
m_Background.create( tileWidth, tileHeight, 32);
m_Background.fill(colorA().rgb());
break;
case Pattern:
{
if (pattern().isEmpty())
break;
file = m_pDirs->findResource("dtop_pattern", pattern());
if (file.isEmpty())
break;
m_Background.load(file);
if (m_Background.isNull())
break;
int w = m_Background.width();
int h = m_Background.height();
if ((w > m_Size.width()) || (h > m_Size.height())) {
w = TQMIN(w, m_Size.width());
h = TQMIN(h, m_Size.height());
m_Background = m_Background.copy(0, 0, w, h);
}
KImageEffect::flatten(m_Background, colorA(), colorB(), 0);
break;
}
case Program:
if (m_State & BackgroundStarted)
break;
m_State |= BackgroundStarted;
createTempFile();
file = buildCommand();
if (file.isEmpty())
break;
delete m_pProc;
m_pProc = new KShellProcess;
*m_pProc << file;
connect(m_pProc, TQT_SIGNAL(processExited(TDEProcess *)),
TQT_SLOT(slotBackgroundDone(TDEProcess *)));
m_pProc->start(KShellProcess::NotifyOnExit);
retval = Wait;
break;
case HorizontalGradient:
{
TQSize size = m_Size;
// on <16bpp displays the gradient sucks when tiled because of dithering
if( canTile())
size.setHeight( tileHeight );
m_Background = KImageEffect::gradient(size, colorA(), colorB(),
KImageEffect::HorizontalGradient, 0);
break;
}
case VerticalGradient:
{
TQSize size = m_Size;
// on <16bpp displays the gradient sucks when tiled because of dithering
if( canTile())
size.setWidth( tileWidth );
m_Background = KImageEffect::gradient(size, colorA(), colorB(),
KImageEffect::VerticalGradient, 0);
break;
}
case PyramidGradient:
m_Background = KImageEffect::gradient(m_Size, colorA(), colorB(),
KImageEffect::PyramidGradient, 0);
break;
case PipeCrossGradient:
m_Background = KImageEffect::gradient(m_Size, colorA(), colorB(),
KImageEffect::PipeCrossGradient, 0);
break;
case EllipticGradient:
m_Background = KImageEffect::gradient(m_Size, colorA(), colorB(),
KImageEffect::EllipticGradient, 0);
break;
}
if (retval == Done)
m_State |= BackgroundDone;
return retval;
}
int KBackgroundRenderer::doWallpaper(bool quit)
{
if (m_State & WallpaperDone)
return Done;
if (quit)
// currently no asynch. wallpapers
return Done;
int wpmode= enabled()?wallpaperMode():NoWallpaper;
m_Wallpaper = TQImage();
if (wpmode != NoWallpaper) {
wp_load:
if (currentWallpaper().isEmpty()) {
wpmode = NoWallpaper;
goto wp_out;
}
TQString file = m_pDirs->findResource("wallpaper", currentWallpaper());
if (file.isEmpty()) {
wpmode = NoWallpaper;
goto wp_out;
}
// _Don't_ use KMimeType, as it relies on tdesycoca which we really
// don't want in krootimage (tdm context).
