/**************************************************************************** ** ** 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/qdeclarativepainteditem_p.h" #include "private/qdeclarativepainteditem_p_p.h" #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE /*! \class QDeclarativePaintedItem \brief The QDeclarativePaintedItem class is an abstract base class for QDeclarativeView items that want cached painting. \internal This is a convenience class for implementing items that cache their painting. The contents of the item are cached behind the scenes. The dirtyCache() function should be called if the contents change to ensure the cache is refreshed the next time painting occurs. To subclass QDeclarativePaintedItem, you must reimplement drawContents() to draw the contents of the item. */ /*! \fn void QDeclarativePaintedItem::drawContents(QPainter *painter, const QRect &rect) This function is called when the cache needs to be refreshed. When sub-classing QDeclarativePaintedItem this function should be implemented so as to paint the contents of the item using the given \a painter for the area of the contents specified by \a rect. */ /*! \property QDeclarativePaintedItem::contentsSize \brief The size of the contents The contents size is the size of the item in regards to how it is painted using the drawContents() function. This is distinct from the size of the item in regards to height() and width(). */ // XXX bug in WebKit - can call repaintRequested and other cache-changing functions from within render! static int inpaint=0; static int inpaint_clearcache=0; extern Q_GUI_EXPORT bool qt_applefontsmoothing_enabled; /*! Marks areas of the cache that intersect with the given \a rect as dirty and in need of being refreshed. \sa clearCache() */ void QDeclarativePaintedItem::dirtyCache(const QRect& rect) { Q_D(QDeclarativePaintedItem); QRect srect(qCeil(rect.x()*d->contentsScale), qCeil(rect.y()*d->contentsScale), qCeil(rect.width()*d->contentsScale), qCeil(rect.height()*d->contentsScale)); for (int i=0; i < d->imagecache.count(); ) { QDeclarativePaintedItemPrivate::ImageCacheItem *c = d->imagecache[i]; QRect isect = (c->area & srect) | c->dirty; if (isect == c->area && !inpaint) { delete d->imagecache.takeAt(i); } else { c->dirty = isect; ++i; } } } /*! Marks the entirety of the contents cache as dirty. \sa dirtyCache() */ void QDeclarativePaintedItem::clearCache() { if (inpaint) { inpaint_clearcache=1; return; } Q_D(QDeclarativePaintedItem); qDeleteAll(d->imagecache); d->imagecache.clear(); } /*! Returns the size of the contents. \sa setContentsSize() */ QSize QDeclarativePaintedItem::contentsSize() const { Q_D(const QDeclarativePaintedItem); return d->contentsSize; } /*! Sets the size of the contents to the given \a size. \sa contentsSize() */ void QDeclarativePaintedItem::setContentsSize(const QSize &size) { Q_D(QDeclarativePaintedItem); if (d->contentsSize == size) return; prepareGeometryChange(); d->contentsSize = size; clearCache(); update(); emit contentsSizeChanged(); } qreal QDeclarativePaintedItem::contentsScale() const { Q_D(const QDeclarativePaintedItem); return d->contentsScale; } void QDeclarativePaintedItem::setContentsScale(qreal scale) { Q_D(QDeclarativePaintedItem); if (d->contentsScale == scale) return; d->contentsScale = scale; clearCache(); update(); emit contentsScaleChanged(); } /*! Constructs a new QDeclarativePaintedItem with the given \a parent. */ QDeclarativePaintedItem::QDeclarativePaintedItem(QDeclarativeItem *parent) : QDeclarativeItem(*(new QDeclarativePaintedItemPrivate), parent) { } /*! \internal Constructs a new QDeclarativePaintedItem with the given \a parent and initialized private data member \a dd. */ QDeclarativePaintedItem::QDeclarativePaintedItem(QDeclarativePaintedItemPrivate &dd, QDeclarativeItem *parent) : QDeclarativeItem(dd, parent) { } /*! Destroys the image item. */ QDeclarativePaintedItem::~QDeclarativePaintedItem() { clearCache(); } void