/**************************************************************************** ** ** 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 QtSvg module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** 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. ** ** 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. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qsvgstyle_p.h" #ifndef QT_NO_SVG #include "qsvgfont_p.h" #include "qsvggraphics_p.h" #include "qsvgnode_p.h" #include "qsvgtinydocument_p.h" #include "qpainter.h" #include "qpair.h" #include "qcolor.h" #include "qdebug.h" #include "qmath.h" #include "qnumeric.h" QT_BEGIN_NAMESPACE QSvgExtraStates::QSvgExtraStates() : fillOpacity(1.0) , strokeOpacity(1.0) , svgFont(0) , textAnchor(Qt::AlignLeft) , fontWeight(400) , fillRule(Qt::WindingFill) , strokeDashOffset(0) , vectorEffect(false) { } QSvgStyleProperty::~QSvgStyleProperty() { } void QSvgFillStyleProperty::apply(QPainter *, const QSvgNode *, QSvgExtraStates &) { Q_ASSERT(!"This should not be called!"); } void QSvgFillStyleProperty::revert(QPainter *, QSvgExtraStates &) { Q_ASSERT(!"This should not be called!"); } QSvgQualityStyle::QSvgQualityStyle(int color) : m_colorRendering(color) { } void QSvgQualityStyle::apply(QPainter *, const QSvgNode *, QSvgExtraStates &) { } void QSvgQualityStyle::revert(QPainter *, QSvgExtraStates &) { } QSvgFillStyle::QSvgFillStyle() : m_style(0) , m_fillRule(Qt::WindingFill) , m_oldFillRule(Qt::WindingFill) , m_fillOpacity(1.0) , m_oldFillOpacity(0) , m_gradientResolved(1) , m_fillRuleSet(0) , m_fillOpacitySet(0) , m_fillSet(0) { } void QSvgFillStyle::setFillRule(Qt::FillRule f) { m_fillRuleSet = 1; m_fillRule = f; } void QSvgFillStyle::setFillOpacity(qreal opacity) { m_fillOpacitySet = 1; m_fillOpacity = opacity; } void QSvgFillStyle::setFillStyle(QSvgFillStyleProperty* style) { m_style = style; m_fillSet = 1; } void QSvgFillStyle::setBrush(QBrush brush) { m_fill = brush; m_style = 0; m_fillSet = 1; } void QSvgFillStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &states) { m_oldFill = p->brush(); m_oldFillRule = states.fillRule; m_oldFillOpacity = states.fillOpacity; if (m_fillRuleSet) states.fillRule = m_fillRule; if (m_fillSet) { if (m_style) p->setBrush(m_style->brush(p, states)); else p->setBrush(m_fill); } if (m_fillOpacitySet) states.fillOpacity = m_fillOpacity; } void QSvgFillStyle::revert(QPainter *p, QSvgExtraStates &states) { if (m_fillOpacitySet) states.fillOpacity = m_oldFillOpacity; if (m_fillSet) p->setBrush(m_oldFill); if (m_fillRuleSet) states.fillRule = m_oldFillRule; } QSvgViewportFillStyle::QSvgViewportFillStyle(const QBrush &brush) : m_viewportFill(brush) { } void QSvgViewportFillStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &) { m_oldFill = p->brush(); p->setBrush(m_viewportFill); } void QSvgViewportFillStyle::revert(QPainter *p, QSvgExtraStates &) { p->setBrush(m_oldFill); } QSvgFontStyle::QSvgFontStyle(QSvgFont *font, QSvgTinyDocument *doc) : m_svgFont(font) , m_doc(doc) , m_familySet(0) , m_sizeSet(0) , m_styleSet(0) , m_variantSet(0) , m_weightSet(0) , m_textAnchorSet(0) { } QSvgFontStyle::QSvgFontStyle() : m_svgFont(0) , m_doc(0) , m_familySet(0) , m_sizeSet(0) , m_styleSet(0) , m_variantSet(0) , m_weightSet(0) , m_textAnchorSet(0) { } int