// vim: set tabstop=4 shiftwidth=4 noexpandtab: /* Gwenview - A simple image viewer for KDE Copyright 2000-2004 Aur�lien G�teau This class is based on the ImagePreviewJob class from Konqueror. Original copyright follows. */ /* This file is part of the KDE project Copyright (C) 2000 David Faure 2000 Carsten Pfeiffer 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 "thumbnailloadjob.moc" #include #include #include #include // TQt #include #include #include #include #include // KDE #include #include #include #include #include #include #include #include #include // libjpeg #include #define XMD_H extern "C" { #include } // Local #include "cache.h" #include "mimetypeutils.h" #include "miscconfig.h" #include "imageutils/jpegcontent.h" #include "imageutils/imageutils.h" #include "thumbnailsize.h" #include "fileviewconfig.h" namespace Gwenview { #undef ENABLE_LOG #undef LOG //#define ENABLE_LOG #ifdef ENABLE_LOG #define LOG(x) kdDebug() << k_funcinfo << x << endl #else #define LOG(x) ; #endif static TQString generateOriginalURI(KURL url) { // Don't include the password if any url.setPass(TQString()); return url.url(); } static TQString generateThumbnailPath(const TQString& uri, int size) { KMD5 md5( TQFile::encodeName(uri).data() ); TQString baseDir=ThumbnailLoadJob::thumbnailBaseDir(size); return baseDir + TQString(TQFile::encodeName( md5.hexDigest())) + ".png"; } //------------------------------------------------------------------------ // // ThumbnailThread // //------------------------------------------------------------------------ void ThumbnailThread::load( const TQString& originalURI, time_t originalTime, int originalSize, const TQString& originalMimeType, const TQString& pixPath, const TQString& thumbnailPath, int size, bool storeThumbnail) { TQMutexLocker lock( &mMutex ); assert( mPixPath.isNull()); mOriginalURI = TSDeepCopy(originalURI); mOriginalTime = originalTime; mOriginalSize = originalSize; mOriginalMimeType = TSDeepCopy(originalMimeType); mPixPath = TSDeepCopy(pixPath); mThumbnailPath = TSDeepCopy(thumbnailPath); mThumbnailSize = size; mStoreThumbnailsInCache = storeThumbnail; if(!running()) start(); mCond.wakeOne(); } void ThumbnailThread::run() { TQMutexLocker lock( &mMutex ); while( !testCancel()) { // empty mPixPath means nothing to do while( mPixPath.isNull()) { mCond.cancellableWait( &mMutex ); if( testCancel()) return; } loadThumbnail(); mPixPath = TQString(); // done, ready for next TQSize size(mOriginalWidth, mOriginalHeight); emitCancellableSignal( this, TQT_SIGNAL( done( const TQImage&, const TQSize&)), mImage, size); } } void ThumbnailThread::loadThumbnail() { mImage = TQImage(); bool loaded=false; bool needCaching=true; // If it's a JPEG, try to load a small image directly from the file if (isJPEG()) { ImageUtils::JPEGContent content; content.load(mPixPath); mOriginalWidth = content.size().width(); mOriginalHeight = content.size().height(); mImage = content.thumbnail(); if( !mImage.isNull() && ( mImage.width() >= mThumbnailSize // don't use small thumbnails || mImage.height() >= mThumbnailSize )) { loaded = true; needCaching = false; } if(!loaded) { loaded=loadJPEG(); } if (loaded && MiscConfig::autoRotateImages()) { // Rotate if necessary ImageUtils::Orientation orientation = content.orientation(); mImage=ImageUtils::transform(mImage,orientation); } } // File is not a JPEG, or JPEG optimized load failed, load file using TQt if (!loaded) { TQImage originalImage; if (originalImage.load(mPixPath)) { mOriginalWidth=originalImage.width(); mOriginalHeight=originalImage.height(); int thumbSize=mThumbnailSize<=ThumbnailSize::NORMAL ? ThumbnailSize::NORMAL : ThumbnailSize::LARGE; if( testCancel()) return; if (TQMAX(mOriginalWidth, mOriginalHeight)<=thumbSize ) { mImage=originalImage; needCaching = false; } else { mImage=ImageUtils::scale(originalImage,thumbSize,thumbSize,ImageUtils::SMOOTH_FAST,TQ_ScaleMin); } loaded = true; } } if( testCancel()) return; if( mStoreThumbnailsInCache && needCaching ) { mImage.setText("Thumb::URI", 0, mOriginalURI); mImage.setText("Thumb::MTime", 0, TQString::number(mOriginalTime)); mImage.setText("Thumb::Size", 0, TQString::number(mOriginalSize)); mImage.setText("Thumb::Mimetype", 0, mOriginalMimeType); mImage.setText("Thumb::Image::Width", 0, TQString::number(mOriginalWidth)); mImage.setText("Thumb::Image::Height", 0, TQString::number(mOriginalHeight)); mImage.setText("Software", 0, "Gwenview"); TQString thumbnailDir = ThumbnailLoadJob::thumbnailBaseDir(mThumbnailSize); KStandardDirs::makeDir(thumbnailDir, 0700); KTempFile tmp(thumbnailDir + "/gwenview", ".png"); tmp.setAutoDelete(true); if (tmp.status()!=0) { TQString reason( strerror(tmp.status()) ); kdWarning() << "Could not create a temporary file.\nReason: " << reason << endl; return; } if (!mImage.save(tmp.name(), "PNG")) { kdWarning() << "Could not save thumbnail for file " << mOriginalURI << endl; return; } rename(TQFile::encodeName(tmp.name()), TQFile::encodeName(mThumbnailPath)); } } bool ThumbnailThread::isJPEG() { TQString format=TQImageIO::imageFormat(mPixPath); return format=="JPEG"; } struct JPEGFatalError : public jpeg_error_mgr { jmp_buf mJmpBuffer; static void handler(j_common_ptr cinfo) { JPEGFatalError* error=static_cast(cinfo->err); (error->output_message)(cinfo); longjmp(error->mJmpBuffer,1); } }; bool ThumbnailThread::loadJPEG() { struct jpeg_decompress_struct cinfo; // Open file FILE* inputFile=fopen(TQFile::encodeName( mPixPath ).data(), "rb"); if(!inputFile) return false; // Error handling struct JPEGFatalError jerr; cinfo.err = jpeg_std_error(&jerr); cinfo.err->error_exit = JPEGFatalError::handler; if (setjmp(jerr.mJmpBuffer)) { jpeg_destroy_decompress(&cinfo); fclose(inputFile); return false; } // Init decompression jpeg_create_decompress(&cinfo); jpeg_stdio_src(&cinfo, inputFile); jpeg_read_header(&cinfo, TRUE); // Get image size and check if we need a thumbnail int size= mThumbnailSize <= ThumbnailSize::NORMAL ? ThumbnailSize::NORMAL : ThumbnailSize::LARGE; int imgSize = TQMAX(cinfo.image_width, cinfo.image_height); if (imgSize<=size) { fclose(inputFile); return mImage.load(mPixPath); } // Compute scale value int scale=1; while(size*scale*2<=imgSize) { scale*=2; } if(scale>8) scale=8; cinfo.scale_num=1; cinfo.scale_denom=scale; // Create TQImage jpeg_start_decompress(&cinfo); switch(cinfo.output_components) { case 3: case 4: mImage.create( cinfo.output_width, cinfo.output_height, 32 ); break; case 1: // B&W image mImage.create( cinfo.output_width, cinfo.output_height, 8, 256 ); for (int i=0; i<256; i++) mImage.setColor(i, tqRgb(i,i,i)); break; default: jpeg_destroy_decompress(&cinfo); fclose(inputFile); return false; } uchar** lines = mImage.jumpTable(); while (cinfo.output_scanline < cinfo.output_height) { jpeg_read_scanlines(&cinfo, lines + cinfo.output_scanline, cinfo.output_height); } jpeg_finish_decompress(&cinfo); // Expand 24->32 bpp if ( cinfo.output_components == 3 ) { for (uint j=0; j* items, int size) : KIO::Job(false), mState( STATE_NEXTTHUMB ), mCurrentVisibleIndex( -1 ), mFirstVisibleIndex( -1 ), mLastVisibleIndex( -1 ), mThumbnailSize(size), mSuspended( false ) { LOG(""); mBrokenPixmap=KGlobal::iconLoader()->loadIcon("file_broken", KIcon::NoGroup, ThumbnailSize::MIN); // Look for images and store the items in our todo list Q_ASSERT(!items->empty()); mAllItems=*items; mProcessedState.resize( mAllItems.count()); tqFill( mProcessedState.begin(), mProcessedState.end(), false ); mCurrentItem = NULL; connect(&mThumbnailThread, TQT_SIGNAL(done(const TQImage&, const TQSize&)), TQT_SLOT(thumbnailReady(const TQImage&, const TQSize&)) ); Cache::instance()->updateAge(); // see addThumbnail in Cache } ThumbnailLoadJob::~ThumbnailLoadJob() { LOG(""); mThumbnailThread.cancel(); mThumbnailThread.wait(); } void ThumbnailLoadJob::start() { // build mItems from mAllItems if not done yet if (mLastVisibleIndex == -1 ) { setPriorityItems( NULL, NULL, NULL ); } if (mItems.isEmpty()) { LOG("Nothing to do"); emit result(this); delete this; return; } determineNextIcon(); } void ThumbnailLoadJob::suspend() { mSuspended = true; } void ThumbnailLoadJob::resume() { if( !mSuspended ) return; mSuspended = false; if( mState == STATE_NEXTTHUMB ) // don't load next while already loading determineNextIcon(); } //-Internal-------------------------------------------------------------- void ThumbnailLoadJob::appendItem(const KFileItem* item) { int index = thumbnailIndex( item ); if( index >= 0 ) { mProcessedState[ index ] = false; return; } mAllItems.append(item); mProcessedState.append( false ); updateItemsOrder(); } void ThumbnailLoadJob::itemRemoved(const KFileItem* item) { Q_ASSERT(item); // If we are removing the next item, update to be the item after or the // first if we removed the last item mItems.remove( item ); int index = thumbnailIndex( item ); if( index >= 0 ) { mAllItems.erase( mAllItems.begin() + index ); mProcessedState.erase( mProcessedState.begin() + index ); } if (item == mCurrentItem) { // Abort mCurrentItem = NULL; if (subjobs.first()) { subjobs.first()->kill(); subjobs.removeFirst(); } determineNextIcon(); } } void ThumbnailLoadJob::setPriorityItems(const KFileItem* current, const KFileItem* first, const KFileItem* last) { if( mAllItems.isEmpty()) { mCurrentVisibleIndex = mFirstVisibleIndex = mLastVisibleIndex = 0; return; } mFirstVisibleIndex = -1; mLastVisibleIndex = - 1; mCurrentVisibleIndex = -1; if( first != NULL ) mFirstVisibleIndex = thumbnailIndex( first ); if( last != NULL ) mLastVisibleIndex = thumbnailIndex( last ); if( current != NULL ) mCurrentVisibleIndex = thumbnailIndex( current ); if( mFirstVisibleIndex == -1 ) mFirstVisibleIndex = 0; if( mLastVisibleIndex == -1 ) mLastVisibleIndex = mAllItems.count() - 1; if( mCurrentVisibleIndex == -1 ) mCurrentVisibleIndex = mFirstVisibleIndex; updateItemsOrder(); } void ThumbnailLoadJob::updateItemsOrder() { mItems.clear(); int forward = mCurrentVisibleIndex + 1; int backward = mCurrentVisibleIndex; int first = mFirstVisibleIndex; int last = mLastVisibleIndex; updateItemsOrderHelper( forward, backward, first, last ); if( first != 0 || last != int( mAllItems.count()) - 1 ) { // add non-visible items updateItemsOrderHelper( last + 1, first - 1, 0, mAllItems.count() - 1); } } void ThumbnailLoadJob::updateItemsOrderHelper( int forward, int backward, int first, int last ) { // start from the current