/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of the QtWidgets module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** 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, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include "qwidgetbackingstore_p.h" #include #include #include #include #include #include #include #include #include #include #include #if defined(Q_OS_WIN) && !defined(QT_NO_PAINT_DEBUG) # include # include #endif QT_BEGIN_NAMESPACE extern QRegion qt_dirtyRegion(QWidget *); /* A version of QRect::intersects() that does not normalize the rects. */ static inline bool qRectIntersects(const QRect &r1, const QRect &r2) { return (qMax(r1.left(), r2.left()) <= qMin(r1.right(), r2.right()) && qMax(r1.top(), r2.top()) <= qMin(r1.bottom(), r2.bottom())); } /** * Flushes the contents of the \a backingStore into the screen area of \a widget. * \a tlwOffset is the position of the top level widget relative to the window surface. * \a region is the region to be updated in \a widget coordinates. */ static inline void qt_flush(QWidget *widget, const QRegion ®ion, QBackingStore *backingStore, QWidget *tlw, const QPoint &tlwOffset) { Q_ASSERT(widget); Q_ASSERT(!region.isEmpty()); Q_ASSERT(backingStore); Q_ASSERT(tlw); #if !defined(QT_NO_PAINT_DEBUG) static int flushUpdate = qgetenv("QT_FLUSH_UPDATE").toInt(); if (flushUpdate > 0) QWidgetBackingStore::showYellowThing(widget, region, flushUpdate * 10, false); #endif //The performance hit by doing this should be negligible. However, be aware that //using this FPS when you have > 1 windowsurface can give you inaccurate FPS static bool fpsDebug = qgetenv("QT_DEBUG_FPS").toInt(); if (fpsDebug) { static QTime time = QTime::currentTime(); static int frames = 0; frames++; if(time.elapsed() > 5000) { double fps = double(frames * 1000) /time.restart(); fprintf(stderr,"FPS: %.1f\n",fps); frames = 0; } } if (tlw->testAttribute(Qt::WA_DontShowOnScreen) || widget->testAttribute(Qt::WA_DontShowOnScreen)) return; if (widget != tlw) backingStore->flush(region, widget->windowHandle(), tlwOffset + widget->mapTo(tlw, QPoint())); else backingStore->flush(region, widget->windowHandle(), tlwOffset); } #ifndef QT_NO_PAINT_DEBUG #ifdef Q_OS_WIN static void showYellowThing_win(QWidget *widget, const QRegion ®ion, int msec) { // We expect to be passed a native parent. QWindow *nativeWindow = widget->windowHandle(); if (!nativeWindow) return; void *hdcV = QGuiApplication::platformNativeInterface()->nativeResourceForWindow(QByteArrayLiteral("getDC"), nativeWindow); if (!hdcV) return; const HDC hdc = reinterpret_cast(hdcV); HBRUSH brush; static int i = 0; switch (i) { case 0: brush = CreateSolidBrush(RGB(255, 255, 0)); break; case 1: brush = CreateSolidBrush(RGB(255, 200, 55)); break; case 2: brush = CreateSolidBrush(RGB(200, 255, 55)); break; case 3: brush = CreateSolidBrush(RGB(200, 200, 0)); break; } i = (i + 1) & 3; foreach (const QRect &rect, region.rects()) { RECT winRect; SetRect(&winRect, rect.left(), rect.top(), rect.right(), rect.bottom()); FillRect(hdc, &winRect, brush); } DeleteObject(brush); QGuiApplication::platformNativeInterface()->nativeResourceForWindow(QByteArrayLiteral("releaseDC"), nativeWindow); ::Sleep(msec); } #endif // Q_OS_WIN void QWidgetBackingStore::showYellowThing(QWidget *widget, const QRegion &toBePainted, int msec, bool unclipped) { QRegion paintRegion = toBePainted; QRect widgetRect = widget->rect(); if (!widget->internalWinId()) { QWidget *nativeParent = widget->nativeParentWidget(); const QPoint offset = widget->mapTo(nativeParent, QPoint(0, 0)); paintRegion.translate(offset); widgetRect.translate(offset); widget = nativeParent; } #ifdef Q_OS_WIN Q_UNUSED(unclipped); showYellowThing_win(widget, paintRegion, msec); #else //flags to fool painter bool paintUnclipped = widget->testAttribute(Qt::WA_PaintUnclipped); if (unclipped && !widget->d_func()->paintOnScreen()) widget->setAttribute(Qt::WA_PaintUnclipped); const bool setFlag = !widget->testAttribute(Qt::WA_WState_InPaintEvent); if (setFlag) widget->setAttribute(Qt::WA_WState_InPaintEvent); //setup the engine QPaintEngine *pe = widget->paintEngine(); if (pe) { pe->setSystemClip(paintRegion); { QPainter p(widget); p.setClipRegion(paintRegion); static int i = 0; switch (i) { case 0: p.fillRect(widgetRect, QColor(255,255,0)); break; case 1: p.fillRect(widgetRect, QColor(255,200,55)); break; case 2: p.fillRect(widgetRect, QColor(200,255,55)); break; case 3: p.fillRect(widgetRect, QColor(200,200,0)); break; } i = (i+1) & 3; p.end(); } } if (setFlag) widget->setAttribute(Qt::WA_WState_InPaintEvent, false); //restore widget->setAttribute(Qt::WA_PaintUnclipped, paintUnclipped); if (pe) pe->setSystemClip(QRegion()); #if defined(Q_OS_UNIX) ::usleep(1000 * msec); #endif #endif // !Q_OS_WIN } bool QWidgetBackingStore::flushPaint(QWidget *widget, const QRegion &rgn) { if (!widget) return false; int delay = 0; if (widget->testAttribute(Qt::WA_WState_InPaintEvent)) { static int flushPaintEvent = qgetenv("QT_FLUSH_PAINT_EVENT").toInt(); if (!flushPaintEvent) return false; delay = flushPaintEvent; } else { static int flushPaint = qgetenv("QT_FLUSH_PAINT").toInt(); if (!flushPaint) return false; delay = flushPaint; } QWidgetBackingStore::showYellowThing(widget, rgn, delay * 10, true); return true; } void QWidgetBackingStore::unflushPaint(QWidget *widget, const QRegion &rgn) { if (widget->d_func()->paintOnScreen() || rgn.isEmpty()) return; QWidget *tlw = widget->window(); QTLWExtra *tlwExtra = tlw->d_func()->maybeTopData(); if (!tlwExtra) return; const QPoint offset = widget->mapTo(tlw, QPoint()); qt_flush(widget, rgn, tlwExtra->backingStoreTracker->store, tlw, offset); } #endif // QT_NO_PAINT_DEBUG /* Moves the whole rect by (dx, dy) in widget's coordinate system. Doesn't generate any updates. */ bool QWidgetBackingStore::bltRect(const QRect &rect, int dx, int dy, QWidget *widget) { const QPoint pos(tlwOffset + widget->mapTo(tlw, rect.topLeft())); const QRect tlwRect(QRect(pos, rect.size())); if (fullUpdatePending || dirty.intersects(tlwRect)) return false; // We don't want to scroll junk. return store->scroll(tlwRect, dx, dy); } void QWidgetBackingStore::releaseBuffer() { if (store) store->resize(QSize()); } /*! Prepares the window surface to paint a\ toClean region of the \a widget and updates the BeginPaintInfo struct accordingly. The \a toClean region might be clipped by the window surface. */ void QWidgetBackingStore::beginPaint(QRegion &toClean, QWidget *widget, QBackingStore *backingStore, BeginPaintInfo *returnInfo, bool toCleanIsInTopLevelCoordinates) { Q_UNUSED(widget); Q_UNUSED(toCleanIsInTopLevelCoordinates); // Always flush repainted areas. dirtyOnScreen += toClean; #ifdef QT_NO_PAINT_DEBUG backingStore->beginPaint(toClean); #else returnInfo->wasFlushed = QWidgetBackingStore::flushPaint(tlw, toClean); // Avoid deadlock with QT_FLUSH_PAINT: the server will wait for // the BackingStore lock, so if we hold that, the server will // never release the Communication lock that we are waiting for in // sendSynchronousCommand if (!returnInfo->wasFlushed) backingStore->beginPaint(toClean); #endif Q_UNUSED(returnInfo); } void QWidgetBackingStore::endPaint(const QRegion &cleaned, QBackingStore *backingStore, BeginPaintInfo *beginPaintInfo) { #ifndef QT_NO_PAINT_DEBUG if (!beginPaintInfo->wasFlushed) backingStore->endPaint(); else QWidgetBackingStore::unflushPaint(tlw, cleaned); #else Q_UNUSED(beginPaintInfo); Q_UNUSED(cleaned); backingStore->endPaint(); #endif flush(); } /*! Returns the region (in top-level coordinates) that needs repaint and/or flush. If the widget is non-zero, only the dirty region for the widget is returned and the region will be in widget coordinates. */ QRegion QWidgetBackingStore::dirtyRegion(QWidget *widget) const { const bool widgetDirty = widget && widget != tlw; const QRect tlwRect(topLevelRect()); const QRect surfaceGeometry(tlwRect.topLeft(), store->size()); if (fullUpdatePending || (surfaceGeometry != tlwRect && surfaceGeometry.size() != tlwRect.size())) { if (widgetDirty) { const QRect dirtyTlwRect = QRect(QPoint(), tlwRect.size()); const QPoint offset(widget->mapTo(tlw, QPoint())); const QRect dirtyWidgetRect(dirtyTlwRect & widget->rect().translated(offset)); return dirtyWidgetRect.translated(-offset); } return QRect(QPoint(), tlwRect.size()); } // Calculate the region that needs repaint. QRegion r(dirty); for (int i = 0; i < dirtyWidgets.size(); ++i) { QWidget *w = dirtyWidgets.at(i); if (widgetDirty && w != widget && !widget->isAncestorOf(w)) continue; r += w->d_func()->dirty.translated(w->mapTo(tlw, QPoint())); } // Append the region that needs flush. r += dirtyOnScreen; if (dirtyOnScreenWidgets) { // Only in use with native child widgets. for (int i = 0; i < dirtyOnScreenWidgets->size(); ++i) { QWidget *w = dirtyOnScreenWidgets->at(i); if (widgetDirty && w != widget && !widget->isAncestorOf(w)) continue; QWidgetPrivate *wd = w->d_func(); Q_ASSERT(wd->needsFlush); r += wd->needsFlush->translated(w->mapTo(tlw, QPoint())); } } if (widgetDirty) { // Intersect with