/* * Copyright 2006-2007 Aaron Seigo * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Library General Public License as * published by the Free Software Foundation; either version 2, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details * * You should have received a copy of the GNU Library General Public * License along with this program; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "svg.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "applet.h" #include "package.h" #include "theme.h" namespace Plasma { class SharedSvgRenderer : public KSvgRenderer, public QSharedData { public: typedef KSharedPtr Ptr; SharedSvgRenderer(QObject *parent = 0) : KSvgRenderer(parent) {} SharedSvgRenderer(const QString &filename, QObject *parent = 0) : KSvgRenderer(filename, parent) {} SharedSvgRenderer(const QByteArray &contents, QObject *parent = 0) : KSvgRenderer(contents, parent) {} ~SharedSvgRenderer() { //kDebug() << "leaving this world for a better one."; } }; class SvgPrivate { public: SvgPrivate(Svg *svg) : q(svg), renderer(0), lastModified(0), multipleImages(false), themed(false), applyColors(false), cacheRendering(true), themeFailed(false) { } ~SvgPrivate() { eraseRenderer(); } //This function is meant for the rects cache QString cacheId(const QString &elementId) { if (size.isValid() && size != naturalSize) { return QString("%3_%2_%1").arg(int(size.height())) .arg(int(size.width())) .arg(elementId); } else { return QString("%2_%1").arg("Natural") .arg(elementId); } } //This function is meant for the pixmap cache QString cachePath(const QString &path, const QSize &size) { return QString("%3_%2_%1_").arg(int(size.height())) .arg(int(size.width())) .arg(path); } bool setImagePath(const QString &imagePath) { bool isThemed = !QDir::isAbsolutePath(imagePath); // lets check to see if we're already set to this file if (isThemed == themed && ((themed && themePath == imagePath) || (!themed && path == imagePath))) { return false; } // if we don't have any path right now and are going to set one, // then lets not schedule a repaint because we are just initializing! bool updateNeeded = true; //!path.isEmpty() || !themePath.isEmpty(); if (themed) { QObject::disconnect(actualTheme(), SIGNAL(themeChanged()), q, SLOT(themeChanged())); } themed = isThemed; path.clear(); themePath.clear(); localRectCache.clear(); if (themed) { themePath = imagePath; themeFailed = false; QObject::connect(actualTheme(), SIGNAL(themeChanged()), q, SLOT(themeChanged())); } else if (QFile::exists(imagePath)) { path = imagePath; } else { kDebug() << "file '" << path << "' does not exist!"; } // check if svg wants colorscheme applied QObject::disconnect(KGlobalSettings::self(), SIGNAL(kdisplayPaletteChanged()), q, SLOT(colorsChanged())); checkApplyColorHint(); if (applyColors && !actualTheme()->colorScheme()) { QObject::connect(KGlobalSettings::self(), SIGNAL(kdisplayPaletteChanged()), q, SLOT(colorsChanged())); } // also images with absolute path needs to have a natural size initialized, // even if looks a bit weird using Theme to store non-themed stuff if (themed || QFile::exists(imagePath)) { QRectF rect; bool found = actualTheme()->findInRectsCache(path, "_Natural", rect); if (!found) { createRenderer(); naturalSize = renderer->defaultSize(); //kDebug() << "natural size for" << path << "from renderer is" << naturalSize; actualTheme()->insertIntoRectsCache(path, "_Natural", QRectF(QPointF(0,0), naturalSize)); } else { naturalSize = rect.size(); //kDebug() << "natural size for" << path << "from cache is" << naturalSize; } } if (!themed) { QFile f(imagePath); QFileInfo info(f); lastModified = info.lastModified().toTime_t(); } return updateNeeded; } Theme *actualTheme() { if (!theme) { theme = Plasma::Theme::defaultTheme(); } return theme.data(); } QPixmap findInCache(const QString &elementId, const QSizeF &s = QSizeF()) { QSize size; QString actualElementId(QString("%1-%2-%3").arg(qRound(s.width())).arg( qRound(s.height())).arg(elementId)); if (elementId.isEmpty() || !q->hasElement(actualElementId)) { actualElementId = elementId; } if (elementId.isEmpty() || (multipleImages && s.isValid())) { size = s.toSize(); } else { size = elementRect(actualElementId).size().toSize(); } if (size.isEmpty()) { return QPixmap(); } QString id = cachePath(path, size); if (!actualElementId.isEmpty()) { id.append(actualElementId); } //kDebug() << "id is " << id; QPixmap p; if (cacheRendering) { if (actualTheme()->findInCache(id, p, lastModified)) { //kDebug() << "found cached version of " << id << p.size(); return p; } } //kDebug() << "didn't find cached version of " << id << ", so re-rendering"; //kDebug() << "size for " << actualElementId << " is " << s; // we have to re-render this puppy createRenderer(); QRectF finalRect = makeUniform(renderer->boundsOnElement(actualElementId), QRect(QPoint(0,0), size)); //don't alter the pixmap size or it won't connect animre different parts of framesvg //but makeUniform should never change the size so much to make necessary to gain or remove a whole pixel p = QPixmap(size); p.fill(Qt::transparent); QPainter renderPainter(&p); if (actualElementId.isEmpty()) { renderer->render(&renderPainter, finalRect); } else { renderer->render(&renderPainter, actualElementId, finalRect); } renderPainter.end(); // Apply current color scheme if the svg asks for it if (applyColors) { QImage itmp = p.toImage(); KIconEffect::colorize(itmp, actualTheme()->color(Theme::BackgroundColor), 1.0); p = p.fromImage(itmp); } if (cacheRendering) { actualTheme()->insertIntoCache(id, p, QString::number((qint64)q, 16)+actualElementId); } return p; } void createRenderer() { if (renderer) { return; } //kDebug() << kBacktrace(); if (themed && path.isEmpty() && !themeFailed) { Applet *applet = qobject_cast(q->parent()); if (applet && applet->package()) { path = applet->package()->filePath("images", themePath + ".svg"); if (path.isEmpty()) { path = applet->package()->filePath("images", themePath + ".svgz"); } } if (path.isEmpty()) { path = actualTheme()->imagePath(themePath); themeFailed = path.isEmpty(); if (themeFailed) { kWarning() << "No image path found for" << themePath; } } } //kDebug() << "********************************"; //kDebug() << "FAIL! **************************"; //kDebug() << path << "**"; QHash::const_iterator it = s_renderers.constFind(path); if (it != s_renderers.constEnd()) { //kDebug() << "gots us an existing one!"; renderer = it.value(); } else { if (path.isEmpty()) { renderer = new SharedSvgRenderer(); } else { renderer = new SharedSvgRenderer(path); } s_renderers[path] = renderer; } if (size == QSizeF()) { size = renderer->defaultSize(); } } void eraseRenderer() { if (renderer && renderer.count() == 2) { // this and the cache reference it s_renderers.erase(s_renderers.find(path)); if (theme) { theme.data()->releaseRectsCache(path); } } renderer = 0; localRectCache.clear(); } QRectF elementRect(const QString &elementId) { if (themed && path.isEmpty()) { if (themeFailed) { return QRectF(); } path = actualTheme()->imagePath(themePath); themeFailed = path.isEmpty(); if (themeFailed) { return QRectF(); } } QString id = cacheId(elementId); if (localRectCache.contains(id)) { return localRectCache.value(id); } QRectF rect; bool found = actualTheme()->findInRectsCache(path, id, rect); if (found) { localRectCache.insert(id, rect); return rect; } return findAndCacheElementRect(elementId); } QRectF findAndCacheElementRect(const QString &elementId) { createRenderer(); QRectF elementRect = renderer->elementExists(elementId) ? renderer->boundsOnElement(elementId) : QRectF(); naturalSize = renderer->defaultSize(); //kDebug() << "natural size for" << path << "is" << naturalSize; qreal dx = size.width() / naturalSize.width(); qreal dy = size.height() / naturalSize.height(); elementRect = QRectF(elementRect.x() * dx, elementRect.y() * dy, elementRect.width() * dx, elementRect.height() * dy); actualTheme()->insertIntoRectsCache(path, cacheId(elementId), elementRect); return elementRect; } QMatrix matrixForElement(const QString &elementId) { createRenderer(); return renderer->matrixForElement(elementId); } void checkApplyColorHint() { applyColors = elementRect("hint-apply-color-scheme").isValid(); } //Folowing two are utility functions to snap rendered elements to the pixel grid //to and from are always 0 <= val <= 1 qreal closestDistance(qreal to, qreal from) { qreal a = to - from; if (qFuzzyCompare(to, from)) return 0; else if ( to > from ) { qreal b = to - from - 1; return (qAbs(a) > qAbs(b)) ? b : a; } else { qreal b = 1 + to - from; return (qAbs(a) > qAbs(b)) ? b : a; } } QRectF makeUniform(const QRectF &orig, const QRectF &dst) { if (qFuzzyIsNull(orig.x()) || qFuzzyIsNull(orig.y())) { return dst; } QRectF res(dst); qreal div_w = dst.width() / orig.width(); qreal div_h = dst.height() / orig.height(); qreal div_x = dst.x() / orig.x(); qreal div_y = dst.y() / orig.y(); //horizontal snap if (!qFuzzyIsNull(div_x) && !qFuzzyCompare(div_w, div_x)) { qreal rem_orig = orig.x() - (floor(orig.x())); qreal rem_dst = dst.x() - (floor(dst.x())); qreal offset = closestDistance(rem_dst, rem_orig); res.translate(offset + offset*div_w, 0); } //vertical snap if (!qFuzzyIsNull(div_y) && !qFuzzyCompare(div_h, div_y)) { qreal rem_orig = orig.y() - (floor(orig.y())); qreal rem_dst = dst.y() - (floor(dst.y())); qreal offset = closestDistance(rem_dst, rem_orig); res.translate(0, offset + offset*div_h); } if (!qFuzzyIsNull(div_w)) { qreal rem_orig = orig.width() - (floor(orig.width())); qreal rem_dst = dst.width() - (floor(dst.width())); qreal offset = closestDistance(rem_dst, rem_orig); res.setWidth(res.width() + offset); } if (!qFuzzyIsNull(div_h)) { qreal rem_orig = orig.height() - (floor(orig.height())); qreal rem_dst = dst.height() - (floor(dst.height())); qreal offset = closestDistance(rem_dst, rem_orig); res.setHeight(res.height() + offset); } kDebug()<<"Aligning Rects, origin:"<colorScheme()) { if (!wasApplyColors) { QObject::connect(KGlobalSettings::self(), SIGNAL(kdisplayPaletteChanged()), q, SLOT(colorsChanged())); } } else { QObject::disconnect(KGlobalSettings::self(), SIGNAL(kdisplayPaletteChanged()), q, SLOT(colorsChanged())); } if (!themed) { return; } QString currentPath = themePath; themePath.clear(); eraseRenderer(); setImagePath(currentPath); //kDebug() << themePath << ">>>>>>>>>>>>>>>>>> theme changed"; emit q->repaintNeeded(); } void colorsChanged() { if (!applyColors) { return; } eraseRenderer(); //kDebug() << "repaint needed from colorsChanged"; emit q->repaintNeeded(); } static QHash s_renderers; Svg *q; QWeakPointer theme; QHash localRectCache; SharedSvgRenderer::Ptr renderer; QString themePath; QString path; QSizeF size; QSizeF naturalSize; unsigned int lastModified; bool multipleImages : 1; bool themed : 1; bool applyColors : 1; bool cacheRendering : 1; bool themeFailed : 1; }; QHash SvgPrivate::s_renderers; Svg::Svg(QObject *parent) : QObject(parent), d(new