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qt3/src/xml/qsvgdevice.cpp

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/****************************************************************************
**
** Implementation of the QSvgDevice class
**
** Copyright (C) 2000-2008 Trolltech ASA. All rights reserved.
**
** This file is part of the xml module of the Qt GUI Toolkit.
**
** This file may be used under the terms of the GNU General
** Public License versions 2.0 or 3.0 as published by the Free
** Software Foundation and appearing in the files LICENSE.GPL2
** and LICENSE.GPL3 included in the packaging of this file.
** Alternatively you may (at your option) use any later version
** of the GNU General Public License if such license has been
** publicly approved by Trolltech ASA (or its successors, if any)
** and the KDE Free Qt Foundation.
**
** Please review the following information to ensure GNU General
** Public Licensing requirements will be met:
** http://trolltech.com/products/qt/licenses/licensing/opensource/.
** If you are unsure which license is appropriate for your use, please
** review the following information:
** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
** or contact the sales department at sales@trolltech.com.
**
** This file may be used under the terms of the Q Public License as
** defined by Trolltech ASA and appearing in the file LICENSE.QPL
** included in the packaging of this file. Licensees holding valid Qt
** Commercial licenses may use this file in accordance with the Qt
** Commercial License Agreement provided with the Software.
**
** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
** herein.
**
*****************************************************************************/
#include <private/qsvgdevice_p.h>
#ifndef QT_NO_SVG
#include "qpainter.h"
#include "qpaintdevicemetrics.h"
#include "qfile.h"
#include "qmap.h"
#include "qregexp.h"
#include "qvaluelist.h"
#include "qtextstream.h"
#include "qimage.h"
#include "qpixmap.h"
#include <math.h>
const double deg2rad = 0.017453292519943295769; // pi/180
const char piData[] = "version=\"1.0\" standalone=\"no\"";
const char publicId[] = "-//W3C//DTD SVG 20001102//EN";
const char systemId[] = "http://www.w3.org/TR/2000/CR-SVG-20001102/DTD/svg-20001102.dtd";
struct QM_EXPORT_SVG ImgElement {
QDomElement element;
QImage image;
Q_DUMMY_COMPARISON_OPERATOR( ImgElement )
};
struct QM_EXPORT_SVG PixElement {
QDomElement element;
QPixmap pixmap;
Q_DUMMY_COMPARISON_OPERATOR( PixElement )
};
struct QSvgDeviceState {
int textx, texty; // current text position
int textalign; // text alignment
Q_DUMMY_COMPARISON_OPERATOR( QSvgDeviceState )
};
typedef QValueList<ImgElement> ImageList;
typedef QValueList<PixElement> PixmapList;
typedef QValueList<QSvgDeviceState> StateList;
class QSvgDevicePrivate {
public:
ImageList images;
PixmapList pixmaps;
StateList stack;
int currentClip;
uint justRestored : 1;
QMap<QString, QRegion> clipPathTable;
};
enum ElementType {
InvalidElement = 0,
AnchorElement,
CircleElement,
ClipElement,
CommentElement,
DescElement,
EllipseElement,
GroupElement,
ImageElement,
LineElement,
PolylineElement,
PolygonElement,
PathElement,
RectElement,
SvgElement,
TextElement,
TitleElement,
TSpanElement
};
typedef QMap<QString,ElementType> QSvgTypeMap;
static QSvgTypeMap *qSvgTypeMap=0; // element types
static QMap<QString,QString> *qSvgColMap=0; // recognized color keyword names
/*!
\class QSvgDevice qsvgdevice.h
\brief The QSvgDevice class provides a paint device for SVG vector graphics.
\if defined(commercial)
It is part of the <a href="commercialeditions.html">Qt Enterprise Edition</a>.
\endif
\ingroup xml-tools
\module XML
\internal
SVG is an XML vector graphics format. This class supports the
loading and saving of SVG files with load() and save(), and the
rendering of an SVG onto a QPainter using play(). Use toString()
to put the SVG into a string.
\sa QPaintDevice QPainter
*/
/*!