the widget geometry and translate to its coordinates. const QPoint offset(widget->mapTo(tlw, QPoint())); r &= widget->rect().translated(offset); r.translate(-offset); } return r; } /*! Returns the static content inside the \a parent if non-zero; otherwise the static content for the entire backing store is returned. The content will be clipped to \a withinClipRect if non-empty. */ QRegion QWidgetBackingStore::staticContents(QWidget *parent, const QRect &withinClipRect) const { if (!parent && tlw->testAttribute(Qt::WA_StaticContents)) { const QSize surfaceGeometry(store->size()); QRect surfaceRect(0, 0, surfaceGeometry.width(), surfaceGeometry.height()); if (!withinClipRect.isEmpty()) surfaceRect &= withinClipRect; return QRegion(surfaceRect); } QRegion region; if (parent && parent->d_func()->children.isEmpty()) return region; const bool clipToRect = !withinClipRect.isEmpty(); const int count = staticWidgets.count(); for (int i = 0; i < count; ++i) { QWidget *w = staticWidgets.at(i); QWidgetPrivate *wd = w->d_func(); if (!wd->isOpaque || !wd->extra || wd->extra->staticContentsSize.isEmpty() || !w->isVisible() || (parent && !parent->isAncestorOf(w))) { continue; } QRect rect(0, 0, wd->extra->staticContentsSize.width(), wd->extra->staticContentsSize.height()); const QPoint offset = w->mapTo(parent ? parent : tlw, QPoint()); if (clipToRect) rect &= withinClipRect.translated(-offset); if (rect.isEmpty()) continue; rect &= wd->clipRect(); if (rect.isEmpty()) continue; QRegion visible(rect); wd->clipToEffectiveMask(visible); if (visible.isEmpty()) continue; wd->subtractOpaqueSiblings(visible, 0, /*alsoNonOpaque=*/true); visible.translate(offset); region += visible; } return region; } static inline void sendUpdateRequest(QWidget *widget, bool updateImmediately) { if (!widget) return; if (updateImmediately) { QEvent event(QEvent::UpdateRequest); QApplication::sendEvent(widget, &event); } else { QApplication::postEvent(widget, new QEvent(QEvent::UpdateRequest), Qt::LowEventPriority); } } /*! Marks the region of the widget as dirty (if not already marked as dirty) and posts an UpdateRequest event to the top-level widget (if not already posted). If updateImmediately is true, the event is sent immediately instead of posted. If invalidateBuffer is true, all widgets intersecting with the region will be dirty. If the widget paints directly on screen, the event is sent to the widget instead of the top-level widget, and invalidateBuffer is completely ignored. ### Qt 4.6: Merge into a template function (after MSVC isn't supported anymore). */ void QWidgetBackingStore::markDirty(const QRegion &rgn, QWidget *widget, bool updateImmediately, bool invalidateBuffer) { Q_ASSERT(tlw->d_func()->extra); Q_ASSERT(tlw->d_func()->extra->topextra); Q_ASSERT(!tlw->d_func()->extra->topextra->inTopLevelResize); Q_ASSERT(widget->isVisible() && widget->updatesEnabled()); Q_ASSERT(widget->window() == tlw); Q_ASSERT(!rgn.isEmpty()); #ifndef QT_NO_GRAPHICSEFFECT widget->d_func()->invalidateGraphicsEffectsRecursively(); #endif //QT_NO_GRAPHICSEFFECT if (widget->d_func()->paintOnScreen()) { if (widget->d_func()->dirty.isEmpty()) { widget->d_func()->dirty = rgn; sendUpdateRequest(widget, updateImmediately); return; } else if (qt_region_strictContains(widget->d_func()->dirty, widget->rect())) { if (updateImmediately) sendUpdateRequest(widget, updateImmediately); return; // Already dirty. } const bool eventAlreadyPosted = !widget->d_func()->dirty.isEmpty(); widget->d_func()->dirty += rgn; if (!eventAlreadyPosted || updateImmediately) sendUpdateRequest(widget, updateImmediately); return; } if (fullUpdatePending) { if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; } const QPoint offset = widget->mapTo(tlw, QPoint()); const QRect widgetRect = widget->d_func()->effectiveRectFor(widget->rect()); if (qt_region_strictContains(dirty, widgetRect.translated(offset))) { if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; // Already dirty. } if (invalidateBuffer) { const bool eventAlreadyPosted = !dirty.isEmpty(); #ifndef QT_NO_GRAPHICSEFFECT if (widget->d_func()->graphicsEffect) dirty += widget->d_func()->effectiveRectFor(rgn.boundingRect()).translated(offset); else #endif //QT_NO_GRAPHICSEFFECT dirty += rgn.translated(offset); if (!eventAlreadyPosted || updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; } if (dirtyWidgets.isEmpty()) { addDirtyWidget(widget, rgn); sendUpdateRequest(tlw, updateImmediately); return; } if (widget->d_func()->inDirtyList) { if (!qt_region_strictContains(widget->d_func()->dirty, widgetRect)) { #ifndef QT_NO_GRAPHICSEFFECT if (widget->d_func()->graphicsEffect) widget->d_func()->dirty += widget->d_func()->effectiveRectFor(rgn.boundingRect()); else #endif //QT_NO_GRAPHICSEFFECT widget->d_func()->dirty += rgn; } } else { addDirtyWidget(widget, rgn); } if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); } /*! This function is equivalent to calling markDirty(QRegion(rect), ...), but is more efficient as it eliminates QRegion operations/allocations and can use the rect more precisely for additional cut-offs. ### Qt 4.6: Merge into a template function (after MSVC isn't supported anymore). */ void QWidgetBackingStore::markDirty(const QRect &rect, QWidget *widget, bool updateImmediately, bool invalidateBuffer) { Q_ASSERT(tlw->d_func()->extra); Q_ASSERT(tlw->d_func()->extra->topextra); Q_ASSERT(!tlw->d_func()->extra->topextra->inTopLevelResize); Q_ASSERT(widget->isVisible() && widget->updatesEnabled()); Q_ASSERT(widget->window() == tlw); Q_ASSERT(!rect.isEmpty()); #ifndef QT_NO_GRAPHICSEFFECT widget->d_func()->invalidateGraphicsEffectsRecursively(); #endif //QT_NO_GRAPHICSEFFECT if (widget->d_func()->paintOnScreen()) { if (widget->d_func()->dirty.isEmpty()) { widget->d_func()->dirty = QRegion(rect); sendUpdateRequest(widget, updateImmediately); return; } else if (qt_region_strictContains(widget->d_func()->dirty, rect)) { if (updateImmediately) sendUpdateRequest(widget, updateImmediately); return; // Already dirty. } const bool eventAlreadyPosted = !widget->d_func()->dirty.isEmpty(); widget->d_func()->dirty += rect; if (!eventAlreadyPosted || updateImmediately) sendUpdateRequest(widget, updateImmediately); return; } if (fullUpdatePending) { if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; } const QRect widgetRect = widget->d_func()->effectiveRectFor(rect); const QRect translatedRect(widgetRect.translated(widget->mapTo(tlw, QPoint()))); if (qt_region_strictContains(dirty, translatedRect)) { if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; // Already dirty } if (invalidateBuffer) { const bool eventAlreadyPosted = !dirty.isEmpty(); dirty += translatedRect; if (!eventAlreadyPosted || updateImmediately) sendUpdateRequest(tlw, updateImmediately); return; } if (dirtyWidgets.isEmpty()) { addDirtyWidget(widget, rect); sendUpdateRequest(tlw, updateImmediately); return; } if (widget->d_func()->inDirtyList) { if (!qt_region_strictContains(widget->d_func()->dirty, widgetRect)) widget->d_func()->dirty += widgetRect; } else { addDirtyWidget(widget, rect); } if (updateImmediately) sendUpdateRequest(tlw, updateImmediately); } /*! Marks the \a region of the \a widget as dirty on screen. The \a region will be copied from the backing store to the \a widget's native parent next time flush() is called. Paint on screen widgets are ignored. */ void QWidgetBackingStore::markDirtyOnScreen(const QRegion ®ion, QWidget *widget, const QPoint &topLevelOffset) { if (!widget || widget->d_func()->paintOnScreen() || region.isEmpty()) return; #if defined(Q_WS_MAC) if (!widget->testAttribute(Qt::WA_WState_InPaintEvent)) dirtyOnScreen += region.translated(topLevelOffset); return; #endif // Top-level. if (widget == tlw) { if (!widget->testAttribute(Qt::WA_WState_InPaintEvent)) dirtyOnScreen += region; return; } // Alien widgets. if (!widget->internalWinId() && !widget->isWindow()) { QWidget *nativeParent = widget->nativeParentWidget(); // Alien widgets with the top-level as the native parent (common case). if (nativeParent == tlw) { if (!widget->testAttribute(Qt::WA_WState_InPaintEvent)) dirtyOnScreen += region.translated(topLevelOffset); return; } // Alien widgets with native parent != tlw. QWidgetPrivate *nativeParentPrivate = nativeParent->d_func(); if (!nativeParentPrivate->needsFlush) nativeParentPrivate->needsFlush = new QRegion; const QPoint nativeParentOffset = widget->mapTo(nativeParent, QPoint()); *nativeParentPrivate->needsFlush += region.translated(nativeParentOffset); appendDirtyOnScreenWidget(nativeParent); return; } // Native child widgets. QWidgetPrivate *widgetPrivate = widget->d_func(); if (!widgetPrivate->needsFlush) widgetPrivate->needsFlush = new QRegion; *widgetPrivate->needsFlush += region; appendDirtyOnScreenWidget(widget); } void QWidgetBackingStore::removeDirtyWidget(QWidget *w) { if (!w) return; dirtyWidgetsRemoveAll(w); dirtyOnScreenWidgetsRemoveAll(w); resetWidget(w); QWidgetPrivate *wd = w->d_func(); const int n = wd->children.count(); for (int i = 0; i < n; ++i) { if (QWidget *child = qobject_cast(wd->children.at(i))) removeDirtyWidget(child); } } void QWidgetBackingStore::updateLists(QWidget *cur) { if (!cur) return; QList children = cur->children(); for (int i = 0; i < children.size(); ++i) { QWidget *child = qobject_cast(children.at(i)); if (!child) continue; updateLists(child); } if (cur->testAttribute(Qt::WA_StaticContents)) addStaticWidget(cur); } QWidgetBackingStore::QWidgetBackingStore(QWidget *topLevel) : tlw(topLevel), dirtyOnScreenWidgets(0), fullUpdatePending(0) { store = tlw->backingStore(); Q_ASSERT(store); // Ensure all existing subsurfaces and static widgets are added to their respective lists. updateLists(topLevel); } QWidgetBackingStore::~QWidgetBackingStore() { for (int c = 0; c < dirtyWidgets.size(); ++c) { resetWidget(dirtyWidgets.at(c)); } delete dirtyOnScreenWidgets; dirtyOnScreenWidgets = 0; } //parent's coordinates; move whole rect; update parent and widget //assume the screen blt has already been done, so we don't need to refresh that part void QWidgetPrivate::moveRect(const QRect &rect, int dx, int dy) { Q_Q(QWidget); if (!q->isVisible() || (dx == 0 && dy == 0)) return; QWidget *tlw = q->window(); QTLWExtra* x = tlw->d_func()->topData(); if (x->inTopLevelResize) return; static int accelEnv = -1; if (accelEnv == -1) { accelEnv = qgetenv("QT_NO_FAST_MOVE").toInt() == 0; } QWidget *pw = q->parentWidget(); QPoint toplevelOffset = pw->mapTo(tlw, QPoint()); QWidgetPrivate *pd = pw->d_func(); QRect clipR(pd->clipRect()); const QRect newRect(rect.translated(dx, dy)); QRect destRect = rect.intersected(clipR); if (destRect.isValid()) destRect = destRect.translated(dx, dy).intersected(clipR); const QRect sourceRect(destRect.translated(-dx, -dy)); const QRect parentRect(rect & clipR); bool accelerateMove = accelEnv && isOpaque #ifndef QT_NO_GRAPHICSVIEW // No accelerate move for proxy widgets. && !tlw->d_func()->extra->proxyWidget #endif && !isOverlapped(sourceRect) && !isOverlapped(destRect); if (!accelerateMove) { QRegion parentR(effectiveRectFor(parentRect)); if (!extra || !extra->hasMask) { parentR -= newRect; } else { // invalidateBuffer() excludes anything outside the mask parentR += newRect & clipR; } pd->invalidateBuffer(parentR); invalidateBuffer((newRect & clipR).translated(-data.crect.topLeft())); } else { QWidgetBackingStore *wbs = x->backingStoreTracker.data(); QRegion childExpose(newRect & clipR); if (sourceRect.isValid() && wbs->bltRect(sourceRect, dx, dy, pw)) childExpose -= destRect; if (!pw->updatesEnabled()) return; const bool childUpdatesEnabled = q->updatesEnabled(); if (childUpdatesEnabled && !childExpose.isEmpty()) { childExpose.translate(-data.crect.topLeft()); wbs->markDirty(childExpose, q); isMoved = true; } QRegion parentExpose(parentRect); parentExpose -= newRect; if (extra && extra->hasMask) parentExpose += QRegion(newRect) - extra->mask.translated(data.crect.topLeft()); if (!parentExpose.isEmpty()) { wbs->markDirty(parentExpose, pw); pd->isMoved = true; } if (childUpdatesEnabled) { QRegion needsFlush(sourceRect); needsFlush += destRect; wbs->markDirtyOnScreen(needsFlush, pw, toplevelOffset); } } } //widget's coordinates; scroll within rect; only update widget void QWidgetPrivate::scrollRect(const QRect &rect, int dx, int dy) { Q_Q(QWidget); QWidget *tlw = q->window(); QTLWExtra* x = tlw->d_func()->topData(); if (x->inTopLevelResize) return; QWidgetBackingStore *wbs = x->backingStoreTracker.data(); if (!wbs) return; static int accelEnv = -1; if (accelEnv == -1) { accelEnv = qgetenv("QT_NO_FAST_SCROLL").toInt() == 0; } QRect scrollRect = rect & clipRect(); bool overlapped = false; bool accelerateScroll = accelEnv && isOpaque && !(overlapped = isOverlapped(scrollRect.translated(data.crect.topLeft()))); if (!accelerateScroll) { if (overlapped) { QRegion region(scrollRect); subtractOpaqueSiblings(region); invalidateBuffer(region); }else { invalidateBuffer(scrollRect); } } else { const QPoint toplevelOffset = q->mapTo(tlw, QPoint()); const QRect destRect = scrollRect.translated(dx, dy) & scrollRect; const QRect sourceRect = destRect.translated(-dx, -dy); QRegion childExpose(scrollRect); if (sourceRect.isValid()) { if (wbs->bltRect(sourceRect, dx, dy, q)) childExpose -= destRect; } if (inDirtyList) { if (rect == q->rect()) { dirty.translate(dx, dy); } else { QRegion dirtyScrollRegion = dirty.intersected(scrollRect); if (!dirtyScrollRegion.isEmpty()) { dirty -= dirtyScrollRegion; dirtyScrollRegion.translate(dx, dy); dirty += dirtyScrollRegion; } } } if (!q->updatesEnabled()) return; if (!childExpose.isEmpty()) { wbs->markDirty(childExpose, q); isScrolled = true; } // Instead of using native scroll-on-screen, we copy from // backingstore, giving only one screen update for each // scroll, and a solid appearance wbs->markDirtyOnScreen(destRect, q, toplevelOffset); } } static inline bool discardSyncRequest(QWidget *tlw, QTLWExtra *tlwExtra) { if (!tlw || !tlwExtra || !tlw->testAttribute(Qt::WA_Mapped) || !tlw->isVisible()) return true; return false; } /*! Synchronizes the \a exposedRegion of the \a exposedWidget with the backing store. If there's nothing to repaint, the area is flushed and painting does not occur; otherwise the area is marked as dirty on screen and will be flushed right after we are done with all painting. */ void QWidgetBackingStore::sync(QWidget *exposedWidget, const QRegion &exposedRegion) { QTLWExtra *tlwExtra = tlw->d_func()->maybeTopData(); if (discardSyncRequest(tlw, tlwExtra) || tlwExtra->inTopLevelResize) return; if (!exposedWidget || !exposedWidget->internalWinId() || !exposedWidget->isVisible() || !exposedWidget->updatesEnabled() || exposedRegion.isEmpty()) { return; } // Nothing to repaint. if (!isDirty()) { qt_flush(exposedWidget, exposedRegion, store, tlw, tlwOffset); return; } if (exposedWidget != tlw) markDirtyOnScreen(exposedRegion, exposedWidget, exposedWidget->mapTo(tlw, QPoint())); else markDirtyOnScreen(exposedRegion, exposedWidget, QPoint()); sync(); } /*! Synchronizes the backing store, i.e. dirty areas are repainted and flushed. */ void QWidgetBackingStore::sync() { QTLWExtra *tlwExtra = tlw->d_func()->maybeTopData(); if (discardSyncRequest(tlw, tlwExtra)) { // If the top-level is minimized, it's not visible on the screen so we can delay the // update until it's shown again. In order to do that we must keep the dirty states. // These will be cleared when we receive the first expose after showNormal(). // However, if the widget is not visible (isVisible() returns false), everything will // be invalidated once the widget is shown again, so clear all dirty states. if (!tlw->isVisible()) { dirty = QRegion(); for (int i = 0; i < dirtyWidgets.size(); ++i) resetWidget(dirtyWidgets.at(i)); dirtyWidgets.clear(); fullUpdatePending = false; } return; } const bool updatesDisabled = !tlw->updatesEnabled(); bool repaintAllWidgets = false; const bool inTopLevelResize = tlwExtra->inTopLevelResize; const QRect tlwRect(topLevelRect()); const QRect surfaceGeometry(tlwRect.topLeft(), store->size()); if ((fullUpdatePending || inTopLevelResize || surfaceGeometry.size() != tlwRect.size()) && !updatesDisabled) { if (hasStaticContents()) { // Repaint existing dirty area and newly visible area. const QRect clipRect(0, 0, surfaceGeometry.width(), surfaceGeometry.height()); const QRegion staticRegion(staticContents(0, clipRect)); QRegion newVisible(0, 0, tlwRect.width(), tlwRect.height()); newVisible -= staticRegion; dirty += newVisible; store->setStaticContents(staticRegion); } else { // Repaint everything. dirty = QRegion(0, 0, tlwRect.width(), tlwRect.height()); for (int i = 0; i < dirtyWidgets.size(); ++i) resetWidget(dirtyWidgets.at(i)); dirtyWidgets.clear(); repaintAllWidgets = true; } } if (inTopLevelResize || surfaceGeometry.size() != tlwRect.size()) store->resize(tlwRect.size()); if (updatesDisabled) return; // Contains everything that needs repaint. QRegion toClean(dirty); // Loop through all update() widgets and remove them from the list before they are // painted (in case someone calls update() in paintEvent). If the widget is opaque // and does not have transparent overlapping siblings, append it to the // opaqueNonOverlappedWidgets list and paint it directly without composition. QVarLengthArray opaqueNonOverlappedWidgets; for (int i = 0; i < dirtyWidgets.size(); ++i) { QWidget *w = dirtyWidgets.at(i); QWidgetPrivate *wd = w->d_func(); if (wd->data.in_destructor) continue; // Clip with mask() and clipRect(). wd->dirty &= wd->clipRect(); wd->clipToEffectiveMask(wd->dirty); // Subtract opaque siblings and children. bool hasDirtySiblingsAbove = false; // We know for sure that the widget isn't overlapped if 'isMoved' is true. if (!wd->isMoved) wd->subtractOpaqueSiblings(wd->dirty, &hasDirtySiblingsAbove); // Scrolled and moved widgets must draw all children. if (!wd->isScrolled && !wd->isMoved) wd->subtractOpaqueChildren(wd->dirty, w->rect()); if (wd->dirty.isEmpty()) { resetWidget(w); continue; } const QRegion widgetDirty(w != tlw ? wd->dirty.translated(w->mapTo(tlw, QPoint())) : wd->dirty); toClean += widgetDirty; #ifndef QT_NO_GRAPHICSVIEW if (tlw->d_func()->extra->proxyWidget) { resetWidget(w); continue; } #endif if (!hasDirtySiblingsAbove && wd->isOpaque && !dirty.intersects(widgetDirty.boundingRect())) { opaqueNonOverlappedWidgets.append(w); } else { resetWidget(w); dirty += widgetDirty; } } dirtyWidgets.clear(); fullUpdatePending = false; if (toClean.isEmpty()) { // Nothing to repaint. However, we might have newly exposed areas on the // screen if this function was called from sync(QWidget *, QRegion)), so // we have to make sure those are flushed. flush(); return; } #ifndef QT_NO_GRAPHICSVIEW if (tlw->d_func()->extra->proxyWidget) { updateStaticContentsSize(); dirty = QRegion(); const QVector rects(toClean.rects()); for (int i = 0; i < rects.size(); ++i) tlw->d_func()->extra->proxyWidget->update(rects.at(i)); return; } #endif BeginPaintInfo beginPaintInfo; beginPaint(toClean, tlw, store, &beginPaintInfo); if (beginPaintInfo.nothingToPaint) { for (int i = 0; i < opaqueNonOverlappedWidgets.size(); ++i) resetWidget(opaqueNonOverlappedWidgets[i]); dirty = QRegion(); return; } // Must do this before sending any paint events because // the size may change in the paint event. updateStaticContentsSize(); const QRegion dirtyCopy(dirty); dirty = QRegion(); // Paint opaque non overlapped widgets. for (int i = 0; i < opaqueNonOverlappedWidgets.size(); ++i) { QWidget *w = opaqueNonOverlappedWidgets[i]; QWidgetPrivate *wd = w->d_func(); int flags = QWidgetPrivate::DrawRecursive; // Scrolled and moved widgets must draw all children. if (!wd->isScrolled && !wd->isMoved) flags |= QWidgetPrivate::DontDrawOpaqueChildren; if (w == tlw) flags |= QWidgetPrivate::DrawAsRoot; QRegion toBePainted(wd->dirty); resetWidget(w); QPoint offset(tlwOffset); if (w != tlw) offset += w->mapTo(tlw, QPoint()); wd->drawWidget(store->paintDevice(), toBePainted, offset, flags, 0, this); } // Paint the rest with composition. if (repaintAllWidgets || !dirtyCopy.isEmpty()) { const int flags = QWidgetPrivate::DrawAsRoot | QWidgetPrivate::DrawRecursive; tlw->d_func()->drawWidget(store->paintDevice(), dirtyCopy, tlwOffset, flags, 0, this); } endPaint(toClean, store, &beginPaintInfo); } /*! Flushes the contents of the backing store into the top-level widget. If the \a widget is non-zero, the content is flushed to the \a widget. If the \a surface is non-zero, the content of the \a surface is flushed. */ void QWidgetBackingStore::flush(QWidget *widget) { if (!dirtyOnScreen.isEmpty()) { QWidget *target = widget ? widget : tlw; qt_flush(target, dirtyOnScreen, store, tlw, tlwOffset); dirtyOnScreen = QRegion(); } if (!dirtyOnScreenWidgets || dirtyOnScreenWidgets->isEmpty()) return; for (int i = 0; i < dirtyOnScreenWidgets->size(); ++i) { QWidget *w = dirtyOnScreenWidgets->at(i); QWidgetPrivate *wd = w->d_func(); Q_ASSERT(wd->needsFlush); qt_flush(w, *wd->needsFlush, store, tlw, tlwOffset); *wd->needsFlush = QRegion(); } dirtyOnScreenWidgets->clear(); } static inline bool discardInvalidateBufferRequest(QWidget *widget, QTLWExtra *tlwExtra) { Q_ASSERT(widget); if (QApplication::closingDown()) return true; if (!tlwExtra || tlwExtra->inTopLevelResize || !tlwExtra->backingStore) return true; if (!widget->isVisible() || !widget->updatesEnabled()) return true; return false; } /*! Invalidates the buffer when the widget is resized. Static areas are never invalidated unless absolutely needed. */ void QWidgetPrivate::invalidateBuffer_resizeHelper(const QPoint &oldPos, const QSize &oldSize) { Q_Q(QWidget); Q_ASSERT(!q->isWindow()); Q_ASSERT(q->parentWidget()); const bool staticContents = q->testAttribute(Qt::WA_StaticContents); const bool sizeDecreased = (data.crect.width() < oldSize.width()) || (data.crect.height() < oldSize.height()); const QPoint offset(data.crect.x() - oldPos.x(), data.crect.y() - oldPos.y()); const bool parentAreaExposed = !offset.isNull() || sizeDecreased; const QRect newWidgetRect(q->rect()); const QRect oldWidgetRect(0, 0, oldSize.width(), oldSize.height()); if (!staticContents || graphicsEffect) { QRegion staticChildren; QWidgetBackingStore *bs = 0; if (offset.isNull() && (bs = maybeBackingStore())) staticChildren = bs->staticContents(q, oldWidgetRect); const bool hasStaticChildren = !staticChildren.isEmpty(); if (hasStaticChildren) { QRegion dirty(newWidgetRect); dirty -= staticChildren; invalidateBuffer(dirty); } else { // Entire widget needs repaint. invalidateBuffer(newWidgetRect); } if (!parentAreaExposed) return; // Invalidate newly exposed area of the parent. if (!graphicsEffect && extra && extra->hasMask) { QRegion