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/*
Gwenview - A simple image viewer for TDE
Copyright 2000-2004 Aur�lien G�teau
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "imageloader.h"
#include <assert.h>
// TQt
#include <tqtimer.h>
#include <tqwmatrix.h>
// KDE
#include <tdeapplication.h>
#include <kimageio.h>
#include <kmimetype.h>
// Local
#include "cache.h"
#include "miscconfig.h"
#include "imageutils/imageutils.h"
#include "imageutils/jpegcontent.h"
#include "imageloader.moc"
namespace Gwenview {
const unsigned int DECODE_CHUNK_SIZE=4096;
/** Interval between image updates, in milli seconds */
const int IMAGE_UPDATE_INTERVAL=100;
#undef ENABLE_LOG
#undef LOG
#undef LOG2
#define ENABLE_LOG 0
#if ENABLE_LOG >= 1
#define LOG(x) kdDebug() << k_funcinfo << x << endl
#else
#define LOG(x) ;
#endif
#if ENABLE_LOG >= 2
#define LOG2(x) kdDebug() << k_funcinfo << x << endl
#else
#define LOG2(x) ;
#endif
static TQMap< KURL, ImageLoader* > sLoaders;
//---------------------------------------------------------------------
//
// CancellableBuffer
// This class acts like TQBuffer, but will simulates a truncated file if the
// TSThread which was passed to its constructor has been asked for cancellation
//
//---------------------------------------------------------------------
class CancellableBuffer : public TQBuffer {
public:
CancellableBuffer(TQByteArray buffer, TSThread* thread)
: TQBuffer(buffer), mThread(thread) {}
bool atEnd() const {
if (mThread->testCancel()) {
LOG("cancel detected");
return true;
}
return TQBuffer::atEnd();
}
TQ_LONG readBlock(char * data, TQ_ULONG maxlen) {
if (mThread->testCancel()) {
LOG("cancel detected");
return 0;
}
return TQBuffer::readBlock(data, maxlen);
}
TQ_LONG readLine(char * data, TQ_ULONG maxlen) {
if (mThread->testCancel()) {
LOG("cancel detected");
return 0;
}
return TQBuffer::readLine(data, maxlen);
}
TQByteArray readAll() {
if (mThread->testCancel()) {
LOG("cancel detected");
return TQByteArray();
}
return TQBuffer::readAll();
}
int getch() {
if (mThread->testCancel()) {
LOG("cancel detected");
setStatus(IO_ReadError);
return -1;
}
return TQBuffer::getch();
}
private:
TSThread* mThread;
};
//---------------------------------------------------------------------
//
// DecoderThread
//
//---------------------------------------------------------------------
void DecoderThread::run() {
TQMutexLocker locker(&mMutex);
LOG("");
// This block makes sure imageIO won't access the image after the signal
// has been posted
{
TQImageIO imageIO;
CancellableBuffer buffer(mRawData, this);
buffer.open(IO_ReadOnly);
imageIO.setIODevice(&buffer);
bool ok=imageIO.read();
if (testCancel()) {
LOG("cancelled");
return;
}
if (!ok) {
LOG("failed");
postSignal( this, TQ_SIGNAL(failed()) );
return;
}
LOG("succeeded");
mImage=imageIO.image();
}
LOG("succeeded, emitting signal");
postSignal( this, TQ_SIGNAL(succeeded()) );
}
void DecoderThread::setRawData(const TQByteArray& data) {
TQMutexLocker locker(&mMutex);
mRawData=data.copy();
}
TQImage DecoderThread::popLoadedImage() {
TQMutexLocker locker(&mMutex);
TQImage img=mImage;
mImage=TQImage();
return img;
}
//---------------------------------------------------------------------
//
// ImageLoaderPrivate
//
//---------------------------------------------------------------------
struct OwnerData {
const TQObject* owner;
BusyLevel priority;
};
enum GetState {
GET_PENDING_STAT, // Stat has not been started
GET_STATING, // Stat has been started
GET_PENDING_GET, // Stat is done, get has not been started
GET_GETTING, // Get has been started
GET_DONE, // All data has been received
};
enum DecodeState {
DECODE_WAITING, // No data to decode yet
DECODE_PENDING_THREADED_DECODING, // Waiting for all data to start threaded decoding
DECODE_THREADED_DECODING, // Threaded decoder is running
DECODE_INCREMENTAL_DECODING, // Incremental decoder is running
DECODE_INCREMENTAL_DECODING_DONE, // Incremental decoder is done
DECODE_CACHED, // Image has been obtained from cache, but raw data was missing. Wait for get to finish.