Creates a QSvgDevice object.
*/
QSvgDevice::QSvgDevice()
: QPaintDevice( QInternal::ExternalDevice ),
pt( 0 )
{
d = new QSvgDevicePrivate;
d->currentClip = 0;
d->justRestored = FALSE;
}
/*!
Destroys the QSvgDevice object and frees the resources it used.
*/
QSvgDevice::~QSvgDevice()
{
delete qSvgTypeMap; qSvgTypeMap = 0; // static
delete qSvgColMap; qSvgColMap = 0;
delete d;
}
/*!
Loads and parses a SVG from \a dev into the device. Returns TRUE
on success (i.e. loaded and parsed without error); otherwise
returns FALSE.
*/
bool QSvgDevice::load( QIODevice *dev )
{
return doc.setContent( dev );
}
/*!
Renders (replays) the SVG on the \a painter and returns TRUE if
successful (i.e. it is a valid SVG); otherwise returns FALSE.
*/
bool QSvgDevice::play( QPainter *painter )
{
if ( !painter ) {
#if defined(QT_CHECK_RANGE)
Q_ASSERT( painter );
#endif
return FALSE;
}
pt = painter;
pt->setPen( Qt::NoPen ); // SVG default pen and brush
pt->setBrush( Qt::black );
if ( doc.isNull() ) {
qWarning( "QSvgDevice::play: No SVG data set." );
return FALSE;
}
QDomNode svg = doc.namedItem( "svg" );
if ( svg.isNull() || !svg.isElement() ) {
qWarning( "QSvgDevice::play: Couldn't find any svg element." );
return FALSE;
}
// force transform to be activated in case our sequences
// are replayed later with a transformed painter
painter->setWorldXForm( TRUE );
QDomNamedNodeMap attr = svg.attributes();
int x = lenToInt( attr, "x" );
int y = lenToInt( attr, "y" );
brect.setX( x );
brect.setY( y );
QString wstr = attr.contains( "width" )
? attr.namedItem( "width" ).nodeValue() : QString( "100%" );
QString hstr = attr.contains( "height" )
? attr.namedItem( "height" ).nodeValue() : QString( "100%" );
double width = parseLen( wstr, 0, TRUE );
double height = parseLen( hstr, 0, FALSE );
// SVG doesn't respect x and y. But we want a proper bounding rect.
brect.setWidth( int(width) - x );
brect.setHeight( int(height) - y );
painter->setClipRect( brect, QPainter::CoordPainter );
if ( attr.contains( "viewBox" ) ) {
QRegExp re( QString::fromLatin1("\\s*(\\S+)\\s*,?\\s*(\\S+)\\s*,?"
"\\s*(\\S+)\\s*,?\\s*(\\S+)\\s*") );
if ( re.search( attr.namedItem( "viewBox" ).nodeValue() ) < 0 ) {
qWarning( "QSvgDevice::play: Invalid viewBox attribute.");
return FALSE;
} else {
double x = re.cap( 1 ).toDouble();
double y = re.cap( 2 ).toDouble();
double w = re.cap( 3 ).toDouble();
double h = re.cap( 4 ).toDouble();
if ( w < 0 || h < 0 ) {
qWarning( "QSvgDevice::play: Invalid viewBox dimension.");
return FALSE;
} else if ( w == 0 || h == 0 ) {
return TRUE;
}
painter->scale( width/w, height/h );
painter->translate( -x, -y );
}
}
const struct ElementTable {
const char *name;
ElementType type;
} etab[] = {
{ "a", AnchorElement },
{ "#comment", CommentElement },
{ "circle", CircleElement },
{ "clipPath", ClipElement },
{ "desc", DescElement },
{ "ellipse", EllipseElement },
{ "g", GroupElement },
{ "image", ImageElement },
{ "line", LineElement },
{ "polyline", PolylineElement },
{ "polygon", PolygonElement },
{ "path", PathElement },
{ "rect", RectElement },
{ "svg", SvgElement },
{ "text", TextElement },
{ "tspan", TSpanElement },
{ "title", TitleElement },
{ 0, InvalidElement }
};
// initialize only once
if ( !qSvgTypeMap ) {
qSvgTypeMap = new QSvgTypeMap;
const ElementTable *t = etab;
while ( t->name ) {
qSvgTypeMap->insert( t->name, t->type );
t++;
}
}
// initial state
QSvgDeviceState st;
st.textx = st.texty = 0;
st.textalign = Qt::AlignLeft;
d->stack.append(st);
curr = &d->stack.last();
// 'play' all elements recursively starting with 'svg' as root
bool b = play( svg );
d->stack.remove( d->stack.begin() );
return b;
}
/*!