//if ( KMimeType::findByPath( file )->is( "image/svg+xml" ) ) {
if (file.endsWith(".svg") || file.endsWith(".svgz")) {
#ifdef HAVE_LIBART
// Special stuff for SVG icons
KSVGIconEngine* svgEngine = new KSVGIconEngine();
//FIXME
//ksvgiconloader doesn't seem to let us find out the
//ratio of width to height so for the most part we just
//assume it's a square
int svgWidth;
int svgHeight;
switch (wpmode)
{
case Centred:
case CentredAutoFit:
svgHeight = (int)(m_Size.height() * 0.8);
svgWidth = svgHeight;
break;
case Tiled:
case CenterTiled:
svgHeight = (int)(m_Size.height() * 0.5);
svgWidth = svgHeight;
break;
case Scaled:
svgHeight = m_Size.height();
svgWidth = m_Size.width();
break;
case CentredMaxpect:
case ScaleAndCrop:
case TiledMaxpect:
svgHeight = m_Size.height();
svgWidth = svgHeight;
break;
case NoWallpaper:
default:
kdWarning() << k_funcinfo << "unknown diagram type" << endl;
svgHeight = m_Size.height();
svgWidth = svgHeight;
break;
}
//FIXME hack due to strangeness with
//background control modules
if ( svgHeight < 200 ) {
svgHeight *= 6;
svgWidth *= 6;
}
if (svgEngine->load(svgWidth, svgHeight, file )) {
TQImage *image = svgEngine->image();
m_Wallpaper = *image;
delete image;
} else {
kdWarning() << "failed to load SVG file " << file << endl;
}
delete svgEngine;
#else //not libart
kdWarning() << k_funcinfo
<< "tried to load SVG file but libart not installed" << endl;
#endif
} else {
m_Wallpaper.load(file);
}
if (m_Wallpaper.isNull()) {
if (discardCurrentWallpaper())
goto wp_load;
wpmode = NoWallpaper;
goto wp_out;
}
m_Wallpaper = m_Wallpaper.convertDepth(32, Qt::DiffuseAlphaDither);
// If we're previewing, scale the wallpaper down to make the preview
// look more like the real desktop.
if (m_bPreview) {
int xs = m_Wallpaper.width() * m_Size.width() / m_rSize.width();
int ys = m_Wallpaper.height() * m_Size.height() / m_rSize.height();
if ((xs < 1) || (ys < 1))
{
xs = ys = 1;
}
if( m_Wallpaper.size() != TQSize( xs, ys ))
m_Wallpaper = m_Wallpaper.smoothScale(xs, ys);
}
// HACK: Use KFileMetaInfo only when we're attached to DCOP.
// KFileMetaInfo needs tdesycoca and so on, but this code is
// used also in krootimage (which in turn is used by tdm).
if( kapp->dcopClient()->isAttached()) {
KFileMetaInfo metaInfo(file);
if (metaInfo.isValid() && metaInfo.item("Orientation").isValid()) {
switch (metaInfo.item("Orientation").string().toInt()) {
case 2:
// Flipped horizontally
m_Wallpaper = m_Wallpaper.mirror(true, false);
break;
case 3:
// Rotated 180 degrees
m_Wallpaper = KImageEffect::rotate(m_Wallpaper, KImageEffect::Rotate180);
break;
case 4:
// Flipped vertically
m_Wallpaper = m_Wallpaper.mirror(false, true);
break;
case 5:
// Rotated 90 degrees & flipped horizontally
m_Wallpaper = KImageEffect::rotate(m_Wallpaper, KImageEffect::Rotate90).mirror(true, false);
break;
case 6:
// Rotated 90 degrees
m_Wallpaper = KImageEffect::rotate(m_Wallpaper, KImageEffect::Rotate90);
break;
case 7:
// Rotated 90 degrees & flipped vertically
m_Wallpaper = KImageEffect::rotate(m_Wallpaper, KImageEffect::Rotate90).mirror(false, true);
break;
case 8:
// Rotated 270 degrees
m_Wallpaper = KImageEffect::rotate(m_Wallpaper, KImageEffect::Rotate270);
break;
case 1:
default:
// Normal or invalid orientation
break;
}
}
}
}
wp_out:
if (m_Background.isNull()) {
m_Background.create(8, 8, 32);
m_Background.fill(colorA().rgb());
}
int retval = Done;
int w = m_Size.width(); // desktop width/height
int h = m_Size.height();
int ww = m_Wallpaper.width(); // wallpaper width/height
int wh = m_Wallpaper.height();
m_WallpaperRect = TQRect(); // to be filled destination rectangle; may exceed desktop!
