/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtSvg 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 "qsvgrenderer.h" #ifndef QT_NO_SVGRENDERER #include "qsvgtinydocument_p.h" #include "qbytearray.h" #include "qtimer.h" #include "qdebug.h" #include "private/qobject_p.h" QT_BEGIN_NAMESPACE /*! \class QSvgRenderer \ingroup multimedia \brief The QSvgRenderer class is used to draw the contents of SVG files onto paint devices. \since 4.1 \reentrant Using QSvgRenderer, Scalable Vector Graphics (SVG) can be rendered onto any QPaintDevice subclass, including QWidget, QImage, and QGLWidget. QSvgRenderer provides an API that supports basic features of SVG rendering, such as loading and rendering of static drawings, and more interactive features like animation. Since the rendering is performed using QPainter, SVG drawings can be rendered on any subclass of QPaintDevice. SVG drawings are either loaded when an QSvgRenderer is constructed, or loaded later using the load() functions. Data is either supplied directly as serialized XML, or indirectly using a file name. If a valid file has been loaded, either when the renderer is constructed or at some later time, isValid() returns true; otherwise it returns false. QSvgRenderer provides the render() slot to render the current document, or the current frame of an animated document, using a given painter. The defaultSize() function provides information about the amount of space that is required to render the currently loaded SVG file. This is useful for paint devices, such as QWidget, that often need to supply a size hint to their parent layout. The default size of a drawing may differ from its visible area, found using the \l viewBox property. Animated SVG drawings are supported, and can be controlled with a simple collection of functions and properties: \list \o The animated() function indicates whether a drawing contains animation information. \omit \o The animationDuration() function provides the duration in milliseconds of the animation, without taking any looping into account. \o The \l currentFrame property contains the current frame of the animation. \endomit \o The \l framesPerSecond property contains the rate at which the animation plays. \endlist Finally, the QSvgRenderer class provides the repaintNeeded() signal which is emitted whenever the rendering of the document needs to be updated. \sa QSvgWidget, {QtSvg Module}, {SVG Viewer Example}, QPicture */ class QSvgRendererPrivate : public QObjectPrivate { Q_DECLARE_PUBLIC(QSvgRenderer) public: explicit QSvgRendererPrivate() : QObjectPrivate(), render(0), timer(0), fps(30) {} ~QSvgRendererPrivate() { delete render; } static void callRepaintNeeded(QSvgRenderer *const q); QSvgTinyDocument *render; QTimer *timer; int fps; }; /*! Constructs a new renderer with the given \a parent. */ QSvgRenderer::QSvgRenderer(QObject *parent) : QObject(*(new QSvgRendererPrivate), parent) { } /*! Constructs a new renderer with the given \a parent and loads the contents of the SVG file with the specified \a filename. */ QSvgRenderer::QSvgRenderer(const QString &filename, QObject *parent) : QObject(*new QSvgRendererPrivate, parent) { load(filename); } /*! Constructs a new renderer with the given \a parent and loads the SVG data from the byte array specified by \a contents. */ QSvgRenderer::QSvgRenderer(const QByteArray &contents, QObject *parent) : QObject(*new QSvgRendererPrivate, parent) { load(contents); } /*! \since 4.5 Constructs a new renderer with the given \a parent and loads the SVG data using the stream reader specified by \a contents. */ QSvgRenderer::QSvgRenderer(QXmlStreamReader *contents, QObject *parent) : QObject(*new QSvgRendererPrivate, parent) { load(contents); } /*! Destroys the renderer. */ QSvgRenderer::~QSvgRenderer() { } /*! Returns true if there is a valid current document; otherwise returns false. */ bool QSvgRenderer::isValid() const { Q_D(const QSvgRenderer); return d->render; } /*! Returns the default size of the document contents. */ QSize QSvgRenderer::defaultSize() const { Q_D(const QSvgRenderer); if (d->render) return d->render->size(); else return QSize(); } /*! Returns viewBoxF().toRect(). \sa viewBoxF() */ QRect QSvgRenderer::viewBox() const { Q_D(const QSvgRenderer); if (d->render) return d->render->viewBox().toRect(); else return QRect(); } /*! \property QSvgRenderer::viewBox \brief the rectangle specifying the visible area of the document in logical coordinates \since 4.2 */ void QSvgRenderer::setViewBox(const QRect &viewbox) { Q_D(QSvgRenderer); if (d->render) d->render->setViewBox(viewbox); } /*! Returns true if the current document contains animated elements; otherwise returns false. \sa framesPerSecond() */ bool QSvgRenderer::animated() const { Q_D(const QSvgRenderer); if (d->render) return d->render->animated(); else return false; } /*! \property QSvgRenderer::framesPerSecond \brief the number of frames per second to be shown The number of frames per second is 0 if the current document is not animated. \sa animated() */ int QSvgRenderer::framesPerSecond() const { Q_D(const QSvgRenderer); return d->fps; } void QSvgRenderer::setFramesPerSecond(int num) { Q_D(QSvgRenderer); if (num < 0) { qWarning("QSvgRenderer::setFramesPerSecond: Cannot set negative value %d", num); return; } d->fps = num; } /*! \property