Returns the SVG as a single string of XML.
*/
QString QSvgDevice::toString() const
{
if ( doc.isNull() )
return QString();
return doc.toString();
}
/*!
Saves the SVG to \a fileName.
*/
bool QSvgDevice::save( const QString &fileName )
{
// guess svg id from fileName
QString svgName = fileName.endsWith( ".svg" ) ?
fileName.left( fileName.length()-4 ) : fileName;
// now we have the info about name and dimensions available
QDomElement root = doc.documentElement();
root.setAttribute( "id", svgName );
// the standard doesn't take respect x and y. But we want a
// proper bounding rect. We make width and height bigger when
// writing out and subtract x and y when reading in.
root.setAttribute( "x", brect.x() );
root.setAttribute( "y", brect.y() );
root.setAttribute( "width", brect.width() + brect.x() );
root.setAttribute( "height", brect.height() + brect.y() );
// ... and know how to name any image files to be written out
int icount = 0;
ImageList::Iterator iit = d->images.begin();
for ( ; iit != d->images.end(); ++iit ) {
QString href = QString( "%1_%2.png" ).arg( svgName ).arg( icount );
(*iit).image.save( href, "PNG" );
(*iit).element.setAttribute( "xlink:href", href );
icount++;
}
PixmapList::Iterator pit = d->pixmaps.begin();
for ( ; pit != d->pixmaps.end(); ++pit ) {
QString href = QString( "%1_%2.png" ).arg( svgName ).arg( icount );
(*pit).pixmap.save( href, "PNG" );
(*pit).element.setAttribute( "xlink:href", href );
icount++;
}
QFile f( fileName );
if ( !f.open ( IO_WriteOnly ) )
return FALSE;
QTextStream s( &f );
s.setEncoding( QTextStream::UnicodeUTF8 );
s << doc;
return TRUE;
}
/*!
\overload
\a dev is the device to use for saving.
*/
bool QSvgDevice::save( QIODevice *dev )
{
#if defined(CHECK_RANGE)
if ( !d->images.isEmpty() || !d->pixmaps.isEmpty() )
qWarning( "QSvgDevice::save: skipping external images" );
#endif
QTextStream s( dev );
s.setEncoding( QTextStream::UnicodeUTF8 );
s << doc;
return TRUE;
}
/*!
\fn QRect QSvgDevice::boundingRect() const
Returns the bounding rectangle of the SVG.
*/
/*!
Sets the bounding rectangle of the SVG to rectangle \a r.
*/
void QSvgDevice::setBoundingRect( const QRect &r )
{
brect = r;
}
/*!
Internal implementation of the virtual QPaintDevice::metric()
function.
\warning Use the QPaintDeviceMetrics class instead.
A QSvgDevice has the following hard coded values: dpi=72,
numcolors=16777216 and depth=24. \a m is the metric to get.
*/
int QSvgDevice::metric( int m ) const
{
int val;
switch ( m ) {
case QPaintDeviceMetrics::PdmWidth:
val = brect.width();
break;
case QPaintDeviceMetrics::PdmHeight:
val = brect.height();
break;
case QPaintDeviceMetrics::PdmWidthMM:
val = int(25.4/72.0*brect.width());
break;
case QPaintDeviceMetrics::PdmHeightMM:
val = int(25.4/72.0*brect.height());
break;
case QPaintDeviceMetrics::PdmDpiX:
val = 72;
break;
case QPaintDeviceMetrics::PdmDpiY:
val = 72;
break;
case QPaintDeviceMetrics::PdmNumColors:
val = 16777216;
break;
case QPaintDeviceMetrics::PdmDepth:
val = 24;
break;
default:
val = 0;
#if defined(QT_CHECK_RANGE)
qWarning( "QSvgDevice::metric: Invalid metric command" );
#endif
}
return val;
}
/*!