switch (wpmode)
{
case NoWallpaper:
break;
case Centred:
m_WallpaperRect.setRect((w - ww) / 2, (h - wh) / 2, ww, wh);
break;
case Tiled:
m_WallpaperRect.setRect(0, 0, w, h);
break;
case CenterTiled:
m_WallpaperRect.setCoords(-ww + ((w - ww) / 2) % ww, -wh + ((h - wh) / 2) % wh, w-1, h-1);
break;
case Scaled:
ww = w;
wh = h;
if( m_WallpaperRect.size() != TQSize( w, h ))
m_Wallpaper = m_Wallpaper.smoothScale( w, h );
m_WallpaperRect.setRect(0, 0, w, h);
break;
case CentredAutoFit:
if( ww <= w && wh <= h ) {
m_WallpaperRect.setRect((w - ww) / 2, (h - wh) / 2, ww, wh); // like Centred
break;
}
// fall through
case CentredMaxpect:
{
double sx = (double) w / ww;
double sy = (double) h / wh;
if (sx > sy) {
ww = (int)(sy * ww);
wh = h;
} else {
wh = (int)(sx * wh);
ww = w;
}
if( m_WallpaperRect.size() != TQSize( ww, wh ))
m_Wallpaper = m_Wallpaper.smoothScale(ww, wh);
m_WallpaperRect.setRect((w - ww) / 2, (h - wh) / 2, ww, wh);
break;
}
case TiledMaxpect:
{
double sx = (double) w / ww;
double sy = (double) h / wh;
if (sx > sy) {
ww = (int)(sy * ww);
wh = h;
} else {
wh = (int)(sx * wh);
ww = w;
}
if( m_WallpaperRect.size() != TQSize( ww, wh ))
m_Wallpaper = m_Wallpaper.smoothScale(ww, wh);
m_WallpaperRect.setRect(0, 0, w, h);
break;
}
case ScaleAndCrop:
{
double sx = (double) w / ww;
double sy = (double) h / wh;
if (sx > sy) {
//Case 1: x needs bigger scaling. Lets increase x and leave part of y offscreen
ww = w;
wh=(int)(sx * wh);
} else {
//Case 2: y needs bigger scaling. Lets increase y and leave part of x offscreen
wh = h;
ww = (int)(sy*ww);
}
if( m_WallpaperRect.size() != TQSize( ww, wh ))
m_Wallpaper = m_Wallpaper.smoothScale(ww, wh);
m_WallpaperRect.setRect((w - ww) / 2, (h - wh) / 2,w, h);
break;
}
}
wallpaperBlend();
if (retval == Done)
m_State |= WallpaperDone;
return retval;
}
bool KBackgroundRenderer::canTile() const
{
return m_TilingEnabled && optimize();
}
extern bool tqt_use_xrender; // in Qt ( qapplication_x11.cpp )
void KBackgroundRenderer::wallpaperBlend()
{
if( !enabled() || wallpaperMode() == NoWallpaper
|| (blendMode() == NoBlending && ( tqt_use_xrender || !m_Wallpaper.hasAlphaBuffer()))) {
fastWallpaperBlend();
}
else {
fullWallpaperBlend();
}
}
// works only for NoBlending and no alpha in wallpaper
// but is much faster than TQImage fidling
void KBackgroundRenderer::fastWallpaperBlend()
{
m_Image = TQImage();
// copy background to m_pPixmap
if( !enabled() || (wallpaperMode() == NoWallpaper && canTile())) {
// if there's no wallpaper, no need to tile the pixmap to the size of desktop, as X does
// that automatically and using a smaller pixmap should save some memory
m_Pixmap.convertFromImage( m_Background );
return;
}
else if( wallpaperMode() == Tiled && !m_Wallpaper.hasAlphaBuffer() && canTile() && !m_bPreview ) {
// tiles will be tiled by X automatically
if( useShm()) {
KPixmapIO io;
m_Pixmap = io.convertToPixmap( m_Wallpaper );
}
else
m_Pixmap.convertFromImage( m_Wallpaper );
return;
}
else if( m_WallpaperRect.contains( TQRect( TQPoint( 0, 0 ), m_Size ))
&& !m_Wallpaper.hasAlphaBuffer()) // wallpaper covers all and no blending
m_Pixmap = TQPixmap( m_Size );
else if (m_Background.size() == m_Size)