QDeclarativePaintedItem::geometryChanged(const QRectF &newGeometry, const QRectF &oldGeometry) { if (newGeometry.width() != oldGeometry.width() || newGeometry.height() != oldGeometry.height()) clearCache(); QDeclarativeItem::geometryChanged(newGeometry, oldGeometry); } QVariant QDeclarativePaintedItem::itemChange(GraphicsItemChange change, const QVariant &value) { if (change == ItemVisibleHasChanged) clearCache(); return QDeclarativeItem::itemChange(change, value); } void QDeclarativePaintedItem::setCacheFrozen(bool frozen) { Q_D(QDeclarativePaintedItem); if (d->cachefrozen == frozen) return; d->cachefrozen = frozen; // XXX clear cache? } QRectF QDeclarativePaintedItem::boundingRect() const { Q_D(const QDeclarativePaintedItem); qreal w = d->mWidth; QSizeF sz = d->contentsSize * d->contentsScale; if (w < sz.width()) w = sz.width(); qreal h = d->mHeight; if (h < sz.height()) h = sz.height(); return QRectF(0.0,0.0,w,h); } /*! \internal */ void QDeclarativePaintedItem::paint(QPainter *p, const QStyleOptionGraphicsItem *, QWidget *) { Q_D(QDeclarativePaintedItem); const QRect content = boundingRect().toRect(); if (content.width() <= 0 || content.height() <= 0) return; ++inpaint; const QTransform &x = p->deviceTransform(); QTransform xinv = x.inverted(); QRegion effectiveClip; QRegion sysClip = p->paintEngine()->systemClip(); if (xinv.type() <= QTransform::TxScale && sysClip.numRects() < 5) { // simple transform, region gets no more complicated... effectiveClip = xinv.map(sysClip); } else { // do not make complicated regions... effectiveClip = xinv.mapRect(sysClip.boundingRect()); } QRegion topaint = p->clipRegion(); if (topaint.isEmpty()) { if (effectiveClip.isEmpty()) topaint = QRect(0,0,p->device()->width(),p->device()->height()); else topaint = effectiveClip; } else if (!effectiveClip.isEmpty()) { topaint &= effectiveClip; } topaint &= content; QRegion uncached(content); p->setRenderHints(QPainter::SmoothPixmapTransform, d->smooth); int cachesize=0; for (int i=0; iimagecache.count(); ++i) { QRect area = d->imagecache[i]->area; if (topaint.contains(area)) { QRectF target(area.x(), area.y(), area.width(), area.height()); if (!d->cachefrozen) { if (!d->imagecache[i]->dirty.isNull() && topaint.contains(d->imagecache[i]->dirty)) { #ifdef Q_WS_MAC bool oldSmooth = qt_applefontsmoothing_enabled; qt_applefontsmoothing_enabled = false; #endif QPainter qp(&d->imagecache[i]->image); #ifdef Q_WS_MAC qt_applefontsmoothing_enabled = oldSmooth; #endif qp.setRenderHints(QPainter::HighQualityAntialiasing | QPainter::TextAntialiasing | QPainter::SmoothPixmapTransform, d->smoothCache); qp.translate(-area.x(), -area.y()); qp.scale(d->contentsScale,d->contentsScale); QRect clip = d->imagecache[i]->dirty; QRect sclip(qFloor(clip.x()/d->contentsScale), qFloor(clip.y()/d->contentsScale), qCeil(clip.width()/d->contentsScale+clip.x()/d->contentsScale-qFloor(clip.x()/d->contentsScale)), qCeil(clip.height()/d->contentsScale+clip.y()/d->contentsScale-qFloor(clip.y()/d->contentsScale))); qp.setClipRect(sclip); if (d->fillColor.isValid()){ if(d->fillColor.alpha() < 255){ // ### Might not work outside of raster paintengine QPainter::CompositionMode prev = qp.compositionMode(); qp.setCompositionMode(QPainter::CompositionMode_Source); qp.fillRect(sclip,d->fillColor); qp.setCompositionMode(prev); }else{ qp.fillRect(sclip,d->fillColor); } } drawContents(&qp, sclip); d->imagecache[i]->dirty = QRect(); } } p->drawPixmap(target.toRect(), d->imagecache[i]->image); topaint -= area; d->imagecache[i]->age=0; } else { d->imagecache[i]->age++; } cachesize += area.width()*area.height(); uncached -= area; } if (!topaint.isEmpty()) { if (!d->cachefrozen) { // Find a sensible larger area, otherwise will paint lots of tiny images. QRect biggerrect = topaint.boundingRect().adjusted(-64,-64,128,128); cachesize += biggerrect.width() * biggerrect.height(); while (d->imagecache.count() && cachesize > d->max_imagecache_size) { int oldest=-1; int age=-1; for (int