/* This file is part of the KDE libraries SPDX-FileCopyrightText: 2000 Malte Starostik SPDX-FileCopyrightText: 2000 Carsten Pfeiffer SPDX-License-Identifier: LGPL-2.0-or-later */ #include "thumbnail.h" #include "thumbnail-logsettings.h" #include #ifdef __FreeBSD__ #include #endif #include #if defined(Q_OS_WINDOWS) #include #else #include #ifndef Q_OS_HAIKU #include #endif #include // nice() #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "imagefilter.h" // Recognized metadata entries: // mimeType - the mime type of the file, used for the overlay icon if any // width - maximum width for the thumbnail // height - maximum height for the thumbnail // iconSize - the size of the overlay icon to use if any (deprecated, ignored) // iconAlpha - the transparency value used for icon overlays (deprecated, ignored) // plugin - the name of the plugin library to be used for thumbnail creation. // Provided by the application to save an addition KTrader // query here. // devicePixelRatio - the devicePixelRatio to use for the output, // the dimensions of the output is multiplied by it and output pixmap will have devicePixelRatio // enabledPlugins - a list of enabled thumbnailer plugins. PreviewJob does not call // this thumbnail worker when a given plugin isn't enabled. However, // for directory thumbnails it doesn't know that the thumbnailer // internally also loads the plugins. // shmid - the shared memory segment id to write the image's data to. // The segment is assumed to provide enough space for a 32-bit // image sized width x height pixels. // If this is given, the data returned by the worker will be: // int width // int height // int depth // Otherwise, the data returned is the image in PNG format. using namespace KIO; // Pseudo plugin class to embed meta data class KIOPluginForMetaData : public QObject { Q_OBJECT Q_PLUGIN_METADATA(IID "org.kde.kio.worker.thumbnail" FILE "thumbnail.json") }; extern "C" Q_DECL_EXPORT int kdemain(int argc, char **argv) { #if defined(Q_OS_WINDOWS) SetPriorityClass(GetCurrentProcess(), BELOW_NORMAL_PRIORITY_CLASS); #else std::ignore = nice(5); #endif QCoreApplication::setAttribute(Qt::AA_ShareOpenGLContexts); // Creating a QApplication in a worker in not a very good idea, // as dispatchLoop() doesn't allow it to process its messages, // so it for example wouldn't reply to ksmserver - on the other // hand, this worker uses QPixmaps for some reason, and they // need QGuiApplication qunsetenv("SESSION_MANAGER"); // Some thumbnail plugins use QWidget classes for the rendering, // so use QApplication here, not just QGuiApplication QApplication app(argc, argv); if (argc != 4) { qCritical() << "Usage: kio_thumbnail protocol domain-socket1 domain-socket2"; exit(-1); } ThumbnailProtocol worker(argv[2], argv[3]); worker.dispatchLoop(); return 0; } ThumbnailProtocol::ThumbnailProtocol(const QByteArray &pool, const QByteArray &app) : WorkerBase("thumbnail", pool, app) , m_width(0) , m_height(0) , m_devicePixelRatio(1.0) , m_maxFileSize(0) , m_randomGenerator() { } ThumbnailProtocol::~ThumbnailProtocol() { qDeleteAll(m_creators); } /** * Scales down the image \p img in a way that it fits into the given maximum width and height */ void scaleDownImage(QImage &img, int maxWidth, int maxHeight) { if (img.width() > maxWidth || img.height() > maxHeight) { img = img.scaled(maxWidth, maxHeight, Qt::KeepAspectRatio, Qt::SmoothTransformation); } } /** * @brief convertToStandardRgb * Convert preview to sRGB for proper viewing on most monitors. */ void convertToStandardRgb(QImage &img) { auto cs = img.colorSpace(); if (!cs.isValid()) { return; } if (cs.transferFunction() != QColorSpace::TransferFunction::SRgb || cs.primaries() != QColorSpace::Primaries::SRgb) { img.convertToColorSpace(QColorSpace(QColorSpace::SRgb)); } } KIO::WorkerResult ThumbnailProtocol::get(const QUrl &url) { m_mimeType = metaData("mimeType"); m_enabledPlugins = metaData("enabledPlugins").split(QLatin1Char(','), Qt::SkipEmptyParts); if (m_enabledPlugins.isEmpty()) { const KConfigGroup globalConfig(KSharedConfig::openConfig(), QStringLiteral("PreviewSettings")); m_enabledPlugins = globalConfig.readEntry("Plugins", KIO::PreviewJob::defaultPlugins()); } Q_ASSERT(url.scheme() == "thumbnail"); QFileInfo info(url.path()); Q_ASSERT_X(info.isAbsolute(), "ThumbnailProtocol::get", qPrintable("path is not absolute: " + info.path())); if (!info.exists()) { // The file does not exist return KIO::WorkerResult::fail(KIO::ERR_DOES_NOT_EXIST, url.path()); } else if (!info.isReadable()) { // The file is not readable! return KIO::WorkerResult::fail(KIO::ERR_CANNOT_READ, url.path()); } // qDebug() << "Wanting MIME Type:" << m_mimeType; bool direct = false; if (m_mimeType.isEmpty()) { // qDebug() << "PATH: " << url.path() << "isDir:" << info.isDir(); if (info.isDir()) { m_mimeType = "inode/directory"; } else { const QMimeDatabase db; m_mimeType = db.mimeTypeForFile(info).name(); } // qDebug() << "Guessing MIME Type:" << m_mimeType; direct = true; // thumbnail: URL was probably typed in Konqueror } if (m_mimeType.isEmpty()) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("No MIME Type specified.")); } m_width = metaData("width").toInt(); m_height = metaData("height").toInt(); if (m_width < 0 || m_height < 0) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("No or invalid size specified.")); } else if (!m_width || !m_height) { // qDebug() << "Guessing height, width, icon size!"; m_width = 128; m_height = 128; } bool ok; m_devicePixelRatio = metaData("devicePixelRatio").toFloat(&ok); if (!ok || qFuzzyIsNull(m_devicePixelRatio)) { m_devicePixelRatio = 1.0; } else { m_width *= m_devicePixelRatio; m_height *= m_devicePixelRatio; } QImage img; QString plugin = metaData("plugin"); if ((plugin.isEmpty() || plugin.contains("directorythumbnail")) && m_mimeType == "inode/directory") { img = thumbForDirectory(info.canonicalFilePath()); if (img.isNull()) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Cannot create thumbnail for directory")); } } else { if (plugin.isEmpty()) { plugin = pluginForMimeType(m_mimeType).fileName(); } // qDebug() << "Guess plugin: " << plugin; if (plugin.isEmpty()) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("No plugin specified.")); } ThumbCreatorWithMetadata *creator = getThumbCreator(plugin); if (!creator) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Cannot load ThumbCreator %1", plugin)); } if (creator->handleSequences) { setMetaData("handlesSequences", QStringLiteral("1")); } if (!createThumbnail(creator, info.canonicalFilePath(), m_width, m_height, img)) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Cannot create thumbnail for %1", info.canonicalFilePath())); } // We MUST do this after calling create(), because the create() call itself might change it. if (creator->handleSequences) { setMetaData("sequenceIndexWraparoundPoint", QString::number(m_sequenceIndexWrapAroundPoint)); } } if (img.isNull()) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Failed to create a thumbnail.")); } // image quality and size corrections scaleDownImage(img, m_width, m_height); convertToStandardRgb(img); if (img.colorCount() > 0 || img.depth() > 32) { // images