m_Pixmap.convertFromImage( m_Background );
else {
m_Pixmap = TQPixmap( m_Size );
TQPainter p( &m_Pixmap );
TQPixmap pm;
pm.convertFromImage( m_Background );
p.drawTiledPixmap( 0, 0, m_Size.width(), m_Size.height(), pm );
}
// paint/alpha-blend wallpaper to destination rectangle of m_pPixmap
if (m_WallpaperRect.isValid()) {
TQPixmap wp_pixmap;
if( useShm() && !m_Wallpaper.hasAlphaBuffer()) {
KPixmapIO io;
wp_pixmap = io.convertToPixmap( m_Wallpaper );
}
else
wp_pixmap.convertFromImage( m_Wallpaper );
int ww = m_Wallpaper.width();
int wh = m_Wallpaper.height();
for (int y = m_WallpaperRect.top(); y < m_WallpaperRect.bottom(); y += wh) {
for (int x = m_WallpaperRect.left(); x < m_WallpaperRect.right(); x += ww) {
bitBlt( &m_Pixmap, x, y, &wp_pixmap, 0, 0, ww, wh );
}
}
}
}
void KBackgroundRenderer::fullWallpaperBlend()
{
m_Pixmap = TQPixmap();
int w = m_Size.width(); // desktop width/height
int h = m_Size.height();
// copy background to m_pImage
if (m_Background.size() == m_Size) {
m_Image = m_Background.copy();
if (m_Image.depth() < 32)
m_Image = m_Image.convertDepth(32, Qt::DiffuseAlphaDither);
} else {
m_Image.create(w, h, 32);
tile(m_Image, TQRect(0, 0, w, h), m_Background);
}
// blend wallpaper to destination rectangle of m_pImage
if (m_WallpaperRect.isValid())
{
int blendFactor = 100;
if (blendMode() == FlatBlending)
blendFactor = (blendBalance()+200)/4;
int ww = m_Wallpaper.width();
int wh = m_Wallpaper.height();
for (int y = m_WallpaperRect.top(); y < m_WallpaperRect.bottom(); y += wh) {
for (int x = m_WallpaperRect.left(); x < m_WallpaperRect.right(); x += ww) {
blend(m_Image, TQRect(x, y, ww, wh), m_Wallpaper,
TQPoint(-TQMIN(x, 0), -TQMIN(y, 0)), blendFactor);
}
}
}
// blend whole desktop
if ( wallpaperMode() != NoWallpaper) {
int bal = blendBalance();
switch( blendMode() ) {
case HorizontalBlending:
KImageEffect::blend( m_Image, m_Background,
KImageEffect::HorizontalGradient,
bal, 100 );
break;
case VerticalBlending:
KImageEffect::blend( m_Image, m_Background,
KImageEffect::VerticalGradient,
100, bal );
break;
case PyramidBlending:
KImageEffect::blend( m_Image, m_Background,
KImageEffect::PyramidGradient,
bal, bal );
break;
case PipeCrossBlending:
KImageEffect::blend( m_Image, m_Background,
KImageEffect::PipeCrossGradient,
bal, bal );
break;
case EllipticBlending:
KImageEffect::blend( m_Image, m_Background,
KImageEffect::EllipticGradient,
bal, bal );
break;
case IntensityBlending:
KImageEffect::modulate( m_Image, m_Background, reverseBlending(),
KImageEffect::Intensity, bal, KImageEffect::All );
break;
case SaturateBlending:
KImageEffect::modulate( m_Image, m_Background, reverseBlending(),
KImageEffect::Saturation, bal, KImageEffect::Gray );
break;
case ContrastBlending:
KImageEffect::modulate( m_Image, m_Background, reverseBlending(),
KImageEffect::Contrast, bal, KImageEffect::All );
break;
case HueShiftBlending:
KImageEffect::modulate( m_Image, m_Background, reverseBlending(),
KImageEffect::HueShift, bal, KImageEffect::Gray );
break;
case FlatBlending:
// Already handled
break;
}
}
}
/* Alpha blend an area from <src> with offset <soffs> to rectangle <dr> of <dst>
* Default offset is TQPoint(0, 0).
