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/* This file is part of the KDE project
Copyright (C) 2004-2006 David Faure <faure@kde.org>
Copyright (C) 2007 Jan Hambrecht <jaham@gmx.net>
Copyright (C) 2007-2008,2010 Thorsten Zachmann <zachmann@kde.org>
This library 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 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "KoOdfGraphicStyles.h"
#include <QBrush>
#include <QBuffer>
#include <QPen>
#include <kdebug.h>
#include <KoGenStyle.h>
#include <KoGenStyles.h>
#include <KoStore.h>
#include <KoStoreDevice.h>
#include <KoStyleStack.h>
#include <KoUnit.h>
#include <KoXmlNS.h>
#include <KoXmlWriter.h>
#include "KoOdfLoadingContext.h"
#include "KoOdfStylesReader.h"
void KoOdfGraphicStyles::saveOdfFillStyle(KoGenStyle &styleFill, KoGenStyles& mainStyles, const QBrush & brush)
{
switch (brush.style()) {
case Qt::Dense1Pattern:
styleFill.addProperty("draw:transparency", "94%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense2Pattern:
styleFill.addProperty("draw:transparency", "88%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense3Pattern:
styleFill.addProperty("draw:transparency", "63%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense4Pattern:
styleFill.addProperty("draw:transparency", "50%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense5Pattern:
styleFill.addProperty("draw:transparency", "37%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense6Pattern:
styleFill.addProperty("draw:transparency", "12%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::Dense7Pattern:
styleFill.addProperty("draw:transparency", "6%");
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
break;
case Qt::LinearGradientPattern:
case Qt::RadialGradientPattern:
case Qt::ConicalGradientPattern:
styleFill.addProperty("draw:fill", "gradient");
styleFill.addProperty("draw:fill-gradient-name", saveOdfGradientStyle(mainStyles, brush));
break;
case Qt::HorPattern:
case Qt::VerPattern:
case Qt::CrossPattern:
case Qt::BDiagPattern:
case Qt::FDiagPattern:
case Qt::DiagCrossPattern:
styleFill.addProperty("draw:fill", "hatch");
styleFill.addProperty("draw:fill-hatch-name", saveOdfHatchStyle(mainStyles, brush));
break;
case Qt::SolidPattern:
styleFill.addProperty("draw:fill", "solid");
styleFill.addProperty("draw:fill-color", brush.color().name());
if (! brush.isOpaque())
styleFill.addProperty("draw:opacity", QString("%1%").arg(brush.color().alphaF() * 100.0));
break;
case Qt::NoBrush:
default:
styleFill.addProperty("draw:fill", "none");
break;
}
}
void KoOdfGraphicStyles::saveOdfStrokeStyle(KoGenStyle &styleStroke, KoGenStyles &mainStyles, const QPen &pen)
{
// TODO implement all possibilities
switch (pen.style()) {
case Qt::NoPen:
styleStroke.addProperty("draw:stroke", "none");
return;
case Qt::SolidLine:
styleStroke.addProperty("draw:stroke", "solid");
break;
default: { // must be a dashed line
styleStroke.addProperty("draw:stroke", "dash");
// save stroke dash (14.14.7) which is severly limited, but still
KoGenStyle dashStyle(KoGenStyle::StrokeDashStyle);
dashStyle.addAttribute("draw:style", "rect");
QVector<qreal> dashes = pen.dashPattern();
dashStyle.addAttribute("draw:dots1", static_cast<int>(1));
dashStyle.addAttributePt("draw:dots1-length", dashes[0]*pen.widthF());
dashStyle.addAttributePt("draw:distance", dashes[1]*pen.widthF());
if (dashes.size() > 2) {
dashStyle.addAttribute("draw:dots2", static_cast<int>(1));
dashStyle.addAttributePt("draw:dots2-length", dashes[2]*pen.widthF());
}
