/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtDeclarative module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "private/qdeclarativepixmapcache_p.h" #include "qdeclarativenetworkaccessmanagerfactory.h" #include "qdeclarativeimageprovider.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define IMAGEREQUEST_MAX_REQUEST_COUNT 8 #define IMAGEREQUEST_MAX_REDIRECT_RECURSION 16 #define CACHE_EXPIRE_TIME 30 #define CACHE_REMOVAL_FRACTION 4 QT_BEGIN_NAMESPACE // The cache limit describes the maximum "junk" in the cache. // These are the same defaults as QPixmapCache #if defined(Q_OS_SYMBIAN) static int cache_limit = 1024 * 1024; // 1048 KB cache limit for symbian #elif defined(Q_WS_QWS) || defined(Q_WS_WINCE) static int cache_limit = 2048 * 1024; // 2048 KB cache limit for embedded #else static int cache_limit = 10240 * 1024; // 10 MB cache limit for desktop #endif class QDeclarativePixmapReader; class QDeclarativePixmapData; class QDeclarativePixmapReply : public QObject { Q_OBJECT public: enum ReadError { NoError, Loading, Decoding }; QDeclarativePixmapReply(QDeclarativePixmapData *); ~QDeclarativePixmapReply(); QDeclarativePixmapData *data; QDeclarativePixmapReader *reader; bool loading; int redirectCount; class Event : public QEvent { public: Event(ReadError, const QString &, const QSize &, const QImage &); ReadError error; QString errorString; QSize implicitSize; QImage image; }; void postReply(ReadError, const QString &, const QSize &, const QImage &); Q_SIGNALS: void finished(); void downloadProgress(qint64, qint64); protected: bool event(QEvent *event); private: Q_DISABLE_COPY(QDeclarativePixmapReply) public: static int finishedIndex; static int downloadProgressIndex; }; class QDeclarativePixmapReaderThreadObject : public QObject { Q_OBJECT public: QDeclarativePixmapReaderThreadObject(QDeclarativePixmapReader *); void processJobs(); virtual bool event(QEvent *e); private slots: void networkRequestDone(); private: QDeclarativePixmapReader *reader; }; class QDeclarativePixmapData; class QDeclarativePixmapReader : public QThread { Q_OBJECT public: QDeclarativePixmapReader(QDeclarativeEngine *eng); ~QDeclarativePixmapReader(); QDeclarativePixmapReply *getImage(QDeclarativePixmapData *); void cancel(QDeclarativePixmapReply *rep); static QDeclarativePixmapReader *instance(QDeclarativeEngine *engine); protected: void run(); private: friend class QDeclarativePixmapReaderThreadObject; void processJobs(); void processJob(QDeclarativePixmapReply *, const QUrl &, const QSize &); void networkRequestDone(QNetworkReply *); QList jobs; QList cancelled; QDeclarativeEngine *engine; QObject *eventLoopQuitHack; QMutex mutex; QDeclarativePixmapReaderThreadObject *threadObject; QWaitCondition waitCondition; QNetworkAccessManager *networkAccessManager(); QNetworkAccessManager *accessManager; QHash replies; static int replyDownloadProgress; static int replyFinished; static int downloadProgress; static int threadNetworkRequestDone; static QHash readers; static QMutex readerMutex; }; class QDeclarativePixmapData { public: QDeclarativePixmapData(const QUrl &u, const QSize &s, const QString &e) : refCount(1), inCache(false), pixmapStatus(QDeclarativePixmap::Error), url(u), errorString(e), requestSize(s), reply(0), prevUnreferenced(0), prevUnreferencedPtr(0), nextUnreferenced(0) { } QDeclarativePixmapData(const QUrl &u, const QSize &r) : refCount(1), inCache(false), pixmapStatus(QDeclarativePixmap::Loading), url(u), requestSize(r), reply(0), prevUnreferenced(0), prevUnreferencedPtr(0), nextUnreferenced(0) { } QDeclarativePixmapData(const