item, add one following it, and one preceding it, for all visible items while( forward <= last || backward >= first ) { // start with backward - that's the curent item for the first time while( backward >= first ) { if( !mProcessedState[ backward ] ) { mItems.append( mAllItems[ backward ] ); --backward; break; } --backward; } while( forward <= last ) { if( !mProcessedState[ forward ] ) { mItems.append( mAllItems[ forward ] ); ++forward; break; } ++forward; } } } void ThumbnailLoadJob::determineNextIcon() { mState = STATE_NEXTTHUMB; if( mSuspended ) { return; } // No more items ? if (mItems.isEmpty()) { // Done LOG("emitting result"); emit result(this); delete this; return; } mCurrentItem=mItems.first(); mItems.pop_front(); Q_ASSERT( !mProcessedState[ thumbnailIndex( mCurrentItem )] ); mProcessedState[ thumbnailIndex( mCurrentItem )] = true; // First, stat the orig file mState = STATE_STATORIG; mOriginalTime = 0; mCurrentURL = mCurrentItem->url(); mCurrentURL.cleanPath(); // Do direct stat instead of using KIO if the file is local (faster) if( mCurrentURL.isLocalFile() && !KIO::probably_slow_mounted( mCurrentURL.path())) { KDE_struct_stat buff; if ( KDE_stat( TQFile::encodeName(mCurrentURL.path()), &buff ) == 0 ) { mOriginalTime = buff.st_mtime; TQTimer::singleShot( 0, this, TQT_SLOT( checkThumbnail())); } } if( mOriginalTime == 0 ) { // KIO must be used KIO::Job* job = KIO::stat(mCurrentURL,false); job->setWindow(KApplication::kApplication()->mainWidget()); LOG( "KIO::stat orig " << mCurrentURL.url() ); addSubjob(job); } } void ThumbnailLoadJob::slotResult(KIO::Job * job) { LOG(mState); subjobs.remove(job); Q_ASSERT(subjobs.isEmpty()); // We should have only one job at a time ... switch (mState) { case STATE_NEXTTHUMB: Q_ASSERT(false); determineNextIcon(); return; case STATE_STATORIG: { // Could not stat original, drop this one and move on to the next one if (job->error()) { emitThumbnailLoadingFailed(); determineNextIcon(); return; } // Get modification time of the original file KIO::UDSEntry entry = static_cast(job)->statResult(); KIO::UDSEntry::ConstIterator it= entry.begin(); mOriginalTime = 0; for (; it!=entry.end(); ++it) { if ((*it).m_uds == KIO::UDS_MODIFICATION_TIME) { mOriginalTime = (time_t)((*it).m_long); break; } } checkThumbnail(); return; } case STATE_DOWNLOADORIG: if (job->error()) { emitThumbnailLoadingFailed(); LOG("Delete temp file " << mTempPath); TQFile::remove(mTempPath); mTempPath = TQString(); determineNextIcon(); } else { startCreatingThumbnail(mTempPath); } return; case STATE_PREVIEWJOB: determineNextIcon(); return; } } void ThumbnailLoadJob::thumbnailReady( const TQImage& im, const TQSize& _size) { TQImage img = TSDeepCopy( im ); TQSize size = _size; if ( !img.isNull()) { emitThumbnailLoaded(img, size); } else { emitThumbnailLoadingFailed(); } if( !mTempPath.isEmpty()) { LOG("Delete temp file " << mTempPath); TQFile::remove(mTempPath); mTempPath = TQString(); } determineNextIcon(); } void ThumbnailLoadJob::checkThumbnail() { // If we are in the thumbnail dir, just load the file if (mCurrentURL.isLocalFile() && mCurrentURL.directory(false).startsWith(thumbnailBaseDir()) ) { TQImage image(mCurrentURL.path()); emitThumbnailLoaded(image, image.size()); determineNextIcon(); return; } TQSize imagesize; if( mOriginalTime == time_t( Cache::instance()->timestamp( mCurrentURL ).toTime_t())) { TQPixmap cached = Cache::instance()->thumbnail( mCurrentURL, imagesize ); if( !cached.isNull()) { emit