* blendfactor = [0, 100%]
*/
void KBackgroundRenderer::blend(TQImage& dst, TQRect dr, const TQImage& src, TQPoint soffs, int blendFactor)
{
int x, y, a;
dr &= dst.rect();
for (y = 0; y < dr.height(); y++) {
if (dst.scanLine(dr.y() + y) && src.scanLine(soffs.y() + y)) {
TQRgb *b, *d;
for (x = 0; x < dr.width(); x++) {
b = reinterpret_cast<TQRgb*>(dst.scanLine(dr.y() + y)
+ (dr.x() + x) * sizeof(TQRgb));
d = reinterpret_cast<TQRgb*>(const_cast<TQImage&>(src).scanLine(soffs.y() + y)
+ (soffs.x() + x) * sizeof(TQRgb));
a = (tqAlpha(*d) * blendFactor) / 100;
*b = tqRgb(tqRed(*b) - (((tqRed(*b) - tqRed(*d)) * a) >> 8),
tqGreen(*b) - (((tqGreen(*b) - tqGreen(*d)) * a) >> 8),
tqBlue(*b) - (((tqBlue(*b) - tqBlue(*d)) * a) >> 8));
}
}
}
}
void KBackgroundRenderer::slotBackgroundDone(TDEProcess *process)
{
Q_ASSERT(process == m_pProc);
m_State |= BackgroundDone;
if (m_pProc->normalExit() && !m_pProc->exitStatus()) {
m_Background.load(m_Tempfile->name());
m_State |= BackgroundDone;
}
m_Tempfile->unlink();
delete m_Tempfile; m_Tempfile = 0;
m_pTimer->start(0, true);
setBusyCursor(false);
}
/*
* Starts the rendering process.
*/
void KBackgroundRenderer::start(bool enableBusyCursor)
{
m_enableBusyCursor = enableBusyCursor;
setBusyCursor(true);
m_Cached = false;
m_State = Rendering;
m_pTimer->start(0, true);
}
/*
* This slot is connected to a timer event. It is called repeatedly until
* the rendering is done.
*/
void KBackgroundRenderer::render()
{
setBusyCursor(true);
if (!(m_State & Rendering))
return;
if( !(m_State & InitCheck)) {
TQString f = cacheFileName();
if( useCacheFile()) {
TQString w = m_pDirs->findResource("wallpaper", currentWallpaper());
TQFileInfo wi( w );
TQFileInfo fi( f );
if( wi.lastModified().isValid() && fi.lastModified().isValid()
&& wi.lastModified() < fi.lastModified()) {
TQImage im;
if( im.load( f, "PNG" )) {
m_Image = im;
m_Pixmap = TQPixmap( m_Size );
m_Pixmap.convertFromImage( m_Image );
m_Cached = true;
m_State |= InitCheck | BackgroundDone | WallpaperDone;
}
}
}
m_pTimer->start(0, true);
m_State |= InitCheck;
return;
}
int ret;
if (!(m_State & BackgroundDone)) {
ret = doBackground();
if (ret != Wait)
m_pTimer->start(0, true);
return;
}
// No async wallpaper
doWallpaper();
done();
setBusyCursor(false);
}
/*
* Rendering is finished.
*/
void KBackgroundRenderer::done()
{
setBusyCursor(false);
m_State |= AllDone;
emit imageDone(desk(), screen());
if(backgroundMode() == Program && m_pProc &&
m_pProc->normalExit() && m_pProc->exitStatus()) {
emit programFailure(desk(), m_pProc->exitStatus());
} else if(backgroundMode() == Program && m_pProc &&
!m_pProc->normalExit()) {
emit programFailure(desk(), -1);
} else if(backgroundMode() == Program) {
emit programSuccess(desk());
}
}
/*
* This function toggles a busy cursor on and off, for use in rendering.
* It is useful because of the ASYNC nature of the rendering - it is hard
* to make sure we don't set the busy cursor twice, but only restore
* once.
*/
void KBackgroundRenderer::setBusyCursor(bool isBusy) {
if(m_isBusyCursor == isBusy)
return;
if (isBusy && !m_enableBusyCursor)
return;
m_isBusyCursor = isBusy;
if(isBusy)
TQApplication::setOverrideCursor( KCursor::workingCursor() );
else
TQApplication::restoreOverrideCursor();
}
/*
* Stop the rendering.
*/
void KBackgroundRenderer::stop()
{
if (!(m_State & Rendering))
return;
doBackground(true);
doWallpaper(true);
m_State = 0;
}
/*
* Cleanup after rendering.