QSvgFontStyle::SVGToQtWeight(int weight) { switch (weight) { case 100: case 200: return QFont::Light; case 300: case 400: return QFont::Normal; case 500: case 600: return QFont::DemiBold; case 700: case 800: return QFont::Bold; case 900: return QFont::Black; } return QFont::Normal; } void QSvgFontStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &states) { m_oldQFont = p->font(); m_oldSvgFont = states.svgFont; m_oldTextAnchor = states.textAnchor; m_oldWeight = states.fontWeight; if (m_textAnchorSet) states.textAnchor = m_textAnchor; QFont font = m_oldQFont; if (m_familySet) { states.svgFont = m_svgFont; font.setFamily(m_qfont.family()); } if (m_sizeSet) font.setPointSize(m_qfont.pointSizeF()); if (m_styleSet) font.setStyle(m_qfont.style()); if (m_variantSet) font.setCapitalization(m_qfont.capitalization()); if (m_weightSet) { if (m_weight == BOLDER) { states.fontWeight = qMin(states.fontWeight + 100, 900); } else if (m_weight == LIGHTER) { states.fontWeight = qMax(states.fontWeight - 100, 100); } else { states.fontWeight = m_weight; } font.setWeight(SVGToQtWeight(states.fontWeight)); } p->setFont(font); } void QSvgFontStyle::revert(QPainter *p, QSvgExtraStates &states) { p->setFont(m_oldQFont); states.svgFont = m_oldSvgFont; states.textAnchor = m_oldTextAnchor; states.fontWeight = m_oldWeight; } QSvgStrokeStyle::QSvgStrokeStyle() : m_strokeOpacity(1.0) , m_oldStrokeOpacity(0.0) , m_strokeDashOffset(0) , m_oldStrokeDashOffset(0) , m_style(0) , m_gradientResolved(1) , m_vectorEffect(0) , m_oldVectorEffect(0) , m_strokeSet(0) , m_strokeDashArraySet(0) , m_strokeDashOffsetSet(0) , m_strokeLineCapSet(0) , m_strokeLineJoinSet(0) , m_strokeMiterLimitSet(0) , m_strokeOpacitySet(0) , m_strokeWidthSet(0) , m_vectorEffectSet(0) { } void QSvgStrokeStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &states) { m_oldStroke = p->pen(); m_oldStrokeOpacity = states.strokeOpacity; m_oldStrokeDashOffset = states.strokeDashOffset; m_oldVectorEffect = states.vectorEffect; QPen pen = p->pen(); qreal oldWidth = pen.widthF(); qreal width = m_stroke.widthF(); if (oldWidth == 0) oldWidth = 1; if (width == 0) width = 1; qreal scale = oldWidth / width; if (m_strokeOpacitySet) states.strokeOpacity = m_strokeOpacity; if (m_vectorEffectSet) states.vectorEffect = m_vectorEffect; if (m_strokeSet) { if (m_style) pen.setBrush(m_style->brush(p, states)); else pen.setBrush(m_stroke.brush()); } if (m_strokeWidthSet) pen.setWidthF(m_stroke.widthF()); bool setDashOffsetNeeded = false; if (m_strokeDashOffsetSet) { states.strokeDashOffset = m_strokeDashOffset; setDashOffsetNeeded = true; } if (m_strokeDashArraySet) { if (m_stroke.style() == Qt::SolidLine) { pen.setStyle(Qt::SolidLine); } else if (m_strokeWidthSet || oldWidth == 1) { // If both width and dash array was set, the dash array is already scaled correctly. pen.setDashPattern(m_stroke.dashPattern()); setDashOffsetNeeded = true; } else { // If dash array was set, but not the width, the dash array has to be scaled with respect to the old width. QVector dashes = m_stroke.dashPattern(); for (int i = 0; i < dashes.size(); ++i) dashes[i] /= oldWidth; pen.setDashPattern(dashes); setDashOffsetNeeded = true; } } else if (m_strokeWidthSet && pen.style() != Qt::SolidLine && scale != 1) { // If the width was set, but not