DECODE_DONE, // All done
};
class ImageLoaderPrivate {
public:
ImageLoaderPrivate(ImageLoader* impl)
: mDecodedSize(0)
, mGetState(GET_PENDING_STAT)
, mDecodeState(DECODE_WAITING)
, mDecoder(impl)
, mSuspended(false)
, mNextFrameDelay(0)
, mWasFrameData(false)
, mOrientation(ImageUtils::NOT_AVAILABLE)
, mURLKind(MimeTypeUtils::KIND_UNKNOWN)
{}
// How many of the raw data we have already decoded
unsigned int mDecodedSize;
GetState mGetState;
DecodeState mDecodeState;
KURL mURL;
// The file timestamp
TQDateTime mTimestamp;
// The raw data we get
TQByteArray mRawData;
// The async decoder and it's waking timer
TQImageDecoder mDecoder;
TQTimer mDecoderTimer;
// The decoder thread
DecoderThread mDecoderThread;
// A rect of recently loaded pixels that the rest of the application has
// not been notified about with the imageChanged() signal
TQRect mLoadChangedRect;
// The time since we last emitted the imageChanged() signal
TQTime mTimeSinceLastUpdate;
// Whether the loading should be suspended
bool mSuspended;
// Delay used for next frame after it's finished decoding.
int mNextFrameDelay;
bool mWasFrameData;
TQImage mProcessedImage; // image frame currently being decoded
TQRegion mLoadedRegion; // loaded parts of mProcessedImage
ImageFrames mFrames;
TQCString mImageFormat;
ImageUtils::Orientation mOrientation;
TQString mMimeType;
MimeTypeUtils::Kind mURLKind;
TQValueVector< OwnerData > mOwners; // loaders may be shared
void determineImageFormat() {
Q_ASSERT(mRawData.size()>0);
TQBuffer buffer(mRawData);
buffer.open(IO_ReadOnly);
mImageFormat = TQImageIO::imageFormat(&buffer);
}
};
//---------------------------------------------------------------------
//
// ImageLoader
//
//---------------------------------------------------------------------
ImageLoader::ImageLoader() {
LOG("");
d = new ImageLoaderPrivate(this);
connect( BusyLevelManager::instance(), TQ_SIGNAL( busyLevelChanged(BusyLevel)),
this, TQ_SLOT( slotBusyLevelChanged(BusyLevel)));
}
ImageLoader::~ImageLoader() {
LOG("");
if (d->mDecoderThread.running()) {
d->mDecoderThread.cancel();
d->mDecoderThread.wait();
}
delete d;
}
void ImageLoader::setURL( const KURL& url ) {
assert( d->mURL.isEmpty());
d->mURL = url;
}
void ImageLoader::startLoading() {
d->mTimestamp = Cache::instance()->timestamp( d->mURL );
slotBusyLevelChanged( BusyLevelManager::instance()->busyLevel());
connect(&d->mDecoderTimer, TQ_SIGNAL(timeout()), this, TQ_SLOT(decodeChunk()) );
connect(&d->mDecoderThread, TQ_SIGNAL(succeeded()),
this, TQ_SLOT(slotDecoderThreadSucceeded()) );
connect(&d->mDecoderThread, TQ_SIGNAL(failed()),
this, TQ_SLOT(slotDecoderThreadFailed()) );
checkPendingStat();
}
void ImageLoader::checkPendingStat() {
if( d->mSuspended || d->mGetState != GET_PENDING_STAT ) return;
TDEIO::Job* job=TDEIO::stat( d->mURL, false );
job->setWindow(TDEApplication::kApplication()->mainWidget());
connect(job, TQ_SIGNAL(result(TDEIO::Job*)),
this, TQ_SLOT(slotStatResult(TDEIO::Job*)) );
d->mGetState = GET_STATING;
}
void ImageLoader::slotStatResult(TDEIO::Job* job) {
LOG("error code: " << job->error());
// Get modification time of the original file
TDEIO::UDSEntry entry = static_cast<TDEIO::StatJob*>(job)->statResult();
TDEIO::UDSEntry::ConstIterator it= entry.begin();
TQDateTime urlTimestamp;
for (; it!=entry.end(); it++) {
if ((*it).m_uds == TDEIO::UDS_MODIFICATION_TIME) {
urlTimestamp.setTime_t( (*it).m_long );
break;
}
}
if( d->mTimestamp.isValid() && urlTimestamp == d->mTimestamp ) {
// We have the image in cache
LOG(d->mURL << ", We have the image in cache");
d->mRawData = Cache::instance()->file( d->mURL );
Cache::instance()->getFrames(d->mURL, &d->mFrames, &d->mImageFormat);
if( !d->mFrames.isEmpty()) {
LOG("The image in cache can be used");
d->mProcessedImage = d->mFrames[0].image;