QSvgRenderer::currentFrame \brief the current frame of the document's animation, or 0 if the document is not animated \internal \sa animationDuration(), framesPerSecond, animated() */ /*! \internal */ int QSvgRenderer::currentFrame() const { Q_D(const QSvgRenderer); return d->render->currentFrame(); } /*! \internal */ void QSvgRenderer::setCurrentFrame(int frame) { Q_D(QSvgRenderer); d->render->setCurrentFrame(frame); } /*! \internal Returns the number of frames in the animation, or 0 if the current document is not animated. \sa animated(), framesPerSecond */ int QSvgRenderer::animationDuration() const { Q_D(const QSvgRenderer); return d->render->animationDuration(); } /*! \internal \since 4.5 We can't have template functions, that's loadDocument(), as friends, for this code, so we let this function be a friend of QSvgRenderer instead. */ void QSvgRendererPrivate::callRepaintNeeded(QSvgRenderer *const q) { q->repaintNeeded(); } template static bool loadDocument(QSvgRenderer *const q, QSvgRendererPrivate *const d, const TInputType &in) { delete d->render; d->render = QSvgTinyDocument::load(in); if (d->render && d->render->animated() && d->fps > 0) { if (!d->timer) d->timer = new QTimer(q); else d->timer->stop(); q->connect(d->timer, SIGNAL(timeout()), q, SIGNAL(repaintNeeded())); d->timer->start(1000/d->fps); } else if (d->timer) { d->timer->stop(); } //force first update QSvgRendererPrivate::callRepaintNeeded(q); return d->render; } /*! Loads the SVG file specified by \a filename, returning true if the content was successfully parsed; otherwise returns false. */ bool QSvgRenderer::load(const QString &filename) { Q_D(QSvgRenderer); return loadDocument(this, d, filename); } /*! Loads the specified SVG format \a contents, returning true if the content was successfully parsed; otherwise returns false. */ bool QSvgRenderer::load(const QByteArray &contents) { Q_D(QSvgRenderer); return loadDocument(this, d, contents); } /*! Loads the specified SVG in \a contents, returning true if the content was successfully parsed; otherwise returns false. The reader will be used from where it currently is positioned. If \a contents is \c null, behavior is undefined. \since 4.5 */ bool QSvgRenderer::load(QXmlStreamReader *contents) { Q_D(QSvgRenderer); return loadDocument(this, d, contents); } /*! Renders the current document, or the current frame of an animated document, using the given \a painter. */ void QSvgRenderer::render(QPainter *painter) { Q_D(QSvgRenderer); if (d->render) { d->render->draw(painter); } } /*! \fn void QSvgRenderer::repaintNeeded() This signal is emitted whenever the rendering of the document needs to be updated, usually for the purposes of animation. */ /*! Renders the given element with \a elementId using the given \a painter on the specified \a bounds. If the bounding rectangle is not specified the SVG element is mapped to the whole paint device. */ void QSvgRenderer::render(QPainter *painter, const QString &elementId, const QRectF &bounds) { Q_D(QSvgRenderer); if (d->render) { d->render->draw(painter, elementId, bounds); } } /*! Renders the current document, or the current frame of an animated document, using the given \a painter on the specified \a bounds within the painter. If the bounding rectangle is not specified the SVG file is mapped to the whole paint device. */ void QSvgRenderer::render(QPainter *painter, const QRectF &bounds) { Q_D(QSvgRenderer); if (d->render) { d->render->draw(painter, bounds); } } QRectF QSvgRenderer::viewBoxF() const { Q_D(const QSvgRenderer); if (d->render) return d->render->viewBox(); else return QRect(); } void QSvgRenderer::setViewBox(const QRectF &viewbox) { Q_D(QSvgRenderer); if (d->render) d->render->setViewBox(viewbox); } /*! \since 4.2 Returns bounding rectangle of the item with the given \a id. The transformation matrix of parent elements is not affecting the bounds of the element. \sa matrixForElement() */ QRectF QSvgRenderer::boundsOnElement(const QString &id) const { Q_D(const QSvgRenderer); QRectF bounds; if (d->render) bounds = d->render->boundsOnElement(id); return bounds; } /*! \since 4.2 Returns true if the element with the given \a id exists in the currently parsed SVG file and is a renderable element. Note: this method returns true only for elements that can be rendered. Which implies that elements that are considered part of the fill/stroke style properties, e.g. radialGradients even tough marked with "id" attributes will not be found by this method. */ bool QSvgRenderer::elementExists(const QString &id) const { Q_D(const QSvgRenderer); bool exists = false; if (d->render) exists = d->render->elementExists(id); return exists; } /*! \since 4.2 Returns the transformation matrix for the element with the given \a id. The matrix is a product of the transformation of the element's parents. The transformation of the element itself is not included. To find the bounding rectangle of the element in logical coordinates, you can apply the matrix on the rectangle returned from boundsOnElement(). \sa boundsOnElement() */ QMatrix QSvgRenderer::matrixForElement(const QString &id) const { Q_D(const QSvgRenderer); QMatrix mat; if (d->render) mat = d->render->matrixForElement(id); return mat; } QT_END_NAMESPACE #include "moc_qsvgrenderer.cpp" #endif // QT_NO_SVGRENDERER