\internal
Records painter commands and stores them in the QDomDocument doc.
*/
bool QSvgDevice::cmd ( int c, QPainter *painter, QPDevCmdParam *p )
{
pt = painter;
if ( c == PdcBegin ) {
QDomImplementation domImpl;
QDomDocumentType docType = domImpl.createDocumentType( "svg",
publicId,
systemId );
doc = domImpl.createDocument( "http://www.w3.org/2000/svg",
"svg", docType );
doc.insertBefore( doc.createProcessingInstruction( "xml", piData ),
doc.firstChild() );
current = doc.documentElement();
d->images.clear();
d->pixmaps.clear();
dirtyTransform = dirtyStyle = FALSE; // ###
return TRUE;
} else if ( c == PdcEnd ) {
return TRUE;
}
QDomElement e;
QString str;
QRect rect;
QPointArray a;
int i, width, height, x, y;
switch ( c ) {
case PdcNOP:
break;
case PdcMoveTo:
curPt = *p[0].point;
break;
case PdcLineTo:
e = doc.createElement( "line" );
e.setAttribute( "x1", curPt.x() );
e.setAttribute( "y1", curPt.y() );
e.setAttribute( "x2", p[0].point->x() );
e.setAttribute( "y2", p[0].point->y() );
break;
case PdcDrawPoint:
case PdcDrawLine:
e = doc.createElement( "line" );
e.setAttribute( "x1", p[0].point->x() );
e.setAttribute( "y1", p[0].point->y() );
i = ( c == PdcDrawLine ) ? 1 : 0;
e.setAttribute( "x2", p[i].point->x() );
e.setAttribute( "y2", p[i].point->y() );
break;
case PdcDrawRect:
case PdcDrawRoundRect:
e = doc.createElement( "rect" );
x = p[0].rect->x();
y = p[0].rect->y();
width = p[0].rect->width();
height = p[0].rect->height();
if ( width < 0 ) {
width = -width;
x -= width - 1;
}
if ( height < 0 ) {
height = -height;
y -= height - 1;
}
e.setAttribute( "x", x );
e.setAttribute( "y", y );
e.setAttribute( "width", width );
e.setAttribute( "height", height );
if ( c == PdcDrawRoundRect ) {
e.setAttribute( "rx", (p[1].ival*p[0].rect->width())/200 );
e.setAttribute( "ry", (p[2].ival*p[0].rect->height())/200 );
}
break;
case PdcDrawEllipse:
rect = *p[0].rect;
if ( rect.width() == rect.height() ) {
e = doc.createElement( "circle" );
double cx = rect.x() + (rect.width() / 2.0);
double cy = rect.y() + (rect.height() / 2.0);
e.setAttribute( "cx", cx );
e.setAttribute( "cy", cy );
e.setAttribute( "r", cx - rect.x() );
} else {
e = doc.createElement( "ellipse" );
double cx = rect.x() + (rect.width() / 2.0);
double cy = rect.y() + (rect.height() / 2.0);
e.setAttribute( "cx", cx );
e.setAttribute( "cy", cy );
e.setAttribute( "rx", cx - rect.x() );
e.setAttribute( "ry", cy - rect.y() );
}
break;
case PdcDrawArc:
case PdcDrawPie:
case PdcDrawChord: {
rect = *p[0].rect;
double a = (double)p[1].ival / 16.0 * deg2rad;
double al = (double)p[2].ival / 16.0 * deg2rad;
double rx = rect.width() / 2.0;
double ry = rect.height() / 2.0;
double x0 = (double)rect.x() + rx;
double y0 = (double)rect.y() + ry;
double x1 = x0 + rx*cos(a);