the dash array, the old dash array must be scaled with respect to the new width. QVector dashes = pen.dashPattern(); for (int i = 0; i < dashes.size(); ++i) dashes[i] *= scale; pen.setDashPattern(dashes); setDashOffsetNeeded = true; } if (m_strokeLineCapSet) pen.setCapStyle(m_stroke.capStyle()); if (m_strokeLineJoinSet) pen.setJoinStyle(m_stroke.joinStyle()); if (m_strokeMiterLimitSet) pen.setMiterLimit(m_stroke.miterLimit()); // You can have dash offset on solid strokes in SVG files, but not in Qt. // QPen::setDashOffset() will set the pen style to Qt::CustomDashLine, // so don't call the method if the pen is solid. if (setDashOffsetNeeded && pen.style() != Qt::SolidLine) { qreal currentWidth = pen.widthF(); if (currentWidth == 0) currentWidth = 1; pen.setDashOffset(states.strokeDashOffset / currentWidth); } pen.setCosmetic(states.vectorEffect); p->setPen(pen); } void QSvgStrokeStyle::revert(QPainter *p, QSvgExtraStates &states) { p->setPen(m_oldStroke); states.strokeOpacity = m_oldStrokeOpacity; states.strokeDashOffset = m_oldStrokeDashOffset; states.vectorEffect = m_oldVectorEffect; } void QSvgStrokeStyle::setDashArray(const QVector &dashes) { if (m_strokeWidthSet) { QVector d = dashes; qreal w = m_stroke.widthF(); if (w != 0 && w != 1) { for (int i = 0; i < d.size(); ++i) d[i] /= w; } m_stroke.setDashPattern(d); } else { m_stroke.setDashPattern(dashes); } m_strokeDashArraySet = 1; } QSvgSolidColorStyle::QSvgSolidColorStyle(const QColor &color) : m_solidColor(color) { } QSvgGradientStyle::QSvgGradientStyle(QGradient *grad) : m_gradient(grad), m_gradientStopsSet(false) { } QBrush QSvgGradientStyle::brush(QPainter *, QSvgExtraStates &) { if (!m_link.isEmpty()) { resolveStops(); } // If the gradient is marked as empty, insert transparent black if (!m_gradientStopsSet) { m_gradient->setStops(QGradientStops() << QGradientStop(0.0, QColor(0, 0, 0, 0))); m_gradientStopsSet = true; } QBrush b(*m_gradient); if (!m_matrix.isIdentity()) b.setMatrix(m_matrix); return b; } void QSvgGradientStyle::setMatrix(const QMatrix &mat) { m_matrix = mat; } QSvgTransformStyle::QSvgTransformStyle(const QTransform &trans) : m_transform(trans) { } void QSvgTransformStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &) { m_oldWorldTransform = p->worldTransform(); p->setWorldTransform(m_transform, true); } void QSvgTransformStyle::revert(QPainter *p, QSvgExtraStates &) { p->setWorldTransform(m_oldWorldTransform, false /* don't combine */); } QSvgStyleProperty::Type QSvgQualityStyle::type() const { return QUALITY; } QSvgStyleProperty::Type QSvgFillStyle::type() const { return FILL; } QSvgStyleProperty::Type QSvgViewportFillStyle::type() const { return VIEWPORT_FILL; } QSvgStyleProperty::Type QSvgFontStyle::type() const { return FONT; } QSvgStyleProperty::Type QSvgStrokeStyle::type() const { return STROKE; } QSvgStyleProperty::Type QSvgSolidColorStyle::type() const { return SOLID_COLOR; } QSvgStyleProperty::Type QSvgGradientStyle::type() const { return GRADIENT; } QSvgStyleProperty::Type QSvgTransformStyle::type() const { return TRANSFORM; } QSvgCompOpStyle::QSvgCompOpStyle(QPainter::CompositionMode mode) : m_mode(mode) { } void QSvgCompOpStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &) { m_oldMode = p->compositionMode(); p->setCompositionMode(m_mode); } void