QString dashStyleName = mainStyles.insert(dashStyle, "dash");
styleStroke.addProperty("draw:stroke-dash", dashStyleName);
break;
}
}
if (pen.brush().gradient()) {
styleStroke.addProperty("koffice:stroke-gradient", saveOdfGradientStyle(mainStyles, pen.brush()));
}
else {
styleStroke.addProperty("svg:stroke-color", pen.color().name());
styleStroke.addProperty("svg:stroke-opacity", QString("%1").arg(pen.color().alphaF()));
}
styleStroke.addPropertyPt("svg:stroke-width", pen.widthF());
switch (pen.joinStyle()) {
case Qt::MiterJoin:
styleStroke.addProperty("draw:stroke-linejoin", "miter");
break;
case Qt::BevelJoin:
styleStroke.addProperty("draw:stroke-linejoin", "bevel");
break;
case Qt::RoundJoin:
styleStroke.addProperty("draw:stroke-linejoin", "round");
break;
default:
styleStroke.addProperty("draw:stroke-linejoin", "miter");
styleStroke.addProperty("koffice:stroke-miterlimit", QString("%1").arg(pen.miterLimit()));
break;
}
}
QString KoOdfGraphicStyles::saveOdfHatchStyle(KoGenStyles& mainStyles, const QBrush &brush)
{
KoGenStyle hatchStyle(KoGenStyle::HatchStyle /*no family name*/);
hatchStyle.addAttribute("draw:color", brush.color().name());
//hatchStyle.addAttribute( "draw:distance", m_distance ); not implemented into kpresenter
switch (brush.style()) {
case Qt::HorPattern:
hatchStyle.addAttribute("draw:style", "single");
hatchStyle.addAttribute("draw:rotation", 0);
break;
case Qt::BDiagPattern:
hatchStyle.addAttribute("draw:style", "single");
hatchStyle.addAttribute("draw:rotation", 450);
break;
case Qt::VerPattern:
hatchStyle.addAttribute("draw:style", "single");
hatchStyle.addAttribute("draw:rotation", 900);
break;
case Qt::FDiagPattern:
hatchStyle.addAttribute("draw:style", "single");
hatchStyle.addAttribute("draw:rotation", 1350);
break;
case Qt::CrossPattern:
hatchStyle.addAttribute("draw:style", "double");
hatchStyle.addAttribute("draw:rotation", 0);
break;
case Qt::DiagCrossPattern:
hatchStyle.addAttribute("draw:style", "double");
hatchStyle.addAttribute("draw:rotation", 450);
break;
default:
break;
}
return mainStyles.insert(hatchStyle, "hatch");
}
QString KoOdfGraphicStyles::saveOdfGradientStyle(KoGenStyles &mainStyles, const QBrush &brush)
{
KoGenStyle gradientStyle;
if (brush.style() == Qt::RadialGradientPattern) {
const QRadialGradient *gradient = static_cast<const QRadialGradient*>(brush.gradient());
gradientStyle = KoGenStyle(KoGenStyle::RadialGradientStyle /*no family name*/);
gradientStyle.addAttribute("svg:cx", QString("%1%").arg(gradient->center().x() * 100));
gradientStyle.addAttribute("svg:cy", QString("%1%").arg(gradient->center().y() * 100));
gradientStyle.addAttribute("svg:r", QString("%1%").arg(gradient->radius() * 100));
gradientStyle.addAttribute("svg:fx", QString("%1%").arg(gradient->focalPoint().x() * 100));
gradientStyle.addAttribute("svg:fy", QString("%1%").arg(gradient->focalPoint().y() * 100));
} else if (brush.style() == Qt::LinearGradientPattern) {
const QLinearGradient *gradient = static_cast<const QLinearGradient*>(brush.gradient());
gradientStyle = KoGenStyle(KoGenStyle::LinearGradientStyle /*no family name*/);
gradientStyle.addAttribute("svg:x1", QString("%1%").arg(gradient->start().x() * 100));
gradientStyle.addAttribute("svg:y1", QString("%1%").arg(gradient->start().y() * 100));
gradientStyle.addAttribute("svg:x2", QString("%1%").arg(gradient->finalStop().x() * 100));
gradientStyle.addAttribute("svg:y2", QString("%1%").arg(gradient->finalStop().y() * 100));
} else if (brush.style() == Qt::ConicalGradientPattern) {
const QConicalGradient * gradient = static_cast<const QConicalGradient*>(brush.gradient());