*/
void KBackgroundRenderer::cleanup()
{
setBusyCursor(false);
m_Background = TQImage();
m_Image = TQImage();
m_Pixmap = TQPixmap();
m_Wallpaper = TQImage();
delete m_pProc; m_pProc = 0L;
m_State = 0;
m_WallpaperRect = TQRect();
m_Cached = false;
}
void KBackgroundRenderer::setPreview(const TQSize &size)
{
if (size.isNull())
m_bPreview = false;
else {
m_bPreview = true;
m_Size = size;
}
}
TQPixmap KBackgroundRenderer::pixmap()
{
if (m_State & AllDone) {
if( m_Pixmap.isNull())
m_Pixmap.convertFromImage( m_Image );
return m_Pixmap;
}
return TQPixmap();
}
TQImage KBackgroundRenderer::image()
{
if (m_State & AllDone) {
if( m_Image.isNull())
fullWallpaperBlend(); // create from m_Pixmap
return m_Image;
}
return TQImage();
}
void KBackgroundRenderer::load(int desk, int screen, bool drawBackgroundPerScreen, bool reparseConfig)
{
if (m_State & Rendering)
stop();
cleanup();
m_bPreview = false;
m_Size = m_rSize;
KBackgroundSettings::load(desk, screen, drawBackgroundPerScreen, reparseConfig);
}
void KBackgroundRenderer::createTempFile()
{
if( !m_Tempfile )
m_Tempfile = new KTempFile();
}
TQString KBackgroundRenderer::cacheFileName()
{
TQString f = fingerprint();
f.replace ( ':', '_' ); // avoid characters that shouldn't be in filenames
f.replace ( '/', '#' );
f = locateLocal( "cache", TQString( "background/%1x%2_%3.png" )
.arg( m_Size.width()).arg( m_Size.height()).arg( f ));
return f;
}
bool KBackgroundRenderer::useCacheFile() const
{
if( !enabled())
return false;
if( backgroundMode() == Program )
return false; // don't cache these at all
if( wallpaperMode() == NoWallpaper )
return false; // generating only background patterns should be always faster
TQString file = currentWallpaper();
if( file.endsWith(".svg") || file.endsWith(".svgz"))
return true; // cache these, they can be bloody slow
switch( backgroundMode())
{
case NoWallpaper:
case Centred:
case Tiled:
case CenterTiled:
return false; // these don't need scaling
case CentredMaxpect:
case TiledMaxpect:
case Scaled:
case CentredAutoFit:
case ScaleAndCrop:
default:
return true;
}
}
void KBackgroundRenderer::saveCacheFile()
{
if( !( m_State & AllDone ))
return;
if( !useCacheFile())
return;
if( m_Image.isNull())
fullWallpaperBlend(); // generate from m_Pixmap
TQString f = cacheFileName();
if( TDEStandardDirs::exists( f ) || m_Cached )
utime( TQFile::encodeName( f ), NULL );
else {
m_Image.save( f, "PNG" );
// remove old entries from the cache
TQDir dir( locateLocal( "cache", "background/" ));
if( const TQFileInfoList* list = dir.entryInfoList( "*.png", TQDir::Files, TQDir::Time | TQDir::Reversed )) {
int size = 0;
for( TQFileInfoListIterator it( *list );
TQFileInfo* info = it.current();
++it )
size += info->size();
for( TQFileInfoListIterator it( *list );
TQFileInfo* info = it.current();
++it ) {
if( size < 8 * 1024 * 1024 )
break;
// keep everything newer than 10 minutes if the total size is less than 50M (just in case)
if( size < 50 * 1024 * 1024
&& ( time_t ) info->lastModified().toTime_t() >= time( NULL ) - 10 * 60 )
break;
size -= info->size();
TQFile::remove( info->absFilePath());
}
}
}
}
//BEGIN class KVirtualBGRenderer
KVirtualBGRenderer::KVirtualBGRenderer( int desk, TDEConfig *config )
{
m_pPixmap = 0l;
m_desk = desk;
m_numRenderers = 0;
m_scaleX = 1;
m_scaleY = 1;
// The following code is borrowed from KBackgroundSettings::KBackgroundSettings