i=0; iimagecache.count(); ++i) { int a = d->imagecache[i]->age; if (a > age) { oldest = i; age = a; } } cachesize -= d->imagecache[oldest]->area.width()*d->imagecache[oldest]->area.height(); uncached += d->imagecache[oldest]->area; delete d->imagecache.takeAt(oldest); } const QRegion bigger = QRegion(biggerrect) & uncached; const QVector rects = bigger.rects(); for (int i = 0; i < rects.count(); ++i) { const QRect &r = rects.at(i); QPixmap img(r.size()); if (d->fillColor.isValid()) img.fill(d->fillColor); { #ifdef Q_WS_MAC bool oldSmooth = qt_applefontsmoothing_enabled; qt_applefontsmoothing_enabled = false; #endif QPainter qp(&img); #ifdef Q_WS_MAC qt_applefontsmoothing_enabled = oldSmooth; #endif qp.setRenderHints(QPainter::HighQualityAntialiasing | QPainter::TextAntialiasing | QPainter::SmoothPixmapTransform, d->smoothCache); qp.translate(-r.x(),-r.y()); qp.scale(d->contentsScale,d->contentsScale); QRect sclip(qFloor(r.x()/d->contentsScale), qFloor(r.y()/d->contentsScale), qCeil(r.width()/d->contentsScale+r.x()/d->contentsScale-qFloor(r.x()/d->contentsScale)), qCeil(r.height()/d->contentsScale+r.y()/d->contentsScale-qFloor(r.y()/d->contentsScale))); drawContents(&qp, sclip); } QDeclarativePaintedItemPrivate::ImageCacheItem *newitem = new QDeclarativePaintedItemPrivate::ImageCacheItem; newitem->area = r; newitem->image = img; d->imagecache.append(newitem); p->drawPixmap(r, newitem->image); } } else { const QVector rects = uncached.rects(); for (int i = 0; i < rects.count(); ++i) p->fillRect(rects.at(i), Qt::lightGray); } } if (inpaint_clearcache) { clearCache(); inpaint_clearcache = 0; } --inpaint; } /*! \qmlproperty int PaintedItem::pixelCacheSize This property holds the maximum number of pixels of image cache to allow. The default is 0.1 megapixels. The cache will not be larger than the (unscaled) size of the WebView. */ /*! \property QDeclarativePaintedItem::pixelCacheSize The maximum number of pixels of image cache to allow. The default is 0.1 megapixels. The cache will not be larger than the (unscaled) size of the QDeclarativePaintedItem. */ int QDeclarativePaintedItem::pixelCacheSize() const { Q_D(const QDeclarativePaintedItem); return d->max_imagecache_size; } void QDeclarativePaintedItem::setPixelCacheSize(int pixels) { Q_D(QDeclarativePaintedItem); if (pixels < d->max_imagecache_size) { int cachesize=0; for (int i=0; iimagecache.count(); ++i) { QRect area = d->imagecache[i]->area; cachesize += area.width()*area.height(); } while (d->imagecache.count() && cachesize > pixels) { int oldest=-1; int age=-1; for (int i=0; iimagecache.count(); ++i) { int a = d->imagecache[i]->age; if (a > age) { oldest = i; age = a; } } cachesize -= d->imagecache[oldest]->area.width()*d->imagecache[oldest]->area.height(); delete d->imagecache.takeAt(oldest); } } d->max_imagecache_size = pixels; } /*! \property QDeclarativePaintedItem::fillColor The color to be used to fill the item prior to calling drawContents(). By default, this is Qt::transparent. Performance improvements can be achieved if subclasses call this with either an invalid color (QColor()), or an appropriate solid color. */ void QDeclarativePaintedItem::setFillColor(const QColor& c) { Q_D(QDeclarativePaintedItem); if (d->fillColor == c) return; d->fillColor = c; emit fillColorChanged(); update(); } QColor QDeclarativePaintedItem::fillColor() const { Q_D(const QDeclarativePaintedItem); return d->fillColor; } /*! \qmlproperty bool PaintedItem::smoothCache Controls whether the cached tiles of which the item is composed are rendered smoothly when they are generated. This is in addition toe Item::smooth, which controls the smooth painting of the already-painted cached tiles under transformation. */ bool QDeclarativePaintedItem::smoothCache() const { Q_D(const QDeclarativePaintedItem); return d->smoothCache; } void QDeclarativePaintedItem::setSmoothCache(bool on) { Q_D(QDeclarativePaintedItem); if (d->smoothCache != on) { d->smoothCache = on; clearCache(); } } QT_END_NAMESPACE