gradientStyle = KoGenStyle(KoGenStyle::ConicalGradientStyle /*no family name*/);
gradientStyle.addAttribute("svg:cx", QString("%1%").arg(gradient->center().x() * 100));
gradientStyle.addAttribute("svg:cy", QString("%1%").arg(gradient->center().y() * 100));
gradientStyle.addAttribute("draw:angle", QString("%1").arg(gradient->angle()));
}
const QGradient * gradient = brush.gradient();
if (gradient->spread() == QGradient::RepeatSpread)
gradientStyle.addAttribute("svg:spreadMethod", "repeat");
else if (gradient->spread() == QGradient::ReflectSpread)
gradientStyle.addAttribute("svg:spreadMethod", "reflect");
else
gradientStyle.addAttribute("svg:spreadMethod", "pad");
if (! brush.matrix().isIdentity()) {
gradientStyle.addAttribute("svg:gradientTransform", saveTransformation(brush.matrix()));
}
QBuffer buffer;
buffer.open(QIODevice::WriteOnly);
KoXmlWriter elementWriter(&buffer); // TODO pass indentation level
// save stops
QGradientStops stops = gradient->stops();
foreach(const QGradientStop & stop, stops) {
elementWriter.startElement("svg:stop");
elementWriter.addAttribute("svg:offset", QString("%1").arg(stop.first));
elementWriter.addAttribute("svg:stop-color", stop.second.name());
if (stop.second.alphaF() < 1.0)
elementWriter.addAttribute("svg:stop-opacity", QString("%1").arg(stop.second.alphaF()));
elementWriter.endElement();
}
QString elementContents = QString::fromUtf8(buffer.buffer(), buffer.buffer().size());
gradientStyle.addChildElement("svg:stop", elementContents);
return mainStyles.insert(gradientStyle, "gradient");
}
QBrush KoOdfGraphicStyles::loadOdfGradientStyle(const KoStyleStack &styleStack, const KoOdfStylesReader & stylesReader, const QSizeF &size)
{
QString styleName = styleStack.property(KoXmlNS::draw, "fill-gradient-name");
return loadOdfGradientStyleByName(stylesReader, styleName, size);
}
qreal percent(const KoXmlElement &element, const char *ns, const char *type, const QString &defaultValue, qreal absolute)
{
qreal tmp = 0.0;
QString value = element.attributeNS(ns, type, defaultValue);
if (value.indexOf('%') > -1) { // percent value
tmp = value.remove('%').toDouble() / 100.0;
}
else { // fixed value
tmp = KoUnit::parseValue(value) / absolute;
// The following is done so that we get the same data as when we save/load.
// This is needed that we get the same values due to rounding differences
// of absolute and relative values.
QString value = QString("%1").arg(tmp * 100.0);
tmp = value.toDouble() / 100;
}
return tmp;
}
QBrush KoOdfGraphicStyles::loadOdfGradientStyleByName(const KoOdfStylesReader & stylesReader, const QString styleName, const QSizeF &size)
{
KoXmlElement* e = stylesReader.drawStyles()[styleName];
if (! e)
return QBrush();
QGradient * gradient = 0;
QMatrix matrix;
if (e->namespaceURI() == KoXmlNS::draw && e->localName() == "gradient") {
// FIXME seems like oo renders the gradient start stop color at the center of the
// radial gradient, and the start color at the radius of the radial gradient
// whereas it is not mentioned in the spec how it should be rendered
// note that svg defines that exactly as the opposite as oo does
// so what should we do?
QString type = e->attributeNS(KoXmlNS::draw, "style", QString());
if (type == "radial") {
// Zagge: at the moment the only objectBoundingBox is supported:
// 18.539 svg:gradientUnits
// See §13.2.2 and §13.2.3 of [SVG].
// The default value for this attribute is objectBoundingBox.
// The only value of the svg:gradientUnits attribute is objectBoundingBox.