using indexed color format, are not loaded properly by QImage ctor using in shm code path // convert the format to regular RGB // Also limit the bits per pixel to 32 since PreviewJob only allocates as much shared memory img = img.convertToFormat(img.hasAlphaChannel() ? QImage::Format_ARGB32 : QImage::Format_RGB32); } if (direct) { // If thumbnail was called directly from Konqueror, then the image needs to be raw // qDebug() << "RAW IMAGE TO STREAM"; QBuffer buf; if (!buf.open(QIODevice::WriteOnly)) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Could not write image.")); } img.save(&buf, "PNG"); buf.close(); mimeType("image/png"); data(buf.buffer()); return KIO::WorkerResult::pass(); } QByteArray imgData; QDataStream stream(&imgData, QIODevice::WriteOnly); // Keep in sync with kio/src/previewjob.cpp stream << img.width() << img.height() << img.format() << img.devicePixelRatio(); #ifndef Q_OS_WIN const QString shmid = metaData("shmid"); if (shmid.isEmpty()) #endif { // qDebug() << "IMAGE TO STREAM"; stream << img; } #if !defined(Q_OS_WIN) && !defined(Q_OS_HAIKU) else { // qDebug() << "IMAGE TO SHMID"; void *shmaddr = shmat(shmid.toInt(), nullptr, 0); if (shmaddr == (void *)-1) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Failed to attach to shared memory segment %1", shmid)); } struct shmid_ds shmStat; if (shmctl(shmid.toInt(), IPC_STAT, &shmStat) == -1 || shmStat.shm_segsz < (uint)img.sizeInBytes()) { return KIO::WorkerResult::fail(KIO::ERR_INTERNAL, i18n("Image is too big for the shared memory segment")); shmdt((char *)shmaddr); } memcpy(shmaddr, img.constBits(), img.sizeInBytes()); shmdt((char *)shmaddr); } #endif mimeType("application/octet-stream"); data(imgData); return KIO::WorkerResult::pass(); } KPluginMetaData ThumbnailProtocol::pluginForMimeType(const QString &mimeType) { static const QList plugins = KPluginMetaData::findPlugins(QStringLiteral("kf6/thumbcreator")); for (const KPluginMetaData &plugin : plugins) { if (plugin.supportsMimeType(mimeType)) { return plugin; } } for (const auto &plugin : plugins) { const QStringList mimeTypes = plugin.mimeTypes(); for (const QString &mime : mimeTypes) { if (mime.endsWith('*')) { const auto mimeGroup = QStringView(mime).left(mime.length() - 1); if (mimeType.startsWith(mimeGroup)) { return plugin; } } } } return {}; } float ThumbnailProtocol::sequenceIndex() const { return metaData("sequence-index").toFloat(); } bool ThumbnailProtocol::isOpaque(const QImage &image) const { // Test the corner pixels return qAlpha(image.pixel(QPoint(0, 0))) == 255 && qAlpha(image.pixel(QPoint(image.width() - 1, 0))) == 255 && qAlpha(image.pixel(QPoint(0, image.height() - 1))) == 255 && qAlpha(image.pixel(QPoint(image.width() - 1, image.height() - 1))) == 255; } void ThumbnailProtocol::drawPictureFrame(QPainter *painter, const QPoint ¢erPos, const QImage &image, int borderStrokeWidth, QSize imageTargetSize, int rotationAngle) const { // Scale the image down so it matches the aspect ratio float scaling = 1.0; const bool landscapeDimension = image.width() > image.height(); const bool hasTargetSizeWidth = imageTargetSize.width() != 0; const bool hasTargetSizeHeight = imageTargetSize.height() != 0; const int widthWithFrames = image.width() + (2 * borderStrokeWidth); const int heightWithFrames = image.height() + (2 * borderStrokeWidth); if (landscapeDimension && (widthWithFrames > imageTargetSize.width()) && hasTargetSizeWidth) { scaling = float(imageTargetSize.width()) / float(widthWithFrames); } else if ((heightWithFrames > imageTargetSize.height()) && hasTargetSizeHeight) { scaling = float(imageTargetSize.height()) / float(heightWithFrames); } const float scaledFrameWidth = borderStrokeWidth / scaling; QTransform m; m.rotate(rotationAngle); m.scale(scaling, scaling); const QRectF frameRect( QPointF(0, 0), QPointF(image.width() / image.devicePixelRatio() + scaledFrameWidth * 2, image.height() / image.devicePixelRatio() + scaledFrameWidth * 2)); QRect r = m.mapRect(QRectF(frameRect)).toAlignedRect(); QImage transformed(r.size(), QImage::Format_ARGB32); transformed.fill(0); QPainter p(&transformed); p.setRenderHint(QPainter::SmoothPixmapTransform); p.setRenderHint(QPainter::Antialiasing); p.setCompositionMode(QPainter::CompositionMode_Source); p.translate(-r.topLeft()); p.setWorldTransform(m, true); if (isOpaque(image)) { p.setPen(Qt::NoPen); p.setBrush(Qt::white); p.drawRoundedRect(frameRect, scaledFrameWidth / 2, scaledFrameWidth / 2); } p.drawImage(scaledFrameWidth, scaledFrameWidth, image); p.end(); int radius = qMax(borderStrokeWidth, 1); QImage shadow(r.size() + QSize(radius * 2, radius * 2), QImage::Format_ARGB32); shadow.fill(0); p.begin(&shadow); p.setCompositionMode(QPainter::CompositionMode_Source); p.drawImage(radius, radius, transformed); p.end(); ImageFilter::shadowBlur(shadow, radius, QColor(0, 0, 0, 128)); r.moveCenter(centerPos); painter->drawImage(r.topLeft() - QPoint(radius / 2, radius / 2), shadow); painter->drawImage(r.topLeft(), transformed); } QImage ThumbnailProtocol::thumbForDirectory(const QString &directory) { QImage img; KFileItem item(QUrl::fromLocalFile(directory)); const KConfigGroup globalConfig(KSharedConfig::openConfig(), QStringLiteral("PreviewSettings")); m_maxFileSize = !item.isSlow() ? globalConfig.readEntry("MaximumSize", std::numeric_limits::max()) : globalConfig.readEntry("MaximumRemoteSize", 0); if (m_propagationDirectories.isEmpty()) { // Directories that the directory preview will be propagated into if there is no direct sub-directories const QStringList propagationDirectoriesList = globalConfig.readEntry("PropagationDirectories", QStringList() << "VIDEO_TS"); m_propagationDirectories = QSet(propagationDirectoriesList.begin(), propagationDirectoriesList.end()); } const int tiles = 2; // Count of items shown on each dimension const int spacing = 1 * m_devicePixelRatio; const int visibleCount = tiles * tiles; // TODO: the margins are optimized for the Oxygen iconset // Provide a fallback solution for other iconsets (e. g. draw folder // only as small overlay, use no margins) const int extent = qMin(m_width, m_height); QPixmap folder = QIcon::fromTheme(item.iconName()).pixmap(extent); folder.setDevicePixelRatio(m_devicePixelRatio); // Scale up base icon to ensure overlays are rendered with // the best quality possible even for low-res custom folder icons if (qMax(folder.width(), folder.height()) < extent) { folder = folder.scaled(extent, extent, Qt::KeepAspectRatio, Qt::SmoothTransformation); } const int folderWidth = folder.width(); const int folderHeight = folder.height(); const int topMargin = folderHeight * 30 / 100; const int bottomMargin = folderHeight / 6; const int leftMargin = folderWidth / 13; const int rightMargin = leftMargin; // the picture border stroke width 1/170 rounded up // (i.e for each 170px the folder width increases those border increase by 1 px) const int borderStrokeWidth = qRound(folderWidth / 170.); const int segmentWidth = (folderWidth - leftMargin - rightMargin + spacing) / tiles - spacing; const int segmentHeight = (folderHeight - topMargin - bottomMargin + spacing) / tiles - spacing; if ((segmentWidth < 5 * m_devicePixelRatio) || (segmentHeight < 5 * m_devicePixelRatio)) { // the segment size is too small for a useful preview return img; } // Advance to the next tile page each second int skipValidItems = ((int)sequenceIndex()) * visibleCount; img = QImage(QSize(folderWidth, folderHeight), QImage::Format_ARGB32); img.setDevicePixelRatio(m_devicePixelRatio); img.fill(0); QPainter p; p.begin(&img); p.setCompositionMode(QPainter::CompositionMode_Source); p.drawPixmap(0, 0, folder); p.setCompositionMode(QPainter::CompositionMode_SourceOver); int xPos = leftMargin; int yPos = topMargin; int iterations = 0; QString hadFirstThumbnail; QImage firstThumbnail; int validThumbnails = 0; int totalValidThumbs = -1; while (true) { QDirIterator dir(directory, QDir::Files | QDir::Readable); int skipped = 0; // Seed the random number generator so that it always returns the same result // for the same directory and sequence-item m_randomGenerator.seed(qHash(directory) + skipValidItems); while (dir.hasNext()) { ++iterations; if (iterations > 500) { skipValidItems = skipped = 0; break; } dir.next(); if (dir.fileInfo().isSymbolicLink()) { // Skip symbolic links, as these may point to e.g. network file // systems or other slow storage. The calling code already // checks for the directory itself, and if it is fine any // contained plain file is fine as well. continue; } const auto fileSize = KIO::filesize_t(dir.fileInfo().size()); if ((fileSize == 0) || (fileSize > m_maxFileSize)) { // don't create thumbnails for files that exceed // the maximum set file size or are empty continue; } QImage subThumbnail; if (!createSubThumbnail(subThumbnail, dir.filePath(), segmentWidth, segmentHeight)) { continue; } if (skipped < skipValidItems) { ++skipped; continue; } drawSubThumbnail(p, subThumbnail, segmentWidth, segmentHeight, xPos, yPos, borderStrokeWidth); if (hadFirstThumbnail.isEmpty()) { hadFirstThumbnail = dir.filePath(); firstThumbnail = subThumbnail; } ++validThumbnails; if (validThumbnails >= visibleCount) { break; } xPos += segmentWidth + spacing; if (xPos > folderWidth - rightMargin - segmentWidth) { xPos = leftMargin; yPos += segmentHeight + spacing; } } if (!dir.hasNext() && totalValidThumbs < 0) { // We iterated over the entire directory for the first time, so now we know how many thumbs // were actually created. totalValidThumbs = skipped + validThumbnails; } if (validThumbnails > 0) { break; } if (skipped == 0) { break; // No valid items were found } // Calculate number of (partial) pages for all valid items in the directory auto skippedPages = (skipped + visibleCount - 1) / visibleCount; // The sequence is continously repeated after all valid items, calculate remainder skipValidItems = (((int)sequenceIndex()) % skippedPages) * visibleCount; } p.end(); if (totalValidThumbs >= 0) { // We only know this once we've iterated over the entire directory, so this will only be // set for large enough sequence indices. const int wraparoundPoint = (totalValidThumbs - 1) / visibleCount + 1; setMetaData("sequenceIndexWraparoundPoint", QString().setNum(wraparoundPoint)); } setMetaData("handlesSequences", QStringLiteral("1")); if (validThumbnails == 0) { // Eventually propagate the contained items from a sub-directory QDirIterator dir(directory, QDir::Dirs); int max = 50; while (dir.hasNext() && max > 0) { --max; dir.next(); if (m_propagationDirectories.contains(dir.fileName())) { return thumbForDirectory(dir.filePath()); } } // If no thumbnail could be found, return an empty image which indicates // that no preview for the directory is available. img = QImage(); } // If only for