if (!config) {
int screen_number = 0;
if (tqt_xdisplay())
screen_number = DefaultScreen(tqt_xdisplay());
TQCString configname;
if (screen_number == 0)
configname = "kdesktoprc";
else
configname.sprintf("kdesktop-screen-%drc", screen_number);
m_pConfig = new TDEConfig(configname, false, false);
m_bDeleteConfig = true;
} else {
m_pConfig = config;
m_bDeleteConfig = false;
}
initRenderers();
m_size = TDEApplication::desktop()->geometry().size();
}
KVirtualBGRenderer::~KVirtualBGRenderer()
{
for (unsigned i=0; i<m_numRenderers; ++i)
delete m_renderer[i];
delete m_pPixmap;
if (m_bDeleteConfig)
delete m_pConfig;
}
KCrossBGRender * KVirtualBGRenderer::renderer(unsigned screen)
{
return m_renderer[screen];
}
TQPixmap KVirtualBGRenderer::pixmap()
{
if (m_numRenderers == 1)
return m_renderer[0]->pixmap();
return *m_pPixmap;
}
bool KVirtualBGRenderer::needProgramUpdate()
{
for (unsigned i=0; i<m_numRenderers; ++i)
{
if ( m_renderer[i]->backgroundMode() == KBackgroundSettings::Program &&
m_renderer[i]->KBackgroundProgram::needUpdate() )
return true;
}
return false;
}
void KVirtualBGRenderer::programUpdate()
{
for (unsigned i=0; i<m_numRenderers; ++i)
{
if ( m_renderer[i]->backgroundMode() == KBackgroundSettings::Program &&
m_renderer[i]->KBackgroundProgram::needUpdate() )
{
m_renderer[i]->KBackgroundProgram::update();
}
}
}
bool KVirtualBGRenderer::needWallpaperChange()
{
for (unsigned i=0; i<m_numRenderers; ++i)
{
if ( m_renderer[i]->needWallpaperChange() )
return true;
}
return false;
}
void KVirtualBGRenderer::changeWallpaper()
{
for (unsigned i=0; i<m_numRenderers; ++i)
{
m_renderer[i]->changeWallpaper();
}
}
int KVirtualBGRenderer::hash()
{
TQString fp;
for (unsigned i=0; i<m_numRenderers; ++i)
{
fp += m_renderer[i]->fingerprint();
}
//kdDebug() << k_funcinfo << " fp=\""<<fp<<"\" h="<<QHash(fp)<<endl;
return TQHash(fp);
}
bool KVirtualBGRenderer::isActive()
{
for (unsigned i=0; i<m_numRenderers; ++i)
{
if ( m_renderer[i]->isActive() )
return true;
}
return false;
}
void KVirtualBGRenderer::setEnabled(bool enable)
{
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->setEnabled(enable);
}
void KVirtualBGRenderer::desktopResized()
{
m_size = TDEApplication::desktop()->geometry().size();
if (m_pPixmap)
{
delete m_pPixmap;
m_pPixmap = new TQPixmap(m_size);
m_pPixmap->fill(Qt::black);
}
initRenderers();
}
void KVirtualBGRenderer::setPreview(const TQSize & size)
{
if (m_size == size)
return;
m_size = size;
if (m_pPixmap)
m_pPixmap->resize(m_size);
// Scaling factors
m_scaleX = float(m_size.width()) / float(TQApplication::desktop()->size().width());
m_scaleY = float(m_size.height()) / float(TQApplication::desktop()->size().height());
// Scale renderers appropriately
for (unsigned i=0; i<m_renderer.size(); ++i)
{
TQSize unscaledRendererSize = renderSize(i);
m_renderer[i]->setPreview( TQSize(
int(unscaledRendererSize.width() * m_scaleX),
int(unscaledRendererSize.height() * m_scaleY) ) );
}
}
TQSize KVirtualBGRenderer::renderSize(int screen)
{
return m_bDrawBackgroundPerScreen ? TDEApplication::desktop()->screenGeometry(screen).size() : TDEApplication::desktop()->geometry().size();
}
void KVirtualBGRenderer::initRenderers()
{
m_pConfig->setGroup("Background Common");
m_bDrawBackgroundPerScreen = m_pConfig->readBoolEntry( TQString("DrawBackgroundPerScreen_%1").arg(m_desk), _defDrawBackgroundPerScreen );