parentExpose(extra->mask.translated(oldPos)); parentExpose &= QRect(oldPos, oldSize); if (hasStaticChildren) parentExpose -= data.crect; // Offset is unchanged, safe to do this. q->parentWidget()->d_func()->invalidateBuffer(parentExpose); } else { if (hasStaticChildren && !graphicsEffect) { QRegion parentExpose(QRect(oldPos, oldSize)); parentExpose -= data.crect; // Offset is unchanged, safe to do this. q->parentWidget()->d_func()->invalidateBuffer(parentExpose); } else { q->parentWidget()->d_func()->invalidateBuffer(effectiveRectFor(QRect(oldPos, oldSize))); } } return; } // Move static content to its new position. if (!offset.isNull()) { if (sizeDecreased) { const QSize minSize(qMin(oldSize.width(), data.crect.width()), qMin(oldSize.height(), data.crect.height())); moveRect(QRect(oldPos, minSize), offset.x(), offset.y()); } else { moveRect(QRect(oldPos, oldSize), offset.x(), offset.y()); } } // Invalidate newly visible area of the widget. if (!sizeDecreased || !oldWidgetRect.contains(newWidgetRect)) { QRegion newVisible(newWidgetRect); newVisible -= oldWidgetRect; invalidateBuffer(newVisible); } if (!parentAreaExposed) return; // Invalidate newly exposed area of the parent. const QRect oldRect(oldPos, oldSize); if (extra && extra->hasMask) { QRegion parentExpose(oldRect); parentExpose &= extra->mask.translated(oldPos); parentExpose -= (extra->mask.translated(data.crect.topLeft()) & data.crect); q->parentWidget()->d_func()->invalidateBuffer(parentExpose); } else { QRegion parentExpose(oldRect); parentExpose -= data.crect; q->parentWidget()->d_func()->invalidateBuffer(parentExpose); } } /*! Invalidates the \a rgn (in widget's coordinates) of the backing store, i.e. all widgets intersecting with the region will be repainted when the backing store is synced. ### Qt 4.6: Merge into a template function (after MSVC isn't supported anymore). */ void QWidgetPrivate::invalidateBuffer(const QRegion &rgn) { Q_Q(QWidget); QTLWExtra *tlwExtra = q->window()->d_func()->maybeTopData(); if (discardInvalidateBufferRequest(q, tlwExtra) || rgn.isEmpty()) return; QRegion wrgn(rgn); wrgn &= clipRect(); if (!graphicsEffect && extra && extra->hasMask) wrgn &= extra->mask; if (wrgn.isEmpty()) return; tlwExtra->backingStoreTracker->markDirty(wrgn, q, false, true); } /*! This function is equivalent to calling invalidateBuffer(QRegion(rect), ...), but is more efficient as it eliminates QRegion operations/allocations and can use the rect more precisely for additional cut-offs. ### Qt 4.6: Merge into a template function (after MSVC isn't supported anymore). */ void QWidgetPrivate::invalidateBuffer(const QRect &rect) { Q_Q(QWidget); QTLWExtra *tlwExtra = q->window()->d_func()->maybeTopData(); if (discardInvalidateBufferRequest(q, tlwExtra) || rect.isEmpty()) return; QRect wRect(rect); wRect &= clipRect(); if (wRect.isEmpty()) return; if (graphicsEffect || !extra || !extra->hasMask) { tlwExtra->backingStoreTracker->markDirty(wRect, q, false, true); return; } QRegion wRgn(extra->mask); wRgn &= wRect; if (wRgn.isEmpty()) return; tlwExtra->backingStoreTracker->markDirty(wRgn, q, false, true); } void QWidgetPrivate::repaint_sys(const QRegion &rgn) { if (data.in_destructor) return; Q_Q(QWidget); if (discardSyncRequest(q, maybeTopData())) return; if (q->testAttribute(Qt::WA_StaticContents)) { if (!extra) createExtra(); extra->staticContentsSize = data.crect.size(); } QPaintEngine *engine = q->paintEngine(); // QGLWidget does not support partial updates if: // 1) The context is double buffered // 2) The context is single buffered and auto-fill background is enabled. const bool noPartialUpdateSupport = (engine && (engine->type() == QPaintEngine::OpenGL || engine->type() == QPaintEngine::OpenGL2)) && (usesDoubleBufferedGLContext || q->autoFillBackground()); QRegion toBePainted(noPartialUpdateSupport ? q->rect() : rgn); #ifdef Q_WS_MAC // No difference between update() and repaint() on the Mac. update_sys(toBePainted); return; #endif toBePainted &= clipRect(); clipToEffectiveMask(toBePainted); if (toBePainted.isEmpty()) return; // Nothing to repaint. #ifndef QT_NO_PAINT_DEBUG bool flushed = QWidgetBackingStore::flushPaint(q, toBePainted); #endif drawWidget(q, toBePainted, QPoint(), QWidgetPrivate::DrawAsRoot | QWidgetPrivate::DrawPaintOnScreen, 0); #ifndef QT_NO_PAINT_DEBUG if (flushed) QWidgetBackingStore::unflushPaint(q, toBePainted); #endif if (q->paintingActive()) qWarning("QWidget::repaint: It is dangerous to leave painters active on a widget outside of the PaintEvent"); } QT_END_NAMESPACE