qreal cx = KoUnit::parseValue(e->attributeNS(KoXmlNS::draw, "cx", QString()).remove('%'));
qreal cy = KoUnit::parseValue(e->attributeNS(KoXmlNS::draw, "cy", QString()).remove('%'));
gradient = new QRadialGradient(QPointF(cx * 0.01, cy * 0.01), sqrt(0.5));
gradient->setCoordinateMode(QGradient::ObjectBoundingMode);
} else if (type == "linear" || type == "axial") {
QLinearGradient * lg = new QLinearGradient();
lg->setCoordinateMode(QGradient::ObjectBoundingMode);
// Dividing by 10 here because OOo saves as degree * 10
qreal angle = 90 + e->attributeNS(KoXmlNS::draw, "angle", "0").toDouble() / 10;
qreal radius = sqrt(0.5);
qreal sx = cos(angle * M_PI / 180) * radius;
qreal sy = sin(angle * M_PI / 180) * radius;
lg->setStart(QPointF(0.5 + sx, 0.5 - sy));
lg->setFinalStop(QPointF(0.5 - sx, 0.5 + sy));
gradient = lg;
} else
return QBrush();
qreal border = 0.01 * e->attributeNS(KoXmlNS::draw, "border", "0").remove('%').toDouble();
QGradientStops stops;
if (type != "axial") {
// In case of radial gradients the colors are reversed, because OOo saves them as the oppsite of the SVG direction
// see bug 137639
QGradientStop start;
start.first = (type != "radial") ? border : 1.0 - border;
start.second = QColor(e->attributeNS(KoXmlNS::draw, "start-color", QString()));
start.second.setAlphaF(0.01 * e->attributeNS(KoXmlNS::draw, "start-intensity", "100").remove('%').toDouble());
QGradientStop end;
end.first = (type != "radial") ? 1.0 : 0.0;
end.second = QColor(e->attributeNS(KoXmlNS::draw, "end-color", QString()));
end.second.setAlphaF(0.01 * e->attributeNS(KoXmlNS::draw, "end-intensity", "100").remove('%').toDouble());
stops << start << end;
} else {
QGradientStop start;
start.first = 0.5 * border;
start.second = QColor(e->attributeNS(KoXmlNS::draw, "end-color", QString()));
start.second.setAlphaF(0.01 * e->attributeNS(KoXmlNS::draw, "end-intensity", "100").remove('%').toDouble());
QGradientStop middle;
middle.first = 0.5;
middle.second = QColor(e->attributeNS(KoXmlNS::draw, "start-color", QString()));
middle.second.setAlphaF(0.01 * e->attributeNS(KoXmlNS::draw, "start-intensity", "100").remove('%').toDouble());
QGradientStop end;
end.first = 1.0 - 0.5 * border;
end.second = QColor(e->attributeNS(KoXmlNS::draw, "end-color", QString()));
end.second.setAlphaF(0.01 * e->attributeNS(KoXmlNS::draw, "end-intensity", "100").remove('%').toDouble());
stops << start << middle << end;
}
gradient->setStops(stops);
} else if (e->namespaceURI() == KoXmlNS::svg) {
if (e->localName() == "linearGradient") {
QPointF start, stop;
start.setX(percent(*e, KoXmlNS::svg, "x1", "0%", size.width()));
start.setY(percent(*e, KoXmlNS::svg, "y1", "0%", size.height()));
stop.setX(percent(*e, KoXmlNS::svg, "x2", "100%", size.width()));
stop.setY(percent(*e, KoXmlNS::svg, "y2", "100%", size.height()));
gradient = new QLinearGradient(start, stop);
} else if (e->localName() == "radialGradient") {
QPointF center, focalPoint;
center.setX(percent(*e, KoXmlNS::svg, "cx", "50%", size.width()));
center.setY(percent(*e, KoXmlNS::svg, "cy", "50%", size.height()));
qreal r = percent(*e, KoXmlNS::svg, "r", "50%", sqrt(size.width() * size.width() + size.height() * size.height()));
focalPoint.setX(percent(*e, KoXmlNS::svg, "fx", QString(), size.width()));
focalPoint.setY(percent(*e, KoXmlNS::svg, "fy", QString(), size.height()));
gradient = new QRadialGradient(center, r, focalPoint );
}
gradient->setCoordinateMode(QGradient::ObjectBoundingMode);
QString strSpread(e->attributeNS(KoXmlNS::svg, "spreadMethod", "pad"));
if (strSpread == "repeat")
gradient->setSpread(QGradient::RepeatSpread);
else if (strSpread == "reflect")
gradient->setSpread(QGradient::ReflectSpread);
else
gradient->setSpread(QGradient::PadSpread);
if (e->hasAttributeNS(KoXmlNS::svg, "gradientTransform"))