thumbnailLoaded(mCurrentItem, cached, imagesize); determineNextIcon(); return; } } mOriginalURI=generateOriginalURI(mCurrentURL); mThumbnailPath=generateThumbnailPath(mOriginalURI, mThumbnailSize); LOG("Stat thumb " << mThumbnailPath); TQImage thumb; if ( thumb.load(mThumbnailPath) ) { if (thumb.text("Thumb::URI", 0) == mOriginalURI && thumb.text("Thumb::MTime", 0).toInt() == mOriginalTime ) { int width=0, height=0; TQSize size; bool ok; width=thumb.text("Thumb::Image::Width", 0).toInt(&ok); if (ok) height=thumb.text("Thumb::Image::Height", 0).toInt(&ok); if (ok) { size=TQSize(width, height); } else { LOG("Thumbnail for " << mOriginalURI << " does not contain correct image size information"); KFileMetaInfo fmi(mCurrentURL); if (fmi.isValid()) { KFileMetaInfoItem item=fmi.item("Dimensions"); if (item.isValid()) { size=item.value().toSize(); } else { LOG("KFileMetaInfoItem for " << mOriginalURI << " did not get image size information"); } } else { LOG("Could not get a valid KFileMetaInfo instance for " << mOriginalURI); } } emitThumbnailLoaded(thumb, size); determineNextIcon(); return; } } // Thumbnail not found or not valid if ( MimeTypeUtils::rasterImageMimeTypes().contains(mCurrentItem->mimetype()) ) { // This is a raster image if (mCurrentURL.isLocalFile()) { // Original is a local file, create the thumbnail startCreatingThumbnail(mCurrentURL.path()); } else { // Original is remote, download it mState=STATE_DOWNLOADORIG; KTempFile tmpFile; mTempPath=tmpFile.name(); KURL url; url.setPath(mTempPath); KIO::Job* job=KIO::file_copy(mCurrentURL, url,-1,true,false,false); job->setWindow(KApplication::kApplication()->mainWidget()); LOG("Download remote file " << mCurrentURL.prettyURL()); addSubjob(job); } } else { // Not a raster image, use a KPreviewJob mState=STATE_PREVIEWJOB; KFileItemList list; list.append(mCurrentItem); KIO::Job* job=KIO::filePreview(list, mThumbnailSize); job->setWindow(KApplication::kApplication()->mainWidget()); connect(job, TQT_SIGNAL(gotPreview(const KFileItem*, const TQPixmap&)), this, TQT_SLOT(slotGotPreview(const KFileItem*, const TQPixmap&)) ); connect(job, TQT_SIGNAL(failed(const KFileItem*)), this, TQT_SLOT(emitThumbnailLoadingFailed()) ); addSubjob(job); return; } } void ThumbnailLoadJob::startCreatingThumbnail(const TQString& pixPath) { LOG("Creating thumbnail from " << pixPath); mThumbnailThread.load( mOriginalURI, mOriginalTime, mCurrentItem->size(), mCurrentItem->mimetype(), pixPath, mThumbnailPath, mThumbnailSize, FileViewConfig::storeThumbnailsInCache()); } void ThumbnailLoadJob::slotGotPreview(const KFileItem* item, const TQPixmap& pixmap) { LOG(""); TQSize size; emit thumbnailLoaded(item, pixmap, size); } void ThumbnailLoadJob::emitThumbnailLoaded(const TQImage& img, TQSize size) { int biggestDimension=TQMAX(img.width(), img.height()); TQImage thumbImg; if (biggestDimension>mThumbnailSize) { // Scale down thumbnail if necessary thumbImg=ImageUtils::scale(img,mThumbnailSize, mThumbnailSize, ImageUtils::SMOOTH_FAST,TQ_ScaleMin); } else { thumbImg=img; } TQDateTime tm; tm.setTime_t( mOriginalTime ); TQPixmap thumb( thumbImg ); // store as TQPixmap in cache (faster to retrieve, no conversion needed) Cache::instance()->addThumbnail( mCurrentURL, thumb, size, tm ); emit thumbnailLoaded(mCurrentItem, thumb, size); } void ThumbnailLoadJob::emitThumbnailLoadingFailed() { TQSize size; emit thumbnailLoaded(mCurrentItem, mBrokenPixmap, size); } } // namespace