emit sizeLoaded(d->mProcessedImage.width(), d->mProcessedImage.height());
emit imageChanged(d->mProcessedImage.rect());
if (d->mRawData.isNull() && d->mImageFormat=="JPEG") {
// Raw data is needed for JPEG, wait for it to be downloaded
LOG("Wait for raw data to be downloaded");
d->mDecodeState = DECODE_CACHED;
} else {
// We don't care about raw data
finish(true);
return;
}
} else {
// Image in cache is broken
LOG("The image in cache cannot be used");
if( !d->mRawData.isNull()) {
LOG("Using cached raw data");
// Raw data is ok, skip get step and decode it
d->mGetState = GET_DONE;
d->mTimeSinceLastUpdate.start();
d->mDecoderTimer.start(0, false);
return;
}
}
}
d->mTimestamp = urlTimestamp;
d->mRawData.resize(0);
d->mGetState = GET_PENDING_GET;
checkPendingGet();
}
void ImageLoader::checkPendingGet() {
if( d->mSuspended || d->mGetState != GET_PENDING_GET ) return;
// Start loading the image
TDEIO::Job* getJob=TDEIO::get( d->mURL, false, false);
getJob->setWindow(TDEApplication::kApplication()->mainWidget());
connect(getJob, TQ_SIGNAL(data(TDEIO::Job*, const TQByteArray&)),
this, TQ_SLOT(slotDataReceived(TDEIO::Job*, const TQByteArray&)) );
connect(getJob, TQ_SIGNAL(result(TDEIO::Job*)),
this, TQ_SLOT(slotGetResult(TDEIO::Job*)) );
d->mTimeSinceLastUpdate.start();
d->mGetState = GET_GETTING;
}
void ImageLoader::slotGetResult(TDEIO::Job* job) {
LOG("error code: " << job->error());
if( job->error() != 0 ) {
// failed
finish( false );
return;
}
d->mGetState = GET_DONE;
// Store raw data in cache
// Note: Cache will give high cost to non-JPEG raw data.
Cache::instance()->addFile( d->mURL, d->mRawData, d->mTimestamp );
switch (d->mDecodeState) {
case DECODE_CACHED:
// image was in cache, but not raw data
finish( true );
break;
case DECODE_PENDING_THREADED_DECODING:
// Start the decoder thread if needed
startThread();
break;
default:
// Finish decoding if needed
if (!d->mDecoderTimer.isActive()) d->mDecoderTimer.start(0);
}
}
// There is no way in KImageIO to get the mimeType from the image format.
// This function assumes KImageIO::types and KImageIO::mimeTypes return items
// in the same order (which they do, according to the source code).
static TQString mimeTypeFromFormat(const char* format) {
TQStringList formats = KImageIO::types(KImageIO::Reading);
TQStringList mimeTypes = KImageIO::mimeTypes(KImageIO::Reading);
int pos = formats.findIndex(TQString::fromAscii(format));
Q_ASSERT(pos != -1);
return mimeTypes[pos];
}
void ImageLoader::slotDataReceived(TDEIO::Job* job, const TQByteArray& chunk) {
LOG2("size: " << chunk.size());
if (chunk.size()<=0) return;
int oldSize=d->mRawData.size();
d->mRawData.resize(oldSize + chunk.size());
memcpy(d->mRawData.data()+oldSize, chunk.data(), chunk.size() );
if (oldSize==0) {
// Try to determine the data type
TQBuffer buffer(d->mRawData);
buffer.open(IO_ReadOnly);
const char* format = TQImageIO::imageFormat(&buffer);
if (format) {
// This is a raster image, get the mime type now
d->mURLKind = MimeTypeUtils::KIND_RASTER_IMAGE;
d->mMimeType = mimeTypeFromFormat(format);
} else {
KMimeType::Ptr ptr = KMimeType::findByContent(d->mRawData);
d->mMimeType = ptr->name();
d->mURLKind = MimeTypeUtils::mimeTypeKind(d->mMimeType);
}
if (d->mURLKind!=MimeTypeUtils::KIND_RASTER_IMAGE) {
Q_ASSERT(!d->mDecoderTimer.isActive());
job->kill(true /* quietly */);
LOG("emit urlKindDetermined(!raster)");
emit urlKindDetermined();
return;
}
LOG("emit urlKindDetermined(raster)");
emit urlKindDetermined();
}
// Decode the received data
if( !d->mDecoderTimer.isActive() &&
(d->mDecodeState==DECODE_WAITING || d->mDecodeState==DECODE_INCREMENTAL_DECODING)
) {
d->mDecoderTimer.start(0);
}
}
void ImageLoader::decodeChunk() {
if( d->mSuspended ) {
LOG("suspended");
d->mDecoderTimer.stop();
return;
}