QUrl &u, const QPixmap &p, const QSize &s, const QSize &r) : refCount(1), inCache(false), privatePixmap(false), pixmapStatus(QDeclarativePixmap::Ready), url(u), pixmap(p), implicitSize(s), requestSize(r), reply(0), prevUnreferenced(0), prevUnreferencedPtr(0), nextUnreferenced(0) { } QDeclarativePixmapData(const QPixmap &p) : refCount(1), inCache(false), privatePixmap(true), pixmapStatus(QDeclarativePixmap::Ready), pixmap(p), implicitSize(p.size()), requestSize(p.size()), reply(0), prevUnreferenced(0), prevUnreferencedPtr(0), nextUnreferenced(0) { } int cost() const; void addref(); void release(); void addToCache(); void removeFromCache(); uint refCount; bool inCache:1; bool privatePixmap:1; QDeclarativePixmap::Status pixmapStatus; QUrl url; QString errorString; QPixmap pixmap; QSize implicitSize; QSize requestSize; QDeclarativePixmapReply *reply; QDeclarativePixmapData *prevUnreferenced; QDeclarativePixmapData**prevUnreferencedPtr; QDeclarativePixmapData *nextUnreferenced; }; int QDeclarativePixmapReply::finishedIndex = -1; int QDeclarativePixmapReply::downloadProgressIndex = -1; // XXX QHash QDeclarativePixmapReader::readers; QMutex QDeclarativePixmapReader::readerMutex; int QDeclarativePixmapReader::replyDownloadProgress = -1; int QDeclarativePixmapReader::replyFinished = -1; int QDeclarativePixmapReader::downloadProgress = -1; int QDeclarativePixmapReader::threadNetworkRequestDone = -1; void QDeclarativePixmapReply::postReply(ReadError error, const QString &errorString, const QSize &implicitSize, const QImage &image) { loading = false; QCoreApplication::postEvent(this, new Event(error, errorString, implicitSize, image)); } QDeclarativePixmapReply::Event::Event(ReadError e, const QString &s, const QSize &iSize, const QImage &i) : QEvent(QEvent::User), error(e), errorString(s), implicitSize(iSize), image(i) { } QNetworkAccessManager *QDeclarativePixmapReader::networkAccessManager() { if (!accessManager) { Q_ASSERT(threadObject); accessManager = QDeclarativeEnginePrivate::get(engine)->createNetworkAccessManager(threadObject); } return accessManager; } static bool readImage(const QUrl& url, QIODevice *dev, QImage *image, QString *errorString, QSize *impsize, const QSize &requestSize) { QImageReader imgio(dev); bool force_scale = false; if (url.path().endsWith(QLatin1String(".svg"),Qt::CaseInsensitive)) { imgio.setFormat("svg"); // QSvgPlugin::capabilities bug QTBUG-9053 force_scale = true; } bool scaled = false; if (requestSize.width() > 0 || requestSize.height() > 0) { QSize s = imgio.size(); if (requestSize.width() && (force_scale || requestSize.width() < s.width())) { if (requestSize.height() <= 0) s.setHeight(s.height()*requestSize.width()/s.width()); s.setWidth(requestSize.width()); scaled = true; } if (requestSize.height() && (force_scale || requestSize.height() < s.height())) { if (requestSize.width() <= 0) s.setWidth(s.width()*requestSize.height()/s.height()); s.setHeight(requestSize.height()); scaled = true; } if (scaled) { imgio.setScaledSize(s); } } if (impsize) *impsize = imgio.size(); if (imgio.read(image)) { if (impsize && impsize->width() < 0) *impsize = image->size(); return true; } else { if (errorString) *errorString = QDeclarativePixmap::tr("Error decoding: %1: %2").arg(url.toString()) .arg(imgio.errorString()); return false; } } QDeclarativePixmapReader::QDeclarativePixmapReader(QDeclarativeEngine *eng) : QThread(eng), engine(eng), threadObject(0), accessManager(0) { eventLoopQuitHack = new