SvgPrivate(this)) { } Svg::~Svg() { delete d; } QPixmap Svg::pixmap(const QString &elementID) { if (elementID.isNull() || d->multipleImages) { return d->findInCache(elementID, size()); } else { return d->findInCache(elementID); } } void Svg::paint(QPainter *painter, const QPointF &point, const QString &elementID) { QPixmap pix(elementID.isNull() ? d->findInCache(elementID, size()) : d->findInCache(elementID)); if (pix.isNull()) { return; } painter->drawPixmap(QRectF(point, pix.size()), pix, QRectF(QPointF(0, 0), pix.size())); } void Svg::paint(QPainter *painter, int x, int y, const QString &elementID) { paint(painter, QPointF(x, y), elementID); } void Svg::paint(QPainter *painter, const QRectF &rect, const QString &elementID) { QPixmap pix(d->findInCache(elementID, rect.size())); painter->drawPixmap(QRectF(rect.topLeft(), pix.size()), pix, QRectF(QPointF(0, 0), pix.size())); } void Svg::paint(QPainter *painter, int x, int y, int width, int height, const QString &elementID) { QPixmap pix(d->findInCache(elementID, QSizeF(width, height))); painter->drawPixmap(x, y, pix, 0, 0, pix.size().width(), pix.size().height()); } QSize Svg::size() const { if (d->size.isEmpty()) { d->size = d->naturalSize; } return d->size.toSize(); } void Svg::resize(qreal width, qreal height) { resize(QSize(width, height)); } void Svg::resize(const QSizeF &size) { if (qFuzzyCompare(size.width(), d->size.width()) && qFuzzyCompare(size.height(), d->size.height())) { return; } d->size = size; d->localRectCache.clear(); } void Svg::resize() { if (qFuzzyCompare(d->naturalSize.width(), d->size.width()) && qFuzzyCompare(d->naturalSize.height(), d->size.height())) { return; } d->size = d->naturalSize; d->localRectCache.clear(); } QSize Svg::elementSize(const QString &elementId) const { return d->elementRect(elementId).size().toSize(); } QRectF Svg::elementRect(const QString &elementId) const { return d->elementRect(elementId); } bool Svg::hasElement(const QString &elementId) const { if (d->path.isNull() && d->themePath.isNull()) { return false; } return d->elementRect(elementId).isValid(); } QString Svg::elementAtPoint(const QPoint &point) const { Q_UNUSED(point) return QString(); /* FIXME: implement when Qt can support us! d->createRenderer(); QSizeF naturalSize = d->renderer->defaultSize(); qreal dx = d->size.width() / naturalSize.width(); qreal dy = d->size.height() / naturalSize.height(); //kDebug() << point << "is really" // << QPoint(point.x() *dx, naturalSize.height() - point.y() * dy); return QString(); // d->renderer->elementAtPoint(QPoint(point.x() *dx, naturalSize.height() - point.y() * dy)); */ } bool Svg::isValid() const { if (d->path.isNull() && d->themePath.isNull()) { return false; } d->createRenderer(); return d->renderer->isValid(); } void Svg::setContainsMultipleImages(bool multiple) { d->multipleImages = multiple; } bool Svg::containsMultipleImages() const { return d->multipleImages; } void Svg::setImagePath(const QString &svgFilePath) { d->eraseRenderer(); d->setImagePath(svgFilePath); //kDebug() << "repaintNeeded"; emit repaintNeeded(); } QString Svg::imagePath() const { return d->themed ? d->themePath : d->path; } void Svg::setUsingRenderingCache(bool useCache) { d->cacheRendering = useCache; } bool Svg::isUsingRenderingCache() const { return d->cacheRendering; } void Svg::setTheme(Plasma::Theme *theme) { if (d->theme) { disconnect(d->theme.data(), 0, this, 0); } d->theme = theme; if (!imagePath().isEmpty()) { QString path = imagePath(); d->themePath.clear(); setImagePath(path); } } Theme *Svg::theme() const { return d->theme ? d->theme.data() : Theme::defaultTheme(); } } // Plasma namespace #include "svg.moc"