m_bCommonScreen = m_pConfig->readBoolEntry("CommonScreen", _defCommonScreen);
m_numRenderers = m_bDrawBackgroundPerScreen ? TDEApplication::desktop()->numScreens() : 1;
m_bFinished.resize(m_numRenderers);
m_bFinished.fill(false);
if (m_numRenderers == m_renderer.size())
return;
for (unsigned i=0; i<m_renderer.size(); ++i)
delete m_renderer[i];
m_renderer.resize(m_numRenderers);
for (unsigned i=0; i<m_numRenderers; ++i)
{
int eScreen = m_bCommonScreen ? 0 : i;
KCrossBGRender *r = new KCrossBGRender(m_desk, eScreen, m_bDrawBackgroundPerScreen, m_pConfig);
m_renderer.insert( i, r );
r->setSize(renderSize(i));
connect( r, TQT_SIGNAL(imageDone(int,int)), this, TQT_SLOT(screenDone(int,int)) );
}
}
void KVirtualBGRenderer::load(int desk, bool reparseConfig)
{
m_desk = desk;
m_pConfig->setGroup("Background Common");
m_bCommonScreen = m_pConfig->readBoolEntry("CommonScreen", _defCommonScreen);
initRenderers();
for (unsigned i=0; i<m_numRenderers; ++i)
{
unsigned eScreen = m_bCommonScreen ? 0 : i;
m_renderer[i]->load(desk, eScreen, m_bDrawBackgroundPerScreen, reparseConfig);
}
}
void KVirtualBGRenderer::screenDone(int _desk, int _screen)
{
Q_UNUSED(_desk);
Q_UNUSED(_screen);
const KCrossBGRender * sender = dynamic_cast<const KCrossBGRender*>(this->sender());
int screen = m_renderer.find(sender);
if (screen == -1)
//??
return;
m_bFinished[screen] = true;
if (m_pPixmap)
{
// There's more than one renderer, so we are drawing each output to our own pixmap
TQRect overallGeometry;
for (int i=0; i < TDEApplication::desktop()->numScreens(); ++i) {
overallGeometry |= TDEApplication::desktop()->screenGeometry(i);
}
TQPoint drawPos = TDEApplication::desktop()->screenGeometry(screen).topLeft() - overallGeometry.topLeft();
drawPos.setX( int(drawPos.x() * m_scaleX) );
drawPos.setY( int(drawPos.y() * m_scaleY) );
TQPixmap source = m_renderer[screen]->pixmap();
TQSize renderSize = this->renderSize(screen);
renderSize.setWidth( int(renderSize.width() * m_scaleX) );
renderSize.setHeight( int(renderSize.height() * m_scaleY) );
TQPainter p(m_pPixmap);
if (renderSize == source.size())
p.drawPixmap( drawPos, source );
else
p.drawTiledPixmap( drawPos.x(), drawPos.y(), renderSize.width(), renderSize.height(), source );
p.end();
}
for (unsigned i=0; i<m_bFinished.size(); ++i)
{
if (!m_bFinished[i])
return;
}
emit imageDone(m_desk);
}
void KVirtualBGRenderer::start()
{
if (m_pPixmap)
{
delete m_pPixmap;
m_pPixmap = 0l;
}
if (m_numRenderers > 1)
{
m_pPixmap = new TQPixmap(m_size);
// If are screen sizes do not properly tile the overall virtual screen
// size, then we want the untiled parts to be black for use in desktop
// previews, etc
m_pPixmap->fill(Qt::black);
}
m_bFinished.fill(false);
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->start();
}
void KVirtualBGRenderer::stop()
{
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->stop();
}
void KVirtualBGRenderer::cleanup()
{
m_bFinished.fill(false);
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->cleanup();
delete m_pPixmap;
m_pPixmap = 0l;
}
void KVirtualBGRenderer::saveCacheFile()
{
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->saveCacheFile();
}
void KVirtualBGRenderer::enableTiling( bool enable )
{
for (unsigned i=0; i<m_numRenderers; ++i)
m_renderer[i]->enableTiling( enable );
}
//END class KVirtualBGRenderer
#include "bgrender.moc"