matrix = loadTransformation(e->attributeNS(KoXmlNS::svg, "gradientTransform", QString()));
QGradientStops stops;
// load stops
KoXmlElement colorstop;
forEachElement(colorstop, (*e)) {
if (colorstop.namespaceURI() == KoXmlNS::svg && colorstop.localName() == "stop") {
QGradientStop stop;
stop.second = QColor(colorstop.attributeNS(KoXmlNS::svg, "stop-color", QString()));
stop.second.setAlphaF(colorstop.attributeNS(KoXmlNS::svg, "stop-opacity", "1.0").toDouble());
stop.first = colorstop.attributeNS(KoXmlNS::svg, "offset", "0.0").toDouble();
stops.append(stop);
}
}
gradient->setStops(stops);
} else if (e->namespaceURI() == KoXmlNS::koffice) {
if (e->localName() == "conicalGradient") {
QPointF center;
center.setX(percent(*e, KoXmlNS::svg, "cx", "50%", size.width()));
center.setY(percent(*e, KoXmlNS::svg, "cy", "50%", size.height()));
qreal angle = KoUnit::parseValue(e->attributeNS(KoXmlNS::draw, "angle", QString()));
gradient = new QConicalGradient(center, angle);
gradient->setCoordinateMode(QGradient::ObjectBoundingMode);
QString strSpread(e->attributeNS(KoXmlNS::svg, "spreadMethod", "pad"));
if (strSpread == "repeat")
gradient->setSpread(QGradient::RepeatSpread);
else if (strSpread == "reflect")
gradient->setSpread(QGradient::ReflectSpread);
else
gradient->setSpread(QGradient::PadSpread);
if (e->hasAttributeNS(KoXmlNS::svg, "gradientTransform"))
matrix = loadTransformation(e->attributeNS(KoXmlNS::svg, "gradientTransform", QString()));
QGradientStops stops;
// load stops
KoXmlElement colorstop;
forEachElement(colorstop, (*e)) {
if (colorstop.namespaceURI() == KoXmlNS::svg && colorstop.localName() == "stop") {
QGradientStop stop;
stop.second = QColor(colorstop.attributeNS(KoXmlNS::svg, "stop-color", QString()));
stop.second.setAlphaF(colorstop.attributeNS(KoXmlNS::svg, "stop-opacity", "1.0").toDouble());
stop.first = colorstop.attributeNS(KoXmlNS::svg, "offset", "0.0").toDouble();
stops.append(stop);
}
}
gradient->setStops(stops);
}
}
if (! gradient)
return QBrush();
QBrush resultBrush(*gradient);
resultBrush.setMatrix(matrix);
delete gradient;
return resultBrush;
}
QBrush KoOdfGraphicStyles::loadOdfFillStyle(const KoStyleStack &styleStack, const QString & fill, const KoOdfStylesReader & stylesReader)
{
QBrush tmpBrush; // default brush for "none" is a Qt::NoBrush
if (fill == "solid") {
tmpBrush.setStyle(static_cast<Qt::BrushStyle>(1));
if (styleStack.hasProperty(KoXmlNS::draw, "fill-color"))
tmpBrush.setColor(styleStack.property(KoXmlNS::draw, "fill-color"));
if (styleStack.hasProperty(KoXmlNS::draw, "opacity")) {
QString opacity = styleStack.property(KoXmlNS::draw, "opacity");
if (! opacity.isEmpty() && opacity.right(1) == "%") {
float percent = opacity.left(opacity.length() - 1).toFloat();
QColor color = tmpBrush.color();
color.setAlphaF(percent / 100.0);
tmpBrush.setColor(color);
}
}
//TODO
if (styleStack.hasProperty(KoXmlNS::draw, "transparency")) {
QString transparency = styleStack.property(KoXmlNS::draw, "transparency");
if (transparency == "94%") {
tmpBrush.setStyle(Qt::Dense1Pattern);
} else if (transparency == "88%") {
tmpBrush.setStyle(Qt::Dense2Pattern);
} else if (transparency == "63%") {
tmpBrush.setStyle(Qt::Dense3Pattern);
} else if (transparency == "50%") {
tmpBrush.setStyle(Qt::Dense4Pattern);
} else if (transparency == "37%") {
tmpBrush.setStyle(Qt::Dense5Pattern);
} else if (transparency == "12%") {
tmpBrush.setStyle(Qt::Dense6Pattern);
} else if (transparency == "6%") {
tmpBrush.setStyle(Qt::Dense7Pattern);
} else
kDebug(30003) << " transparency is not defined into kpresenter :" << transparency;
}
} else if (fill == "hatch") {
QString style = styleStack.property(KoXmlNS::draw, "fill-hatch-name");
kDebug(30003) << " hatch style is :" << style;
//type not defined by default
//try to use style.