int chunkSize = TQMIN(DECODE_CHUNK_SIZE, int(d->mRawData.size())-d->mDecodedSize);
int decodedSize = 0;
if (chunkSize>0) {
decodedSize = d->mDecoder.decode(
(const uchar*)(d->mRawData.data()+d->mDecodedSize),
chunkSize);
if (decodedSize<0) {
// We can't use incremental decoding, switch to threaded decoding
d->mDecoderTimer.stop();
if (d->mGetState == GET_DONE) {
startThread();
} else {
d->mDecodeState = DECODE_PENDING_THREADED_DECODING;
}
return;
}
// We just decoded some data
if (d->mDecodeState == DECODE_WAITING) {
d->mDecodeState = DECODE_INCREMENTAL_DECODING;
}
d->mDecodedSize+=decodedSize;
}
if (decodedSize == 0) {
// We decoded as much as possible from the buffer, wait to receive
// more data before coming again in decodeChunk
d->mDecoderTimer.stop();
if (d->mGetState == GET_DONE) {
// All available data has been received.
if (d->mDecodeState == DECODE_INCREMENTAL_DECODING) {
// Decoder is not finished, the image must be truncated,
// let's simulate its end
kdWarning() << "ImageLoader::decodeChunk(): image '" << d->mURL.prettyURL() << "' is truncated.\n";
if (d->mProcessedImage.isNull()) {
d->mProcessedImage = d->mDecoder.image();
}
emit imageChanged(d->mProcessedImage.rect());
end();
}
}
}
}
void ImageLoader::startThread() {
LOG("starting decoder thread");
d->mDecodeState = DECODE_THREADED_DECODING;
d->mDecoderThread.setRawData(d->mRawData);
d->mDecoderThread.start();
}
void ImageLoader::slotDecoderThreadFailed() {
LOG("");
// Image can't be loaded
finish( false );
}
void ImageLoader::slotDecoderThreadSucceeded() {
LOG("");
d->mProcessedImage = d->mDecoderThread.popLoadedImage();
d->mFrames.append( ImageFrame( d->mProcessedImage, 0 ));
emit sizeLoaded(d->mProcessedImage.width(), d->mProcessedImage.height());
emit imageChanged(d->mProcessedImage.rect());
finish(true);
}
/**
* Cache image and emit imageLoaded
*/
void ImageLoader::finish( bool ok ) {
LOG("");
d->mDecodeState = DECODE_DONE;
if (!ok) {
d->mFrames.clear();
d->mRawData = TQByteArray();
d->mImageFormat = TQCString();
d->mProcessedImage = TQImage();
emit imageLoaded( false );
return;
}
if (d->mImageFormat.isEmpty()) {
d->determineImageFormat();
}
Q_ASSERT(d->mFrames.count() > 0);
Cache::instance()->addImage( d->mURL, d->mFrames, d->mImageFormat, d->mTimestamp );
emit imageLoaded( true );
}
BusyLevel ImageLoader::priority() const {
BusyLevel mylevel = BUSY_NONE;
for( TQValueVector< OwnerData >::ConstIterator it = d->mOwners.begin();
it != d->mOwners.end();
++it ) {
mylevel = TQMAX( mylevel, (*it).priority );
}
return mylevel;
}
void ImageLoader::slotBusyLevelChanged( BusyLevel level ) {
// this loader may be needed for normal loading (BUSY_LOADING), or
// only for prefetching
BusyLevel mylevel = priority();
if( level > mylevel ) {
suspendLoading();
} else {
resumeLoading();
}
}
void ImageLoader::suspendLoading() {
d->mDecoderTimer.stop();
d->mSuspended = true;
}
void ImageLoader::resumeLoading() {
d->mSuspended = false;
d->mDecoderTimer.start(0, false);
checkPendingGet();
checkPendingStat();
}
//---------------------------------------------------------------------
//
// TQImageConsumer
//
//---------------------------------------------------------------------
void ImageLoader::end() {
LOG("");
// Notify about the last loaded rectangle
LOG("mLoadChangedRect " << d->mLoadChangedRect);
if (!d->mLoadChangedRect.isEmpty()) {
emit imageChanged( d->mLoadChangedRect );
}
d->mDecoderTimer.stop();
d->mDecodeState = DECODE_INCREMENTAL_DECODING_DONE;
// We are done
if( d->mFrames.count() == 0 ) {
d->mFrames.append( ImageFrame( d->mProcessedImage, 0 ));
}
// The image has been totally decoded, we delay the call to finish because
// when we return from this function we will be in decodeChunk(), after the
// call to decode(), so we don't want to switch to a new impl yet, since
// this means deleting "this".