QObject; eventLoopQuitHack->moveToThread(this); connect(eventLoopQuitHack, SIGNAL(destroyed(QObject*)), SLOT(quit()), Qt::DirectConnection); start(QThread::IdlePriority); } QDeclarativePixmapReader::~QDeclarativePixmapReader() { readerMutex.lock(); readers.remove(engine); readerMutex.unlock(); eventLoopQuitHack->deleteLater(); wait(); } void QDeclarativePixmapReader::networkRequestDone(QNetworkReply *reply) { QDeclarativePixmapReply *job = replies.take(reply); if (job) { job->redirectCount++; if (job->redirectCount < IMAGEREQUEST_MAX_REDIRECT_RECURSION) { QVariant redirect = reply->attribute(QNetworkRequest::RedirectionTargetAttribute); if (redirect.isValid()) { QUrl url = reply->url().resolved(redirect.toUrl()); QNetworkRequest req(url); req.setAttribute(QNetworkRequest::HttpPipeliningAllowedAttribute, true); reply->deleteLater(); reply = networkAccessManager()->get(req); QMetaObject::connect(reply, replyDownloadProgress, job, downloadProgress); QMetaObject::connect(reply, replyFinished, threadObject, threadNetworkRequestDone); replies.insert(reply, job); return; } } QImage image; QDeclarativePixmapReply::ReadError error = QDeclarativePixmapReply::NoError; QString errorString; QSize readSize; if (reply->error()) { error = QDeclarativePixmapReply::Loading; errorString = reply->errorString(); } else { QByteArray all = reply->readAll(); QBuffer buff(&all); buff.open(QIODevice::ReadOnly); if (!readImage(reply->url(), &buff, &image, &errorString, &readSize, job->data->requestSize)) { error = QDeclarativePixmapReply::Decoding; } } // send completion event to the QDeclarativePixmapReply mutex.lock(); if (!cancelled.contains(job)) job->postReply(error, errorString, readSize, image); mutex.unlock(); } reply->deleteLater(); // kick off event loop again incase we have dropped below max request count threadObject->processJobs(); } QDeclarativePixmapReaderThreadObject::QDeclarativePixmapReaderThreadObject(QDeclarativePixmapReader *i) : reader(i) { } void QDeclarativePixmapReaderThreadObject::processJobs() { QCoreApplication::postEvent(this, new QEvent(QEvent::User)); } bool QDeclarativePixmapReaderThreadObject::event(QEvent *e) { if (e->type() == QEvent::User) { reader->processJobs(); return true; } else { return QObject::event(e); } } void QDeclarativePixmapReaderThreadObject::networkRequestDone() { QNetworkReply *reply = static_cast(sender()); reader->networkRequestDone(reply); } void QDeclarativePixmapReader::processJobs() { QMutexLocker locker(&mutex); while (true) { if (cancelled.isEmpty() && (jobs.isEmpty() || replies.count() >= IMAGEREQUEST_MAX_REQUEST_COUNT)) return; // Nothing else to do // Clean cancelled jobs if (cancelled.count()) { for (int i = 0; i < cancelled.count(); ++i) { QDeclarativePixmapReply *job = cancelled.at(i); QNetworkReply *reply = replies.key(job, 0); if (reply && reply->isRunning()) { // cancel any jobs already started replies.remove(reply); reply->close(); } delete job; } cancelled.clear(); } if (!jobs.isEmpty() && replies.count() < IMAGEREQUEST_MAX_REQUEST_COUNT) { QDeclarativePixmapReply *runningJob = jobs.takeLast(); runningJob->loading = true; QUrl url = runningJob->data->url; QSize requestSize = runningJob->data->requestSize; locker.unlock(); processJob(runningJob, url, requestSize); locker.relock(); } } } void QDeclarativePixmapReader::processJob(QDeclarativePixmapReply *runningJob, const QUrl &url, const QSize &requestSize) { // fetch if (url.scheme() == QLatin1String("image")) { // Use QmlImageProvider QSize readSize; QDeclarativeEnginePrivate *ep = QDeclarativeEnginePrivate::get(engine); QImage image = ep->getImageFromProvider(url, &readSize, requestSize); QDeclarativePixmapReply::ReadError errorCode = QDeclarativePixmapReply::NoError; QString errorStr; if (image.isNull()) { errorCode = QDeclarativePixmapReply::Loading; errorStr = QDeclarativePixmap::tr("Failed to get image from provider: %1").arg(url.toString()); } mutex.lock(); if (!cancelled.contains(runningJob)) runningJob->postReply(errorCode, errorStr, readSize, image); mutex.unlock(); } else { QString lf = QDeclarativeEnginePrivate::urlToLocalFileOrQrc(url); if (!lf.isEmpty()) { // Image is local - load/decode immediately QImage image; QDeclarativePixmapReply::ReadError errorCode = QDeclarativePixmapReply::NoError; QString errorStr; QFile f(lf); QSize readSize; if (f.open(QIODevice::ReadOnly)) { if (!readImage(url, &f, &image, &errorStr, &readSize, requestSize)) errorCode = QDeclarativePixmapReply::Loading; } else { errorStr = QDeclarativePixmap::tr("Cannot open: %1").arg(url.toString()); errorCode = QDeclarativePixmapReply::Loading; } mutex.lock(); if (!cancelled.contains(runningJob)) runningJob->postReply(errorCode, errorStr, readSize, image); mutex.unlock(); } else { // Network resource QNetworkRequest req(url); req.setAttribute(QNetworkRequest::HttpPipeliningAllowedAttribute, true); QNetworkReply *reply = networkAccessManager()->get(req); QMetaObject::connect(reply, replyDownloadProgress, runningJob, downloadProgress); QMetaObject::connect(reply, replyFinished, threadObject, threadNetworkRequestDone); replies.insert(reply, runningJob); } } } QDeclarativePixmapReader *QDeclarativePixmapReader::instance(QDeclarativeEngine *engine) { readerMutex.lock(); QDeclarativePixmapReader *reader = readers.value(engine); if (!reader) { reader = new QDeclarativePixmapReader(engine); readers.insert(engine, reader); } readerMutex.unlock(); return reader; } QDeclarativePixmapReply *QDeclarativePixmapReader::getImage(QDeclarativePixmapData *data) { mutex.lock(); QDeclarativePixmapReply *reply = new QDeclarativePixmapReply(data); reply->reader = this; jobs.append(reply); // XXX if (threadObject) threadObject->processJobs(); mutex.unlock(); return reply; } void QDeclarativePixmapReader::cancel(QDeclarativePixmapReply *reply) { mutex.lock(); if (reply->loading) { cancelled.append(reply); reply->data = 0; // XXX if (threadObject) threadObject->processJobs(); } else { jobs.removeAll(reply); delete reply; } mutex.unlock(); } void QDeclarativePixmapReader::run() { if (replyDownloadProgress == -1) { const QMetaObject *nr = &QNetworkReply::staticMetaObject; const QMetaObject *pr = &QDeclarativePixmapReply::staticMetaObject; const QMetaObject *ir = &QDeclarativePixmapReaderThreadObject::staticMetaObject; replyDownloadProgress = nr->indexOfSignal("downloadProgress(qint64,qint64)"); replyFinished = nr->indexOfSignal("finished()"); downloadProgress = pr->indexOfSignal("downloadProgress(qint64,qint64)"); threadNetworkRequestDone = ir->indexOfSlot("networkRequestDone()"); } mutex.lock(); threadObject = new QDeclarativePixmapReaderThreadObject(this); mutex.unlock(); processJobs(); exec(); delete threadObject; threadObject = 0; } class QDeclarativePixmapKey { public: const QUrl *url; const QSize *size; }; inline bool operator==(const QDeclarativePixmapKey &lhs, const QDeclarativePixmapKey &rhs) { return *lhs.size == *rhs.size && *lhs.url == *rhs.url; } inline uint qHash(const QDeclarativePixmapKey &key) { return qHash(*key.url) ^ key.size->width() ^ key.size->height(); } class QDeclarativePixmapStore : public QObject { Q_OBJECT public: QDeclarativePixmapStore(); void unreferencePixmap(QDeclarativePixmapData *); void