QSvgCompOpStyle::revert(QPainter *p, QSvgExtraStates &) { p->setCompositionMode(m_oldMode); } QSvgStyleProperty::Type QSvgCompOpStyle::type() const { return COMP_OP; } QSvgStyle::~QSvgStyle() { } void QSvgStyle::apply(QPainter *p, const QSvgNode *node, QSvgExtraStates &states) { if (quality) { quality->apply(p, node, states); } if (fill) { fill->apply(p, node, states); } if (viewportFill) { viewportFill->apply(p, node, states); } if (font) { font->apply(p, node, states); } if (stroke) { stroke->apply(p, node, states); } if (transform) { transform->apply(p, node, states); } if (animateColor) { animateColor->apply(p, node, states); } //animated transforms have to be applied //_after_ the original object transformations if (!animateTransforms.isEmpty()) { qreal totalTimeElapsed = node->document()->currentElapsed(); // Find the last animateTransform with additive="replace", since this will override all // previous animateTransforms. QList >::const_iterator itr = animateTransforms.constEnd(); do { --itr; if ((*itr)->animActive(totalTimeElapsed) && (*itr)->additiveType() == QSvgAnimateTransform::Replace) { // An animateTransform with additive="replace" will replace the transform attribute. if (transform) transform->revert(p, states); break; } } while (itr != animateTransforms.constBegin()); // Apply the animateTransforms after and including the last one with additive="replace". for (; itr != animateTransforms.constEnd(); ++itr) { if ((*itr)->animActive(totalTimeElapsed)) (*itr)->apply(p, node, states); } } if (opacity) { opacity->apply(p, node, states); } if (compop) { compop->apply(p, node, states); } } void QSvgStyle::revert(QPainter *p, QSvgExtraStates &states) { if (quality) { quality->revert(p, states); } if (fill) { fill->revert(p, states); } if (viewportFill) { viewportFill->revert(p, states); } if (font) { font->revert(p, states); } if (stroke) { stroke->revert(p, states); } //animated transforms need to be reverted _before_ //the native transforms if (!animateTransforms.isEmpty()) { QList >::const_iterator itr = animateTransforms.constBegin(); for (; itr != animateTransforms.constEnd(); ++itr) { if ((*itr)->transformApplied()) { (*itr)->revert(p, states); break; } } for (; itr != animateTransforms.constEnd(); ++itr) (*itr)->clearTransformApplied(); } if (transform) { transform->revert(p, states); } if (animateColor) { animateColor->revert(p, states); } if (opacity) { opacity->revert(p, states); } if (compop) { compop->revert(p, states); } } QSvgAnimateTransform::QSvgAnimateTransform(int startMs, int endMs, int byMs ) : QSvgStyleProperty(), m_from(startMs), m_to(endMs), m_by(byMs), m_type(Empty), m_additive(Replace), m_count(0), m_finished(false), m_transformApplied(false) { m_totalRunningTime = m_to - m_from; } void QSvgAnimateTransform::setArgs(TransformType type, Additive additive, const QVector &args) { m_type = type; m_args = args; m_additive = additive; Q_ASSERT(!