one file a thumbnail could be generated then paint an image with only one tile if (validThumbnails == 1) { QImage oneTileImg(folder.size(), QImage::Format_ARGB32); oneTileImg.setDevicePixelRatio(m_devicePixelRatio); oneTileImg.fill(0); QPainter oneTilePainter(&oneTileImg); oneTilePainter.setCompositionMode(QPainter::CompositionMode_Source); oneTilePainter.drawPixmap(0, 0, folder); oneTilePainter.setCompositionMode(QPainter::CompositionMode_SourceOver); const int oneTileWidth = folderWidth - leftMargin - rightMargin; const int oneTileHeight = folderHeight - topMargin - bottomMargin; if (firstThumbnail.width() < oneTileWidth && firstThumbnail.height() < oneTileHeight) { createSubThumbnail(firstThumbnail, hadFirstThumbnail, oneTileWidth, oneTileHeight); } drawSubThumbnail(oneTilePainter, firstThumbnail, oneTileWidth, oneTileHeight, leftMargin, topMargin, borderStrokeWidth); return oneTileImg; } return img; } ThumbCreatorWithMetadata *ThumbnailProtocol::getThumbCreator(const QString &plugin) { auto it = m_creators.constFind(plugin); if (it != m_creators.constEnd()) { return *it; } const KPluginMetaData md(plugin); const KPluginFactory::Result result = KPluginFactory::instantiatePlugin(md); if (result) { auto creator = new ThumbCreatorWithMetadata{ std::unique_ptr(result.plugin), md.value("CacheThumbnail", true), true, // KIO::ThumbnailCreator are always dpr-aware md.value("HandleSequences", false), }; m_creators.insert(plugin, creator); return creator; } return nullptr; } void ThumbnailProtocol::ensureDirsCreated() { if (m_thumbBasePath.isEmpty()) { m_thumbBasePath = QStandardPaths::writableLocation(QStandardPaths::GenericCacheLocation) + QLatin1String("/thumbnails/"); QDir basePath(m_thumbBasePath); basePath.mkpath("normal/"); QFile::setPermissions(basePath.absoluteFilePath("normal"), QFile::ReadOwner | QFile::WriteOwner | QFile::ExeOwner); basePath.mkpath("large/"); QFile::setPermissions(basePath.absoluteFilePath("large"), QFile::ReadOwner | QFile::WriteOwner | QFile::ExeOwner); if (m_devicePixelRatio > 1) { basePath.mkpath("x-large/"); QFile::setPermissions(basePath.absoluteFilePath("x-large"), QFile::ReadOwner | QFile::WriteOwner | QFile::ExeOwner); basePath.mkpath("xx-large/"); QFile::setPermissions(basePath.absoluteFilePath("xx-large"), QFile::ReadOwner | QFile::WriteOwner | QFile::ExeOwner); } } } bool ThumbnailProtocol::createSubThumbnail(QImage &thumbnail, const QString &filePath, int segmentWidth, int segmentHeight) { auto getSubCreator = [&filePath, this]() -> ThumbCreatorWithMetadata * { const QMimeDatabase db; const KPluginMetaData subPlugin = pluginForMimeType(db.mimeTypeForFile(filePath).name()); if (!subPlugin.isValid() || !m_enabledPlugins.contains(subPlugin.pluginId())) { return nullptr; } return getThumbCreator(subPlugin.fileName()); }; const auto maxDimension = qMin(1024.0, 512.0 * m_devicePixelRatio); if ((segmentWidth <= maxDimension) && (segmentHeight <= maxDimension)) { // check whether a cached version of the file is available for // 128 x 128, 256 x 256 pixels or 512 x 512 pixels taking into account devicePixelRatio int cacheSize = 0; QCryptographicHash md5(QCryptographicHash::Md5); const QByteArray fileUrl = QUrl::fromLocalFile(filePath).toEncoded(); md5.addData(fileUrl); const QString thumbName = QString::fromLatin1(md5.result().toHex()).append(".png"); ensureDirsCreated(); struct CachePool { QString path; int minSize; }; static const auto pools = { CachePool{QStringLiteral("normal/"), 128}, CachePool{QStringLiteral("large/"), 256}, CachePool{QStringLiteral("x-large/"), 512}, CachePool{QStringLiteral("xx-large/"), 