/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui 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 #include #include #include #include QT_BEGIN_NAMESPACE class QWindowSurfacePrivate { public: QWindowSurfacePrivate(QWidget *w) : window(w) { } QWidget *window; #if !defined(Q_WS_QPA) QRect geometry; #else QSize size; #endif //Q_WS_QPA QRegion staticContents; QList bufferImages; }; /*! \class QWindowSurface \since 4.3 \internal \preliminary \ingroup qws qpa \brief The QWindowSurface class provides the drawing area for top-level windows. */ /*! \fn void QWindowSurface::beginPaint(const QRegion ®ion) This function is called before painting onto the surface begins, with the \a region in which the painting will occur. \sa endPaint(), paintDevice() */ /*! \fn void QWindowSurface::endPaint(const QRegion ®ion) This function is called after painting onto the surface has ended, with the \a region in which the painting was performed. \sa beginPaint(), paintDevice() */ /*! \fn void QWindowSurface::flush(QWidget *widget, const QRegion ®ion, const QPoint &offset) Flushes the given \a region from the specified \a widget onto the screen. Note that the \a offset parameter is currently unused. */ /*! \fn QPaintDevice* QWindowSurface::paintDevice() Implement this function to return the appropriate paint device. */ /*! Constructs an empty surface for the given top-level \a window. */ QWindowSurface::QWindowSurface(QWidget *window, bool setDefaultSurface) : d_ptr(new QWindowSurfacePrivate(window)) { if (!QApplicationPrivate::runtime_graphics_system) { if(setDefaultSurface && window) window->setWindowSurface(this); } } /*! Destroys this surface. */ QWindowSurface::~QWindowSurface() { if (d_ptr->window) d_ptr->window->d_func()->extra->topextra->windowSurface = 0; delete d_ptr; } /*! Returns a pointer to the top-level window associated with this surface. */ QWidget* QWindowSurface::window() const { return d_ptr->window; } void QWindowSurface::beginPaint(const QRegion &) { } void QWindowSurface::endPaint(const QRegion &) { // QApplication::syncX(); qDeleteAll(d_ptr->bufferImages); d_ptr->bufferImages.clear(); } #if !defined(Q_WS_QPA) /*! Sets the currently allocated area to be the given \a rect. This function is called whenever area covered by the top-level window changes. \sa geometry() */ void QWindowSurface::setGeometry(const QRect &rect) { d_ptr->geometry = rect; } /*! Returns the currently allocated area on the screen. */ QRect QWindowSurface::geometry() const { return d_ptr->geometry; } #else /*! Sets the size of the windowsurface to be \a size. \sa size() */ void QWindowSurface::resize(const QSize &size) { d_ptr->size = size; } /*! Returns the current size of the windowsurface. */ QSize QWindowSurface::size() const { return d_ptr->size; } #endif //Q_WS_QPA /*! Scrolls the given \a area \a dx pixels to the right and \a dy downward; both \a dx and \a dy may be negative. Returns true if the area was scrolled successfully; false otherwise. */ bool QWindowSurface::scroll(const QRegion &area, int dx, int dy) { Q_UNUSED(area); Q_UNUSED(dx); Q_UNUSED(dy); return false; } /*! Returns a QImage pointer which represents the actual buffer the \a widget is drawn into or 0 if this is unavailable. You must call beginPaint() before you call this function and the returned pointer is only valid until endPaint() is called. */ QImage* QWindowSurface::buffer(const QWidget *widget) { if (widget->window() != window()) return 0; QPaintDevice *pdev = paintDevice(); if (!pdev || pdev->devType() != QInternal::Image) return 0; const QPoint off = offset(widget); QImage *img = static_cast(pdev); QRect rect(off, widget->size()); rect &= QRect(QPoint(), img->size()); if (rect.isEmpty()) return 0; img = new QImage(img->scanLine(rect.y()) + rect.x() * img->depth() / 