TQTimer::singleShot(0, this, TQ_SLOT(callFinish()) );
}
void ImageLoader::callFinish() {
finish(true);
}
void ImageLoader::changed(const TQRect& constRect) {
LOG2("");
TQRect rect = constRect;
if (d->mLoadedRegion.isEmpty()) {
// This is the first time we get called. Init mProcessedImage and emit
// sizeLoaded.
LOG("mLoadedRegion is empty");
// By default, mProcessedImage should use the image from mDecoder
d->mProcessedImage = d->mDecoder.image();
if (d->mImageFormat.isEmpty()) {
d->determineImageFormat();
}
Q_ASSERT(!d->mImageFormat.isEmpty());
if (d->mImageFormat == "JPEG") {
// This is a JPEG, extract orientation and adjust mProcessedImage
// if necessary according to misc options
ImageUtils::JPEGContent content;
if (content.loadFromData(d->mRawData)) {
d->mOrientation = content.orientation();
if (MiscConfig::autoRotateImages() &&
d->mOrientation != ImageUtils::NOT_AVAILABLE && d->mOrientation != ImageUtils::NORMAL) {
TQSize size = content.size();
d->mProcessedImage = TQImage(size, d->mDecoder.image().depth());
}
d->mProcessedImage.setDotsPerMeterX(content.dotsPerMeterX());
d->mProcessedImage.setDotsPerMeterY(content.dotsPerMeterY());
} else {
kdWarning() << "ImageLoader::changed(): JPEGContent could not load '" << d->mURL.prettyURL() << "'\n";
}
}
LOG("emit sizeLoaded " << d->mProcessedImage.size());
emit sizeLoaded(d->mProcessedImage.width(), d->mProcessedImage.height());
}
// Apply orientation if necessary and if wanted by user settings (misc options)
if (MiscConfig::autoRotateImages() &&
d->mOrientation != ImageUtils::NOT_AVAILABLE && d->mOrientation != ImageUtils::NORMAL) {
// We can only rotate whole images, so copy the loaded rect in a temp
// image, rotate the temp image and copy it to mProcessedImage
// Copy loaded rect
TQImage temp(rect.size(), d->mProcessedImage.depth());
bitBlt(&temp, 0, 0,
&d->mDecoder.image(), rect.left(), rect.top(), rect.width(), rect.height());
// Rotate
temp = ImageUtils::transform(temp, d->mOrientation);
// Compute destination rect
TQWMatrix matrix = ImageUtils::transformMatrix(d->mOrientation);
TQRect imageRect = d->mDecoder.image().rect();
imageRect = matrix.mapRect(imageRect);
rect = matrix.mapRect(rect);
rect.moveBy(-imageRect.left(), -imageRect.top());
// copy temp to mProcessedImage
bitBlt(&d->mProcessedImage, rect.left(), rect.top(),
&temp, 0, 0, temp.width(), temp.height());
}
// Update state tracking vars
d->mWasFrameData = true;
d->mLoadChangedRect |= rect;
d->mLoadedRegion |= rect;
if( d->mTimeSinceLastUpdate.elapsed() > IMAGE_UPDATE_INTERVAL ) {
LOG("emitting imageChanged " << d->mLoadChangedRect);
d->mTimeSinceLastUpdate.start();
emit imageChanged(d->mLoadChangedRect);
d->mLoadChangedRect = TQRect();
}
}
void ImageLoader::frameDone() {
frameDone( TQPoint( 0, 0 ), d->mDecoder.image().rect());
}
void ImageLoader::frameDone(const TQPoint& offset, const TQRect& rect) {
LOG("");
// Another case where the image loading in TQt's is a bit borken.