1024}, }; const int wants = std::max(segmentWidth, segmentHeight); for (const auto &pool : pools) { if (pool.minSize < wants) { continue; } else if (cacheSize == 0) { // the lowest cache size the thumbnail could be at cacheSize = pool.minSize; } // try in folders with higher image quality as well if (thumbnail.load(m_thumbBasePath + pool.path + thumbName, "png")) { thumbnail.setDevicePixelRatio(m_devicePixelRatio); break; } } // no cached version is available, a new thumbnail must be created if (thumbnail.isNull()) { ThumbCreatorWithMetadata *subCreator = getSubCreator(); if (subCreator && createThumbnail(subCreator, filePath, cacheSize, cacheSize, thumbnail)) { scaleDownImage(thumbnail, cacheSize, cacheSize); // The thumbnail has been created successfully. Check if we can store // the thumbnail to the cache for future access. if (subCreator->cacheThumbnail && metaData("cache").toInt() && !thumbnail.isNull()) { QString thumbPath; const int wants = std::max(thumbnail.width(), thumbnail.height()); for (const auto &pool : pools) { if (pool.minSize < wants) { continue; } else if (thumbPath.isEmpty()) { // that's the appropriate path for this thumbnail thumbPath = m_thumbBasePath + pool.path; } } // The thumbnail has been created successfully. Store the thumbnail // to the cache for future access. QSaveFile thumbnailfile(QDir(thumbPath).absoluteFilePath(thumbName)); if (thumbnailfile.open(QIODevice::WriteOnly | QIODevice::Truncate)) { QFileInfo fi(filePath); thumbnail.setText(QStringLiteral("Thumb::URI"), QString::fromUtf8(fileUrl)); thumbnail.setText(QStringLiteral("Thumb::MTime"), QString::number(fi.lastModified().toSecsSinceEpoch())); thumbnail.setText(QStringLiteral("Thumb::Size"), QString::number(fi.size())); if (thumbnail.save(&thumbnailfile, "png")) { thumbnailfile.commit(); } } } } } if (thumbnail.isNull()) { return false; } } else { // image requested is too big to be stored in the cache // create an image on demand ThumbCreatorWithMetadata *subCreator = getSubCreator(); if (!subCreator || !createThumbnail(subCreator, filePath, segmentWidth, segmentHeight, thumbnail)) { return false; } } // Make sure the image fits in the segments // Some thumbnail creators do not respect the width / height parameters scaleDownImage(thumbnail, segmentWidth, segmentHeight); return true; } bool ThumbnailProtocol::createThumbnail(ThumbCreatorWithMetadata *thumbCreator, const QString &filePath, int width, int height, QImage &thumbnail) { bool success = false; auto result = thumbCreator->creator->create( KIO::ThumbnailRequest(QUrl::fromLocalFile(filePath), QSize(width, height), m_mimeType, m_devicePixelRatio, sequenceIndex())); success = result.isValid(); thumbnail = result.image(); m_sequenceIndexWrapAroundPoint = result.sequenceIndexWraparoundPoint(); if (!success) { return false; } // make sure the image is not bigger than the expected size scaleDownImage(thumbnail, width, height); thumbnail.setDevicePixelRatio(m_devicePixelRatio); convertToStandardRgb(thumbnail); return true; } void ThumbnailProtocol::drawSubThumbnail(QPainter &p, QImage subThumbnail, int width, int height, int xPos, int yPos, int borderStrokeWidth) { scaleDownImage(subThumbnail, width, height); // center the image inside the segment boundaries const QPoint centerPos((xPos + width / 2) / m_devicePixelRatio, (yPos + height / 2) / m_devicePixelRatio); const int rotationAngle = m_randomGenerator.bounded(-8, 9); // Random rotation ±8° drawPictureFrame(&p, centerPos, subThumbnail, borderStrokeWidth, QSize(width, height), rotationAngle); } #include "thumbnail.moc"