/**************************************************************************** ** ** Copyright (C) 2009 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 "qsvggraphics_p.h" #ifndef QT_NO_SVG #include "qsvgfont_p.h" #include "qpainter.h" #include "qtextdocument.h" #include "qabstracttextdocumentlayout.h" #include "qtextcursor.h" #include "qdebug.h" #include #include QT_BEGIN_NAMESPACE #define QT_SVG_DRAW_SHAPE(command) \ qreal oldOpacity = p->opacity(); \ QBrush oldBrush = p->brush(); \ QPen oldPen = p->pen(); \ p->setPen(Qt::NoPen); \ p->setOpacity(oldOpacity * states.fillOpacity); \ command; \ p->setPen(oldPen); \ if (oldPen.widthF() != 0) { \ p->setOpacity(oldOpacity * states.strokeOpacity); \ p->setBrush(Qt::NoBrush); \ command; \ p->setBrush(oldBrush); \ } \ p->setOpacity(oldOpacity); void QSvgAnimation::draw(QPainter *, QSvgExtraStates &) { qWarning(" no implemented"); } static inline QRectF boundsOnStroke(const QPainterPath &path, qreal width) { QPainterPathStroker stroker; stroker.setWidth(width); QPainterPath stroke = stroker.createStroke(path); return stroke.boundingRect(); } QSvgCircle::QSvgCircle(QSvgNode *parent, const QRectF &rect) : QSvgNode(parent), m_bounds(rect) { } QRectF QSvgCircle::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_bounds; else { QPainterPath path; path.addRect(m_bounds); return boundsOnStroke(path, sw); } } void QSvgCircle::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); QT_SVG_DRAW_SHAPE(p->drawEllipse(m_bounds)); revertStyle(p, states); } QSvgArc::QSvgArc(QSvgNode *parent, const QPainterPath &path) : QSvgNode(parent), cubic(path) { m_cachedBounds = path.boundingRect(); } void QSvgArc::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); if (p->pen().widthF() != 0) { qreal oldOpacity = p->opacity(); p->setOpacity(oldOpacity * states.strokeOpacity); p->drawPath(cubic); p->setOpacity(oldOpacity); } revertStyle(p, states); } QSvgEllipse::QSvgEllipse(QSvgNode *parent, const QRectF &rect) : QSvgNode(parent), m_bounds(rect) { } QRectF QSvgEllipse::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_bounds; else { QPainterPath path; path.addEllipse(m_bounds); return boundsOnStroke(path, sw); } } void QSvgEllipse::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); QT_SVG_DRAW_SHAPE(p->drawEllipse(m_bounds)); revertStyle(p, states); } QSvgImage::QSvgImage(QSvgNode *parent, const QImage &image, const QRect &bounds) : QSvgNode(parent), m_image(image), m_bounds(bounds) { if (m_bounds.width() == 0) m_bounds.setWidth(m_image.width()); if (m_bounds.height() == 0) m_bounds.setHeight(m_image.height()); } void QSvgImage::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); p->drawImage(m_bounds, m_image); revertStyle(p, states); } QSvgLine::QSvgLine(QSvgNode *parent, const QLineF &line) : QSvgNode(parent), m_bounds(line) { } void QSvgLine::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); if (p->pen().widthF() != 0) { qreal oldOpacity = p->opacity(); p->setOpacity(oldOpacity * states.strokeOpacity); p->drawLine(m_bounds); p->setOpacity(oldOpacity); } revertStyle(p, states); } QSvgPath::QSvgPath(QSvgNode *parent, const QPainterPath &qpath) : QSvgNode(parent), m_path(qpath) { } void QSvgPath::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); m_path.setFillRule(states.fillRule); QT_SVG_DRAW_SHAPE(p->drawPath(m_path)); revertStyle(p, states); } QRectF QSvgPath::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) { if (m_cachedBounds.isNull()) //m_cachedBounds = m_path.controlPointRect(); m_cachedBounds = m_path.boundingRect(); return m_cachedBounds; } else { return boundsOnStroke(m_path, sw); } } QSvgPolygon::QSvgPolygon(QSvgNode *parent, const QPolygonF &poly) : QSvgNode(parent), m_poly(poly) { } QRectF QSvgPolygon::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_poly.boundingRect(); else { QPainterPath path; path.addPolygon(m_poly); return boundsOnStroke(path, sw); } } void QSvgPolygon::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); QT_SVG_DRAW_SHAPE(p->drawPolygon(m_poly, states.fillRule)); revertStyle(p, states); } QSvgPolyline::QSvgPolyline(QSvgNode *parent, const QPolygonF &poly) : QSvgNode(parent), m_poly(poly) { } void QSvgPolyline::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); qreal oldOpacity = p->opacity(); if (p->brush().style() != Qt::NoBrush) { QPen save = p->pen(); p->setPen(QPen(Qt::NoPen)); p->setOpacity(oldOpacity * states.fillOpacity); p->drawPolygon(m_poly, states.fillRule); p->setPen(save); } if (p->pen().widthF() != 0) { p->setOpacity(oldOpacity * states.strokeOpacity); p->drawPolyline(m_poly); } p->setOpacity(oldOpacity); revertStyle(p, states); } QSvgRect::QSvgRect(QSvgNode *node, const QRectF &rect, int rx, int ry) : QSvgNode(node), m_rect(rect), m_rx(rx), m_ry(ry) { } QRectF QSvgRect::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_rect; else { QPainterPath path; path.addRect(m_rect); return boundsOnStroke(path, sw); } } void QSvgRect::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); if (m_rx || m_ry) { QT_SVG_DRAW_SHAPE(p->drawRoundedRect(m_rect, m_rx, m_ry, Qt::RelativeSize)); } else { QT_SVG_DRAW_SHAPE(p->drawRect(m_rect)); } revertStyle(p, states); } QSvgTspan * const QSvgText::LINEBREAK = 0; QSvgText::QSvgText(QSvgNode *parent, const QPointF &coord) : QSvgNode(parent) , m_coord(coord) , m_type(TEXT) , m_size(0, 0) , m_mode(Default) { } QSvgText::~QSvgText() { for (int i = 0; i < m_tspans.size(); ++i) { if (m_tspans[i] != LINEBREAK) delete m_tspans[i]; } } void QSvgText::setTextArea(const QSizeF &size) { m_size = size; m_type = TEXTAREA; } //QRectF QSvgText::bounds() const {} void QSvgText::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); qreal oldOpacity = p->opacity(); p->setOpacity(oldOpacity * states.fillOpacity); // Force the font to have a size of 100 pixels to avoid truncation problems // when the font is very small. qreal scale = 100.0 / p->font().pointSizeF(); Qt::Alignment alignment = states.textAnchor; QTransform oldTransform = p->worldTransform(); p->scale(1 / scale, 1 / scale); qreal y = 0; bool initial = true; qreal px = m_coord.x() * scale; qreal py = m_coord.y() * scale; QSizeF scaledSize = m_size * scale; if (m_type == TEXTAREA) { if (alignment == Qt::AlignHCenter) px += scaledSize.width() / 2; else if (alignment == Qt::AlignRight) px += scaledSize.width(); } QRectF bounds; if (m_size.height() != 0) bounds = QRectF(0, py, 1, scaledSize.height()); // x and width are not used. bool appendSpace = false; QVector paragraphs; QStack formats; QVector > formatRanges; paragraphs.push_back(QString()); formatRanges.push_back(QList()); for (int i = 0; i < m_tspans.size(); ++i) { if (m_tspans[i] == LINEBREAK) { if (m_type == TEXTAREA) { if (paragraphs.back().isEmpty()) { QFont font = p->font(); font.setPixelSize(font.pointSizeF() * scale); QTextLayout::FormatRange range; range.start = 0; range.length = 1; range.format.setFont(font); formatRanges.back().append(range); paragraphs.back().append(QLatin1Char(' '));; } appendSpace = false; paragraphs.push_back(QString()); formatRanges.push_back(QList()); } } else { WhitespaceMode mode = m_tspans[i]->whitespaceMode(); m_tspans[i]->applyStyle(p, states); QFont font = p->font(); font.setPixelSize(font.pointSizeF() * scale); QString newText(m_tspans[i]->text()); newText.replace(QLatin1Char('\t'), QLatin1Char(' ')); newText.replace(QLatin1Char('\n'), QLatin1Char(' ')); bool prependSpace = !appendSpace && !m_tspans[i]->isTspan() && (mode == Default) && !paragraphs.back().isEmpty() && newText.startsWith(QLatin1Char(' ')); if (appendSpace || prependSpace) paragraphs.back().append(QLatin1Char(' ')); bool appendSpaceNext = (!m_tspans[i]->isTspan() && (mode == Default) && newText.endsWith(QLatin1Char(' '))); if (mode == Default) { newText = newText.simplified(); if (newText.isEmpty()) appendSpaceNext = false; } QTextLayout::FormatRange range; range.start = paragraphs.back().length(); range.length = newText.length(); range.format.setFont(font); range.format.setTextOutline(p->pen()); range.format.setForeground(p->brush()); if (appendSpace) { Q_ASSERT(!formatRanges.back().isEmpty()); ++formatRanges.back().back().length; } else if (prependSpace) { --range.start; ++range.length; } formatRanges.back().append(range); appendSpace = appendSpaceNext; paragraphs.back() += newText; m_tspans[i]->revertStyle(p, states); } } if (states.svgFont) { // SVG fonts not fully supported... QString text = paragraphs.front(); for (int i = 1; i < paragraphs.size(); ++i) { text.append(QLatin1Char('\n')); text.append(paragraphs[i]); } states.svgFont->draw(p, m_coord * scale, text, p->font().pointSizeF() * scale, states.textAnchor); } else { for (int i = 0; i < paragraphs.size(); ++i) { QTextLayout tl(paragraphs[i]); QTextOption op = tl.textOption(); op.setWrapMode(QTextOption::WrapAtWordBoundaryOrAnywhere); tl.setTextOption(op); tl.setAdditionalFormats(formatRanges[i]); tl.beginLayout(); forever { QTextLine line = tl.createLine(); if (!line.isValid()) break; if (m_size.width() != 0) line.setLineWidth(scaledSize.width()); } tl.endLayout(); bool endOfBoundsReached = false; for (int i = 0; i < tl.lineCount(); ++i) { QTextLine line = tl.lineAt(i); qreal x = 0; if (alignment == Qt::AlignHCenter) x -= 0.5 * line.naturalTextWidth(); else if (alignment == Qt::AlignRight) x -= line.naturalTextWidth(); if (initial && m_type == TEXT) y -= line.ascent(); initial = false; line.setPosition(QPointF(x, y)); // Check if the current line fits into the bounding rectangle. if ((m_size.width() != 0 && line.naturalTextWidth() > scaledSize.width()) || (m_size.height() != 0 && y + line.height() > scaledSize.height())) { // I need to set the bounds height to 'y-epsilon' to avoid drawing the current // line. Since the font is scaled to 100 units, 1 should be a safe epsilon. bounds.setHeight(y - 1); endOfBoundsReached = true; break; } y += 1.1 * line.height(); } tl.draw(p, QPointF(px, py), QVector(), bounds); if (endOfBoundsReached) break; } } p->setWorldTransform(oldTransform, false); p->setOpacity(oldOpacity); revertStyle(p, states); } void QSvgText::addText(const QString &text) { m_tspans.append(new QSvgTspan(this, false)); m_tspans.back()->setWhitespaceMode(m_mode); m_tspans.back()->addText(text); } QSvgUse::QSvgUse(const QPointF &start, QSvgNode *parent, QSvgNode *node) : QSvgNode(parent), m_link(node), m_start(start) { } void QSvgUse::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); if (!m_start.isNull()) { p->translate(m_start); } m_link->draw(p, states); if (!m_start.isNull()) { p->translate(-m_start); } revertStyle(p, states); } void QSvgVideo::draw(QPainter *p, QSvgExtraStates &states) { applyStyle(p, states); revertStyle(p, states); } QSvgNode::Type QSvgAnimation::type() const { return ANIMATION; } QSvgNode::Type QSvgArc::type() const { return ARC; } QSvgNode::Type QSvgCircle::type() const { return CIRCLE; } QSvgNode::Type QSvgEllipse::type() const { return ELLIPSE; } QSvgNode::Type QSvgImage::type() const { return IMAGE; } QSvgNode::Type QSvgLine::type() const { return LINE; } QSvgNode::Type QSvgPath::type() const { return PATH; } QSvgNode::Type QSvgPolygon::type() const { return POLYGON; } QSvgNode::Type QSvgPolyline::type() const { return POLYLINE; } QSvgNode::Type QSvgRect::type() const { return RECT; } QSvgNode::Type QSvgText::type() const { return m_type; } QSvgNode::Type QSvgUse::type() const { return USE; } QSvgNode::Type QSvgVideo::type() const { return VIDEO; } QRectF QSvgUse::bounds() const { if (m_link && m_bounds.isEmpty()) { m_bounds = m_link->bounds(); m_bounds = QRectF(m_bounds.x()+m_start.x(), m_bounds.y()+m_start.y(), m_bounds.width(), m_bounds.height()); return m_bounds; } return m_bounds; } QRectF QSvgUse::transformedBounds(const QTransform &transform) const { QRectF bounds; QTransform t = transform; if (m_link) { QSvgTransformStyle *transStyle = m_style.transform; if (transStyle) { t = transStyle->qtransform() * t; } t.translate(m_start.x(), m_start.y()); bounds = m_link->transformedBounds(t); return bounds; } return bounds; } QRectF QSvgPolyline::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_poly.boundingRect(); else { QPainterPath path; path.addPolygon(m_poly); return boundsOnStroke(path, sw); } } QRectF QSvgArc::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) return m_cachedBounds; else { return boundsOnStroke(cubic, sw); } } QRectF QSvgImage::bounds() const { return m_bounds; } QRectF QSvgLine::bounds() const { qreal sw = strokeWidth(); if (qFuzzyIsNull(sw)) { qreal minX = qMin(m_bounds.x1(), m_bounds.x2()); qreal minY = qMin(m_bounds.y1(), m_bounds.y2()); qreal maxX = qMax(m_bounds.x1(), m_bounds.x2()); qreal maxY = qMax(m_bounds.y1(), m_bounds.y2()); return QRectF(minX, minY, maxX-minX, maxY-minY); } else { QPainterPath path; path.moveTo(m_bounds.x1(), m_bounds.y1()); path.lineTo(m_bounds.x2(), m_bounds.y2()); return boundsOnStroke(path, sw); } } QT_END_NAMESPACE #endif // QT_NO_SVG