KoXmlElement* draw = stylesReader.drawStyles()[style];
if (draw) {
kDebug(30003) << "We have a style";
int angle = 0;
if (draw->hasAttributeNS(KoXmlNS::draw, "rotation")) {
angle = (draw->attributeNS(KoXmlNS::draw, "rotation", QString()).toInt()) / 10;
kDebug(30003) << "angle :" << angle;
}
if (draw->hasAttributeNS(KoXmlNS::draw, "color")) {
//kDebug(30003)<<" draw:color :"<<draw->attributeNS( KoXmlNS::draw,"color", QString() );
tmpBrush.setColor(draw->attributeNS(KoXmlNS::draw, "color", QString()));
}
if (draw->hasAttributeNS(KoXmlNS::draw, "distance")) {
//todo implemente it into kpresenter
}
if (draw->hasAttributeNS(KoXmlNS::draw, "display-name")) {
//todo implement it into kpresenter
}
if (draw->hasAttributeNS(KoXmlNS::draw, "style")) {
//todo implemente it into kpresenter
QString styleHash = draw->attributeNS(KoXmlNS::draw, "style", QString());
if (styleHash == "single") {
switch (angle) {
case 0:
case 180:
tmpBrush.setStyle(Qt::HorPattern);
break;
case 45:
case 225:
tmpBrush.setStyle(Qt::BDiagPattern);
break;
case 90:
case 270:
tmpBrush.setStyle(Qt::VerPattern);
break;
case 135:
case 315:
tmpBrush.setStyle(Qt::FDiagPattern);
break;
default:
//todo fixme when we will have a kopaint
kDebug(30003) << " draw:rotation 'angle' :" << angle;
break;
}
} else if (styleHash == "double") {
switch (angle) {
case 0:
case 180:
case 90:
case 270:
tmpBrush.setStyle(Qt::CrossPattern);
break;
case 45:
case 135:
case 225:
case 315:
tmpBrush.setStyle(Qt::DiagCrossPattern);
break;
default:
//todo fixme when we will have a kopaint
kDebug(30003) << " draw:rotation 'angle' :" << angle;
break;
}
} else if (styleHash == "triple") {
kDebug(30003) << " it is not implemented :(";
}
}
}
}
return tmpBrush;
}
QPen KoOdfGraphicStyles::loadOdfStrokeStyle(const KoStyleStack &styleStack, const QString & stroke, const KoOdfStylesReader & stylesReader)
{
QPen tmpPen(Qt::NoPen); // default pen for "none" is a Qt::NoPen
if (stroke == "solid" || stroke == "dash") {
// If solid or dash is set then we assume that the color is black and the penWidth
// is zero till defined otherwise with the following attributes.
tmpPen = QPen();
if (styleStack.hasProperty(KoXmlNS::svg, "stroke-color"))
tmpPen.setColor(styleStack.property(KoXmlNS::svg, "stroke-color"));
if (styleStack.hasProperty(KoXmlNS::svg, "stroke-opacity")) {
QColor color = tmpPen.color();
QString opacity = styleStack.property(KoXmlNS::svg, "stroke-opacity");
if (opacity.endsWith('%'))
color.setAlphaF(0.01 * opacity.remove('%').toDouble());
else
color.setAlphaF(opacity.toDouble());
tmpPen.setColor(color);
}
if (styleStack.hasProperty(KoXmlNS::svg, "stroke-width"))
tmpPen.setWidthF(KoUnit::parseValue(styleStack.property(KoXmlNS::svg, "stroke-width")));
if (styleStack.hasProperty(KoXmlNS::draw, "stroke-linejoin")) {
QString join = styleStack.property(KoXmlNS::draw, "stroke-linejoin");
if (join == "bevel")
tmpPen.setJoinStyle(Qt::BevelJoin);
else if (join == "round")
tmpPen.setJoinStyle(Qt::RoundJoin);
else {
tmpPen.setJoinStyle(Qt::MiterJoin);
if (styleStack.hasProperty(KoXmlNS::koffice, "stroke-miterlimit")) {
QString miterLimit = styleStack.property(KoXmlNS::koffice, "stroke-miterlimit");
tmpPen.setMiterLimit(miterLimit.toDouble());
}
}
}
if (stroke == "dash" && styleStack.hasProperty(KoXmlNS::draw, "stroke-dash")) {
QString dashStyleName = styleStack.property(KoXmlNS::draw, "stroke-dash");
// set width to 1 in case it is 0 as dividing by 0 gives infinity
qreal width = tmpPen.width();
if ( width == 0 ) {
width = 1;
}
KoXmlElement * dashElement = stylesReader.drawStyles()[ dashStyleName ];
if (dashElement) {