referencePixmap(QDeclarativePixmapData *); protected: virtual void timerEvent(QTimerEvent *); public: QHash m_cache; private: void shrinkCache(int remove); QDeclarativePixmapData *m_unreferencedPixmaps; QDeclarativePixmapData *m_lastUnreferencedPixmap; int m_unreferencedCost; int m_timerId; }; Q_GLOBAL_STATIC(QDeclarativePixmapStore, pixmapStore); QDeclarativePixmapStore::QDeclarativePixmapStore() : m_unreferencedPixmaps(0), m_lastUnreferencedPixmap(0), m_unreferencedCost(0), m_timerId(-1) { } void QDeclarativePixmapStore::unreferencePixmap(QDeclarativePixmapData *data) { Q_ASSERT(data->prevUnreferenced == 0); Q_ASSERT(data->prevUnreferencedPtr == 0); Q_ASSERT(data->nextUnreferenced == 0); data->nextUnreferenced = m_unreferencedPixmaps; data->prevUnreferencedPtr = &m_unreferencedPixmaps; m_unreferencedPixmaps = data; if (m_unreferencedPixmaps->nextUnreferenced) { m_unreferencedPixmaps->nextUnreferenced->prevUnreferenced = m_unreferencedPixmaps; m_unreferencedPixmaps->nextUnreferenced->prevUnreferencedPtr = &m_unreferencedPixmaps->nextUnreferenced; } if (!m_lastUnreferencedPixmap) m_lastUnreferencedPixmap = data; m_unreferencedCost += data->cost(); shrinkCache(-1); // Shrink the cache incase it has become larger than cache_limit if (m_timerId == -1 && m_unreferencedPixmaps) m_timerId = startTimer(CACHE_EXPIRE_TIME * 1000); } void QDeclarativePixmapStore::referencePixmap(QDeclarativePixmapData *data) { Q_ASSERT(data->prevUnreferencedPtr); *data->prevUnreferencedPtr = data->nextUnreferenced; if (data->nextUnreferenced) { data->nextUnreferenced->prevUnreferencedPtr = data->prevUnreferencedPtr; data->nextUnreferenced->prevUnreferenced = data->prevUnreferenced; } if (m_lastUnreferencedPixmap == data) m_lastUnreferencedPixmap = data->prevUnreferenced; data->nextUnreferenced = 0; data->prevUnreferencedPtr = 0; data->prevUnreferenced = 0; m_unreferencedCost -= data->cost(); } void QDeclarativePixmapStore::shrinkCache(int remove) { while ((remove > 0 || m_unreferencedCost > cache_limit) && m_lastUnreferencedPixmap) { QDeclarativePixmapData *data = m_lastUnreferencedPixmap; Q_ASSERT(data->nextUnreferenced == 0); *data->prevUnreferencedPtr = 0; m_lastUnreferencedPixmap = data->prevUnreferenced; data->prevUnreferencedPtr = 0; data->prevUnreferenced = 0; remove -= data->cost(); m_unreferencedCost -= data->cost(); data->removeFromCache(); delete data; } } void QDeclarativePixmapStore::timerEvent(QTimerEvent *) { int removalCost = m_unreferencedCost / CACHE_REMOVAL_FRACTION; shrinkCache(removalCost); if (m_unreferencedPixmaps == 0) { killTimer(m_timerId); m_timerId = -1; } } QDeclarativePixmapReply::QDeclarativePixmapReply(QDeclarativePixmapData *d) : data(d), reader(0), loading(false), redirectCount(0) { if (finishedIndex == -1) { finishedIndex = QDeclarativePixmapReply::staticMetaObject.indexOfSignal("finished()"); downloadProgressIndex = QDeclarativePixmapReply::staticMetaObject.indexOfSignal("downloadProgress(qint64,qint64)"); } } QDeclarativePixmapReply::~QDeclarativePixmapReply() { } bool QDeclarativePixmapReply::event(QEvent *event) { if (event->type() == QEvent::User) { if (data) { Event *de = static_cast(event); data->pixmapStatus = (de->error == NoError) ? QDeclarativePixmap::Ready : QDeclarativePixmap::Error; if (data->pixmapStatus == QDeclarativePixmap::Ready) { data->pixmap = QPixmap::fromImage(de->image); data->implicitSize = de->implicitSize; } else { data->errorString = de->errorString; data->removeFromCache(); // We don't continue to cache error'd pixmaps } data->reply = 0; emit finished(); } delete