// It's possible to get several notes about a frame being done for one frame (with MNG).
if( !d->mWasFrameData ) {
// To make it even more fun, with MNG the sequence is actually
// setFramePeriod( 0 )
// frameDone()
// setFramePeriod( delay )
// frameDone()
// Therefore ignore the second frameDone(), but fix the delay that should be
// after the frame.
if( d->mFrames.count() > 0 ) {
d->mFrames.last().delay = d->mNextFrameDelay;
d->mNextFrameDelay = 0;
}
return;
}
d->mWasFrameData = false;
if( !d->mLoadChangedRect.isEmpty()) {
emit imageChanged(d->mLoadChangedRect);
d->mLoadChangedRect = TQRect();
d->mTimeSinceLastUpdate.start();
}
d->mLoadedRegion = TQRegion();
TQImage image;
if (d->mProcessedImage.isNull()) {
image = d->mDecoder.image().copy();
} else {
image = d->mProcessedImage.copy();
}
if( offset != TQPoint( 0, 0 ) || rect != image.rect()) {
// Blit last frame below 'image'
if( !d->mFrames.isEmpty()) {
TQImage im = d->mFrames.last().image.copy();
bitBlt( &im, offset.x(), offset.y(), &image, rect.x(), rect.y(), rect.width(), rect.height());
image = im;
}
}
d->mFrames.append( ImageFrame( image, d->mNextFrameDelay ));
d->mNextFrameDelay = 0;
}
void ImageLoader::setLooping(int) {
}
void ImageLoader::setFramePeriod(int milliseconds) {
if( milliseconds < 0 ) milliseconds = 0; // -1 means showing immediately
if( d->mNextFrameDelay == 0 || milliseconds != 0 ) {
d->mNextFrameDelay = milliseconds;
}
}
void ImageLoader::setSize(int, int) {
// Do nothing, size is handled when ::changed() is called for the first
// time
}
TQImage ImageLoader::processedImage() const {
return d->mProcessedImage;
}
ImageFrames ImageLoader::frames() const {
return d->mFrames;
}
TQCString ImageLoader::imageFormat() const {
return d->mImageFormat;
}
TQByteArray ImageLoader::rawData() const {
return d->mRawData;
}
TQString ImageLoader::mimeType() const {
return d->mMimeType;
}
MimeTypeUtils::Kind ImageLoader::urlKind() const {
return d->mURLKind;
}
KURL ImageLoader::url() const {
return d->mURL;
}
TQRegion ImageLoader::loadedRegion() const {
return d->mLoadedRegion;
}
bool ImageLoader::completed() const {
return d->mDecodeState == DECODE_DONE;
}
void ImageLoader::ref( const TQObject* owner, BusyLevel priority ) {
OwnerData data;
data.owner = owner;
data.priority = priority;
d->mOwners.append( data );
connect( owner, TQ_SIGNAL( destroyed()), TQ_SLOT( ownerDestroyed()));
}
void ImageLoader::deref( const TQObject* owner ) {
for( TQValueVector< OwnerData >::Iterator it = d->mOwners.begin();
it != d->mOwners.end();
++it ) {
if( (*it).owner == owner ) {
d->mOwners.erase( it );
if( d->mOwners.count() == 0 ) {
sLoaders.remove( d->mURL );
delete this;
}
return;
}
}
assert( false );
}
void ImageLoader::release( const TQObject* owner ) {
disconnect( owner );
deref( owner );
}
void ImageLoader::ownerDestroyed() {
deref( sender() );
}
//---------------------------------------------------------------------
//
// Managing loaders
//
//---------------------------------------------------------------------
ImageLoader* ImageLoader::loader( const KURL& url, const TQObject* owner, BusyLevel priority ) {
if( sLoaders.contains( url )) {
ImageLoader* loader = sLoaders[ url ];
loader->ref( owner, priority );
// resume if this owner has high priority
loader->slotBusyLevelChanged( BusyLevelManager::instance()->busyLevel());
return loader;
}
ImageLoader* loader = new ImageLoader;
loader->ref( owner, priority );
sLoaders[ url ] = loader;
loader->setURL( url );
// Code using a loader first calls loader() to get ImageLoader* and only after that it can
// connect to its signals etc., so don't start loading immediately.
// This also helps with preloading jobs, since BUSY_LOADING busy level is not entered immediately
// when a new picture is selected, so preloading jobs without this delay could start working
// immediately.
TQTimer::singleShot( priority >= BUSY_LOADING ? 0 : 10, loader, TQ_SLOT( startLoading()));
return loader;
}
} // namespace
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