QVector<qreal> dashes;
if (dashElement->hasAttributeNS(KoXmlNS::draw, "dots1")) {
qreal dotLength = KoUnit::parseValue(dashElement->attributeNS(KoXmlNS::draw, "dots1-length", QString()));
dashes.append(dotLength / width);
qreal dotDistance = KoUnit::parseValue(dashElement->attributeNS(KoXmlNS::draw, "distance", QString()));
dashes.append(dotDistance / width);
if (dashElement->hasAttributeNS(KoXmlNS::draw, "dots2")) {
dotLength = KoUnit::parseValue(dashElement->attributeNS(KoXmlNS::draw, "dots2-length", QString()));
dashes.append(dotLength / width);
dashes.append(dotDistance / width);
}
tmpPen.setDashPattern(dashes);
}
}
}
}
return tmpPen;
}
QMatrix KoOdfGraphicStyles::loadTransformation(const QString &transformation)
{
QMatrix matrix;
// Split string for handling 1 transform statement at a time
QStringList subtransforms = transformation.split(')', QString::SkipEmptyParts);
QStringList::ConstIterator it = subtransforms.constBegin();
QStringList::ConstIterator end = subtransforms.constEnd();
for (; it != end; ++it) {
QStringList subtransform = (*it).split('(', QString::SkipEmptyParts);
subtransform[0] = subtransform[0].trimmed().toLower();
subtransform[1] = subtransform[1].simplified();
QRegExp reg("[,( ]");
QStringList params = subtransform[1].split(reg, QString::SkipEmptyParts);
if (subtransform[0].startsWith(';') || subtransform[0].startsWith(','))
subtransform[0] = subtransform[0].right(subtransform[0].length() - 1);
if (subtransform[0] == "rotate") {
// TODO find out what oo2 really does when rotating, it seems severly broken
if (params.count() == 3) {
qreal x = KoUnit::parseValue(params[1]);
qreal y = KoUnit::parseValue(params[2]);
matrix.translate(x, y);
// oo2 rotates by radians
matrix.rotate(params[0].toDouble()*180.0 / M_PI);
matrix.translate(-x, -y);
} else {
// oo2 rotates by radians
matrix.rotate(params[0].toDouble()*180.0 / M_PI);
}
} else if (subtransform[0] == "translate") {
if (params.count() == 2) {
qreal x = KoUnit::parseValue(params[0]);
qreal y = KoUnit::parseValue(params[1]);
matrix.translate(x, y);
} else // Spec : if only one param given, assume 2nd param to be 0
matrix.translate(KoUnit::parseValue(params[0]) , 0);
} else if (subtransform[0] == "scale") {
if (params.count() == 2)
matrix.scale(params[0].toDouble(), params[1].toDouble());
else // Spec : if only one param given, assume uniform scaling
matrix.scale(params[0].toDouble(), params[0].toDouble());
} else if (subtransform[0] == "skewx")
matrix.shear(tan(params[0].toDouble()), 0.0F);
else if (subtransform[0] == "skewy")
matrix.shear(tan(params[0].toDouble()), 0.0F);
else if (subtransform[0] == "skewy")
matrix.shear(0.0F, tan(params[0].toDouble()));
else if (subtransform[0] == "matrix") {
if (params.count() >= 6)
matrix.setMatrix(params[0].toDouble(), params[1].toDouble(), params[2].toDouble(), params[3].toDouble(), KoUnit::parseValue(params[4]), KoUnit::parseValue(params[5]));
}
}
return matrix;
}
QString KoOdfGraphicStyles::saveTransformation(const QMatrix &transformation, bool appendTranslateUnit)
{
QString transform;
if (appendTranslateUnit)
transform = QString("matrix(%1 %2 %3 %4 %5pt %6pt)")
.arg(transformation.m11()).arg(transformation.m12())
.arg(transformation.m21()).arg(transformation.m22())
.arg(transformation.dx()) .arg(transformation.dy());
else
transform = QString("matrix(%1 %2 %3 %4 %5 %6)")
.arg(transformation.m11()).arg(transformation.m12())
.arg(transformation.m21()).arg(transformation.m22())
.arg(transformation.dx()) .arg(transformation.dy());
return transform;
}
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