this; return true; } else { return QObject::event(event); } } int QDeclarativePixmapData::cost() const { return (pixmap.width() * pixmap.height() * pixmap.depth()) / 8; } void QDeclarativePixmapData::addref() { ++refCount; if (prevUnreferencedPtr) pixmapStore()->referencePixmap(this); } void QDeclarativePixmapData::release() { Q_ASSERT(refCount > 0); --refCount; if (refCount == 0) { if (reply) { reply->reader->cancel(reply); reply = 0; } if (pixmapStatus == QDeclarativePixmap::Ready) { pixmapStore()->unreferencePixmap(this); } else { removeFromCache(); delete this; } } } void QDeclarativePixmapData::addToCache() { if (!inCache) { QDeclarativePixmapKey key = { &url, &requestSize }; pixmapStore()->m_cache.insert(key, this); inCache = true; } } void QDeclarativePixmapData::removeFromCache() { if (inCache) { QDeclarativePixmapKey key = { &url, &requestSize }; pixmapStore()->m_cache.remove(key); inCache = false; } } static QDeclarativePixmapData* createPixmapDataSync(QDeclarativeEngine *engine, const QUrl &url, const QSize &requestSize, bool *ok) { if (url.scheme() == QLatin1String("image")) { QSize readSize; QDeclarativeEnginePrivate *ep = QDeclarativeEnginePrivate::get(engine); QDeclarativeImageProvider::ImageType imageType = ep->getImageProviderType(url); switch (imageType) { case QDeclarativeImageProvider::Image: { QImage image = ep->getImageFromProvider(url, &readSize, requestSize); if (!image.isNull()) { *ok = true; return new QDeclarativePixmapData(url, QPixmap::fromImage(image), readSize, requestSize); } } case QDeclarativeImageProvider::Pixmap: { QPixmap pixmap = ep->getPixmapFromProvider(url, &readSize, requestSize); if (!pixmap.isNull()) { *ok = true; return new QDeclarativePixmapData(url, pixmap, readSize, requestSize); } } } // no matching provider, or provider has bad image type, or provider returned null image return new QDeclarativePixmapData(url, requestSize, QDeclarativePixmap::tr("Failed to get image from provider: %1").arg(url.toString())); } QString localFile = QDeclarativeEnginePrivate::urlToLocalFileOrQrc(url); if (localFile.isEmpty()) return 0; QFile f(localFile); QSize readSize; QString errorString; if (f.open(QIODevice::ReadOnly)) { QImage image; if (readImage(url, &f, &image, &errorString, &readSize, requestSize)) { *ok = true; return new QDeclarativePixmapData(url, QPixmap::fromImage(image), readSize, requestSize); } } else { errorString = QDeclarativePixmap::tr("Cannot open: %1").arg(url.toString()); } return new QDeclarativePixmapData(url, requestSize, errorString); } struct QDeclarativePixmapNull { QUrl url; QPixmap pixmap; QSize size; }; Q_GLOBAL_STATIC(QDeclarativePixmapNull, nullPixmap); QDeclarativePixmap::QDeclarativePixmap() : d(0) { } QDeclarativePixmap::QDeclarativePixmap(QDeclarativeEngine *engine, const QUrl &url) : d(0) { load(engine, url); } QDeclarativePixmap::QDeclarativePixmap(QDeclarativeEngine *engine, const QUrl &url, const QSize &size) : d(0) { load(engine, url, size); } QDeclarativePixmap::~QDeclarativePixmap() { if (d) { d->release(); d = 0; } } bool QDeclarativePixmap::isNull() const { return d == 0; } bool QDeclarativePixmap::isReady() const { return status() == Ready; } bool QDeclarativePixmap::isError() const { return status() == Error; } bool QDeclarativePixmap::isLoading() const { return status() == Loading; } QString QDeclarativePixmap::error() const { if (d) return d->errorString; else return QString(); } QDeclarativePixmap::Status QDeclarativePixmap::status() const { if (d) return d->pixmapStatus; else return Null; } const QUrl &QDeclarativePixmap::url() const { if (d) return d->url; else return nullPixmap()->url; } const QSize &QDeclarativePixmap::implicitSize() const { if (d) return d->implicitSize; else return nullPixmap()->size; } const QSize &QDeclarativePixmap::requestSize() const { if (d) return d->requestSize; else return nullPixmap()->size; } const QPixmap &QDeclarativePixmap::pixmap() const { if (d) return d->pixmap; else return nullPixmap()->pixmap; } void QDeclarativePixmap::setPixmap(const QPixmap &p) { clear(); if (!p.isNull()) d = new QDeclarativePixmapData(p); } int QDeclarativePixmap::width() const { if (d) return d->pixmap.width(); else return 0; } int QDeclarativePixmap::height() const { if (d) return d->pixmap.height(); else return 0; } QRect QDeclarativePixmap::rect() const { if (d) return d->pixmap.rect(); else return QRect(); } void QDeclarativePixmap::load(QDeclarativeEngine *engine, const QUrl &url) { load(engine, url, QSize(), false); } void QDeclarativePixmap::load(QDeclarativeEngine *engine, const QUrl &url, bool async) { load(engine, url, QSize(), async); } void QDeclarativePixmap::load(QDeclarativeEngine *engine, const QUrl &url, const QSize &size) { load(engine, url, size, false); } void QDeclarativePixmap::load(QDeclarativeEngine *engine, const QUrl &url, const QSize &requestSize, bool async) { if (d) { d->release(); d = 0; } QDeclarativePixmapKey key = { &url, &requestSize }; QDeclarativePixmapStore *store = pixmapStore(); QHash::Iterator iter = store->m_cache.find(key); if (iter == store->m_cache.end()) { if (async) { // pixmaps can only be loaded synchronously if (url.scheme() == QLatin1String("image") && QDeclarativeEnginePrivate::get(engine)->getImageProviderType(url) == QDeclarativeImageProvider::Pixmap) { async = false; } } if (!async) { bool ok = false; d = createPixmapDataSync(engine, url, requestSize, &ok); if (ok) { d->addToCache(); return; } if (d) // loadable, but encountered error while loading return; } if (!engine) return; QDeclarativePixmapReader *reader = QDeclarativePixmapReader::instance(engine); d = new QDeclarativePixmapData(url, requestSize); d->addToCache(); d->reply = reader->getImage(d); } else { d = *iter; d->addref(); } } void QDeclarativePixmap::clear() { if (d) { d->release(); d = 0; } } void QDeclarativePixmap::clear(QObject *obj) { if (d) { if (d->reply) QObject::disconnect(d->reply, 0, obj, 0); d->release(); d = 0; } } bool QDeclarativePixmap::connectFinished(QObject *object, const char *method) { if (!d || !d->reply) { qWarning("QDeclarativePixmap: connectFinished() called when not loading."); return false; } return QObject::connect(d->reply, SIGNAL(finished()), object, method); } bool QDeclarativePixmap::connectFinished(QObject *object, int method) { if (!d || !d->reply) { qWarning("QDeclarativePixmap: connectFinished() called when not loading."); return false; } return QMetaObject::connect(d->reply, QDeclarativePixmapReply::finishedIndex, object, method); } bool QDeclarativePixmap::connectDownloadProgress(QObject *object, const char *method) { if (!d || !d->reply) { qWarning("QDeclarativePixmap: connectDownloadProgress() called when not loading."); return false; } return QObject::connect(d->reply, SIGNAL(downloadProgress(qint64,qint64)), object, method); } bool QDeclarativePixmap::connectDownloadProgress(QObject *object, int method) { if (!d || !d->reply) { qWarning("QDeclarativePixmap: connectDownloadProgress() called when not loading."); return false; } return QMetaObject::connect(d->reply, QDeclarativePixmapReply::downloadProgressIndex, object, method); } QT_END_NAMESPACE #include