(args.count()%3)); m_count = args.count() / 3; } void QSvgAnimateTransform::apply(QPainter *p, const QSvgNode *node, QSvgExtraStates &) { m_oldWorldTransform = p->worldTransform(); resolveMatrix(node); p->setWorldTransform(m_transform, true); m_transformApplied = true; } void QSvgAnimateTransform::revert(QPainter *p, QSvgExtraStates &) { p->setWorldTransform(m_oldWorldTransform, false /* don't combine */); m_transformApplied = false; } void QSvgAnimateTransform::resolveMatrix(const QSvgNode *node) { static const qreal deg2rad = qreal(0.017453292519943295769); qreal totalTimeElapsed = node->document()->currentElapsed(); if (totalTimeElapsed < m_from || m_finished) return; qreal animationFrame = 0; if (m_totalRunningTime != 0) { animationFrame = (totalTimeElapsed - m_from) / m_totalRunningTime; if (m_repeatCount >= 0 && m_repeatCount < animationFrame) { m_finished = true; animationFrame = m_repeatCount; } } qreal percentOfAnimation = animationFrame; if (percentOfAnimation > 1) { percentOfAnimation -= ((int)percentOfAnimation); } qreal currentPosition = percentOfAnimation * (m_count - 1); int startElem = qFloor(currentPosition); int endElem = qCeil(currentPosition); switch(m_type) { case Translate: { startElem *= 3; endElem *= 3; qreal from1, from2; qreal to1, to2; from1 = m_args[startElem++]; from2 = m_args[startElem++]; to1 = m_args[endElem++]; to2 = m_args[endElem++]; qreal transXDiff = (to1-from1) * percentOfAnimation; qreal transX = from1 + transXDiff; qreal transYDiff = (to2-from2) * percentOfAnimation; qreal transY = from2 + transYDiff; m_transform = QTransform(); m_transform.translate(transX, transY); break; } case Scale: { startElem *= 3; endElem *= 3; qreal from1, from2; qreal to1, to2; from1 = m_args[startElem++]; from2 = m_args[startElem++]; to1 = m_args[endElem++]; to2 = m_args[endElem++]; qreal transXDiff = (to1-from1) * percentOfAnimation; qreal transX = from1 + transXDiff; qreal transYDiff = (to2-from2) * percentOfAnimation; qreal transY = from2 + transYDiff; if (transY == 0) transY = transX; m_transform = QTransform(); m_transform.scale(transX, transY); break; } case Rotate: { startElem *= 3; endElem *= 3; qreal from1, from2, from3; qreal to1, to2, to3; from1 = m_args[startElem++]; from2 = m_args[startElem++]; from3 = m_args[startElem++]; to1 = m_args[endElem++]; to2 = m_args[endElem++]; to3 = m_args[endElem++]; qreal rotationDiff = (to1 - from1) * percentOfAnimation; //qreal rotation = from1 + rotationDiff; qreal transXDiff = (to2-from2) * percentOfAnimation; qreal transX = from2 + transXDiff; qreal transYDiff = (to3-from3) * percentOfAnimation; qreal transY = from3 + transYDiff; m_transform = QTransform(); m_transform.translate(transX, transY); m_transform.rotate(rotationDiff); m_transform.translate(-transX, -transY); break; } case SkewX: { startElem *= 3; endElem *= 3; qreal from1; qreal to1; from1 = m_args[startElem++]; to1 = m_args[endElem++]; qreal transXDiff = (to1-from1) * percentOfAnimation; qreal transX = from1 + transXDiff; m_transform = QTransform(); m_transform.shear(qTan(transX * deg2rad), 0); break; } case SkewY: { startElem *= 3; endElem *= 3; qreal from1; qreal to1; from1 = m_args[startElem++]; to1 = m_args[endElem++]; qreal transYDiff = (to1 - from1) * percentOfAnimation; qreal transY = from1 + transYDiff; m_transform = QTransform(); m_transform.shear(0, qTan(transY * deg2rad)); break; } default: break; } } QSvgStyleProperty::Type QSvgAnimateTransform::type() const { return ANIMATE_TRANSFORM; } void QSvgAnimateTransform::setFreeze(bool freeze) { m_freeze = freeze; } void QSvgAnimateTransform::setRepeatCount(qreal repeatCount) { m_repeatCount = repeatCount; } QSvgAnimateColor::QSvgAnimateColor(int startMs, int endMs, int byMs) : QSvgStyleProperty(), m_from(startMs), m_to(endMs), m_by(byMs), m_finished(false) { m_totalRunningTime = m_to - m_from; } void QSvgAnimateColor::setArgs(bool fill, const QList &colors) { m_fill = fill; m_colors = colors; } void QSvgAnimateColor::setFreeze(bool freeze) { m_freeze = freeze; } void QSvgAnimateColor::setRepeatCount(qreal repeatCount) { m_repeatCount = repeatCount; } void QSvgAnimateColor::apply(QPainter *p, const QSvgNode *node, QSvgExtraStates &) { qreal totalTimeElapsed = node->document()->currentElapsed(); if (totalTimeElapsed < m_from || m_finished) return; qreal animationFrame = 0; if (m_totalRunningTime != 0) animationFrame = (totalTimeElapsed - m_from) / m_totalRunningTime; if (m_repeatCount >= 0 && m_repeatCount < animationFrame) { m_finished = true; animationFrame = m_repeatCount; } qreal percentOfAnimation = animationFrame; if (percentOfAnimation > 1) { percentOfAnimation -= ((int)percentOfAnimation); } qreal currentPosition = percentOfAnimation * (m_colors.count() - 1); int startElem = qFloor(currentPosition); int endElem = qCeil(currentPosition); QColor start = m_colors[startElem]; QColor end = m_colors[endElem]; qreal percentOfColorMorph = currentPosition; if (percentOfColorMorph > 1) { percentOfColorMorph -= ((int)percentOfColorMorph); } // Interpolate between the two fixed colors start and end qreal aDiff = (end.alpha() - start.alpha()) * percentOfColorMorph; qreal rDiff = (end.red() - start.red()) * percentOfColorMorph; qreal gDiff = (end.green() - start.green()) * percentOfColorMorph; qreal bDiff = (end.blue() - start.blue()) * percentOfColorMorph; int alpha = int(start.alpha() + aDiff); int red = int(start.red() + rDiff); int green = int(start.green() + gDiff); int blue = int(start.blue() + bDiff); QColor color(red, green, blue, alpha); if (m_fill) { QBrush b = p->brush(); m_oldBrush = b; b.setColor(color); p->setBrush(b); } else { QPen pen = p->pen(); m_oldPen = pen; pen.setColor(color); p->setPen(pen); } } void QSvgAnimateColor::revert(QPainter *p, QSvgExtraStates &) { if (m_fill) { p->setBrush(m_oldBrush); } else { p->setPen(m_oldPen); } } QSvgStyleProperty::Type QSvgAnimateColor::type() const { return ANIMATE_COLOR; } QSvgOpacityStyle::QSvgOpacityStyle(qreal opacity) : m_opacity(opacity), m_oldOpacity(0) { } void QSvgOpacityStyle::apply(QPainter *p, const QSvgNode *, QSvgExtraStates &) { m_oldOpacity = p->opacity(); p->setOpacity(m_opacity * m_oldOpacity); } void QSvgOpacityStyle::revert(QPainter *p, QSvgExtraStates &) { p->setOpacity(m_oldOpacity); } QSvgStyleProperty::Type QSvgOpacityStyle::type() const { return OPACITY; } void QSvgGradientStyle::setStopLink(const QString &link, QSvgTinyDocument *doc) { m_link = link; m_doc = doc; } void QSvgGradientStyle::resolveStops() { if (!m_link.isEmpty() && m_doc) { QSvgStyleProperty *prop = m_doc->styleProperty(m_link); if (prop) { if (prop->type() == QSvgStyleProperty::GRADIENT) { QSvgGradientStyle *st = static_cast(prop); st->resolveStops(); m_gradient->setStops(st->qgradient()->stops()); m_gradientStopsSet = st->gradientStopsSet(); } } else { qWarning("Could not resolve property : %s", qPrintable(m_link)); } m_link = QString(); } } QT_END_NAMESPACE #endif // QT_NO_SVG