8, rect.width(), rect.height(), img->bytesPerLine(), img->format()); d_ptr->bufferImages.append(img); return img; } /*! Returns a QPixmap generated from the part of the backing store corresponding to \a widget. Returns a null QPixmap if an error occurs. The contents of the pixmap are only defined for the regions of \a widget that have received paint events since the last resize of the backing store. If \a rectangle is a null rectangle (the default), the entire widget is grabbed. Otherwise, the grabbed area is limited to \a rectangle. The default implementation uses QWindowSurface::buffer(). \sa QPixmap::grabWidget() */ QPixmap QWindowSurface::grabWidget(const QWidget *widget, const QRect &rectangle) const { QPixmap result; if (widget->window() != window()) return result; const QImage *img = const_cast(this)->buffer(widget->window()); if (!img || img->isNull()) return result; QRect rect = rectangle.isEmpty() ? widget->rect() : (widget->rect() & rectangle); rect.translate(offset(widget) - offset(widget->window())); rect &= QRect(QPoint(), img->size()); if (rect.isEmpty()) return result; QImage subimg(img->scanLine(rect.y()) + rect.x() * img->depth() / 8, rect.width(), rect.height(), img->bytesPerLine(), img->format()); subimg.detach(); //### expensive -- maybe we should have a real SubImage that shares reference count result = QPixmap::fromImage(subimg); return result; } /*! Returns the offset of \a widget in the coordinates of this window surface. */ QPoint QWindowSurface::offset(const QWidget *widget) const { QWidget *window = d_ptr->window; QPoint offset = widget->mapTo(window, QPoint()); #ifdef Q_WS_QWS offset += window->geometry().topLeft() - window->frameGeometry().topLeft(); #endif return offset; } /*! \fn QRect QWindowSurface::rect(const QWidget *widget) const Returns the rectangle for \a widget in the coordinates of this window surface. */ bool QWindowSurface::hasStaticContentsSupport() const { return false; } void QWindowSurface::setStaticContents(const QRegion ®ion) { d_ptr->staticContents = region; } QRegion QWindowSurface::staticContents() const { return d_ptr->staticContents; } bool QWindowSurface::hasStaticContents() const { return hasStaticContentsSupport() && !d_ptr->staticContents.isEmpty(); } bool QWindowSurface::hasPartialUpdateSupport() const { return true; } /*! Says whether the window surface's contents are preserved on flush. If not, the window surface contents need to be fully repainted before the next flush. */ bool QWindowSurface::hasPreservedContents() const { return hasPartialUpdateSupport(); } #ifdef Q_WS_QPA #define Q_EXPORT_SCROLLRECT Q_GUI_EXPORT #else #define Q_EXPORT_SCROLLRECT #endif void Q_EXPORT_SCROLLRECT qt_scrollRectInImage(QImage &img, const QRect &rect, const QPoint &offset) { // make sure we don't detach uchar *mem = const_cast(const_cast(img).bits()); int lineskip = img.bytesPerLine(); int depth = img.depth() >> 3; const QRect imageRect(0, 0, img.width(), img.height()); const QRect r = rect & imageRect & imageRect.translated(-offset); const QPoint p = rect.topLeft() + offset; if (r.isEmpty()) return; const uchar *src; uchar *dest; if (r.top() < p.y()) { src = mem + r.bottom() * lineskip + r.left() * depth; dest = mem + (p.y() + r.height() - 1) * lineskip + p.x() * depth; lineskip = -lineskip; } else { src = mem + r.top() * lineskip + r.left() * depth; dest = mem + p.y() * lineskip + p.x() * depth; } const int w = r.width(); int h = r.height(); const int bytes = w * depth; // overlapping segments? if (offset.y() == 0 && qAbs(offset.x()) < w) { do { ::memmove(dest, src, bytes); dest += lineskip; src += lineskip; } while (--h); } else { do { ::memcpy(dest, src, bytes); dest += lineskip; src += lineskip; } while (--h); } } QT_END_NAMESPACE