double y1 = y0 - ry*sin(a);
double x2 = x0 + rx*cos(a+al);
double y2 = y0 - ry*sin(a+al);
int large = QABS( al ) > ( 180.0 * deg2rad ) ? 1 : 0;
int sweep = al < 0.0 ? 1 : 0;
if ( c == PdcDrawPie )
str = QString( "M %1 %2 L %3 %4 " ).arg( x0 ).arg( y0 )
.arg( x1 ).arg( y1 );
else
str = QString( "M %1 %2 " ).arg( x1 ).arg( y1 );
str += QString( "A %1 %2 %3 %4 %5 %6 %7" )
.arg( rx ).arg( ry ).arg( a/deg2rad ). arg( large ).arg( sweep )
.arg( x2 ).arg( y2 );
if ( c != PdcDrawArc )
str += "z";
e = doc.createElement( "path" );
e.setAttribute( "d", str );
}
break;
case PdcDrawLineSegments:
{
a = *p[0].ptarr;
uint end = a.size() / 2;
for (uint i = 0; i < end; i++) {
e = doc.createElement( "line" );
e.setAttribute( "x1", a[int(2*i)].x() );
e.setAttribute( "y1", a[int(2*i)].y() );
e.setAttribute( "x2", a[int(2*i+1)].x() );
e.setAttribute( "y2", a[int(2*i+1)].y() );
if ( i < end - 1 ) // The last one will be done at the end
appendChild( e, c );
}
}
break;
case PdcDrawPolyline:
case PdcDrawPolygon:
{
a = *p[0].ptarr;
e = doc.createElement( ( c == PdcDrawPolyline ) ?
"polyline" : "polygon" );
for (uint i = 0; i < a.size(); i++) {
QString tmp;
tmp.sprintf( "%d %d ", a[ (int)i ].x(), a[ (int)i ].y() );
str += tmp;
}
e.setAttribute( "points", str.stripWhiteSpace() );
}
break;
#ifndef QT_NO_BEZIER
case PdcDrawCubicBezier:
a = *p[0].ptarr;
e = doc.createElement( "path" );
str.sprintf( "M %d %d C %d %d %d %d %d %d", a[0].x(), a[0].y(),
a[1].x(), a[1].y(), a[2].x(), a[2].y(),
a[3].x(), a[3].y() );
e.setAttribute( "d", str );
break;
#endif
case PdcDrawText2:
e = doc.createElement( "text" );
if ( p[0].point->x() )
e.setAttribute( "x", p[0].point->x() );
if ( p[0].point->y() )
e.setAttribute( "y", p[0].point->y() );
e.appendChild( doc.createTextNode( *p[1].str ) );
break;
case PdcDrawText2Formatted: {
e = doc.createElement( "text" );
const QRect *r = p[0].rect;
int tf = p[1].ival;
int x, y;
// horizontal text alignment
if ( ( tf & Qt::AlignHCenter ) != 0 ) {
x = r->x() + r->width() / 2;
e.setAttribute( "text-anchor", "middle" );
} else if ( ( tf & Qt::AlignRight ) != 0 ) {
x = r->right();
e.setAttribute( "text-anchor", "end" );
} else {
x = r->x();
}
// vertical text alignment
if ( ( tf & Qt::AlignVCenter ) != 0 )
y = r->y() + ( r->height() + painter->fontMetrics().ascent() ) / 2;
else if ( ( tf & Qt::AlignBottom ) != 0 )
y = r->bottom();
else
y = r->y() + painter->fontMetrics().ascent();
if ( x )
e.setAttribute( "x", x );
if ( y )
e.setAttribute( "y", y );
e.appendChild( doc.createTextNode( *p[2].str ) );
}
break;
case PdcDrawPixmap:
case PdcDrawImage:
e = doc.createElement( "image" );
e.setAttribute( "x", p[0].rect->x() );
e.setAttribute( "y", p[0].rect->y() );
e.setAttribute( "width", p[0].rect->width() );
e.setAttribute( "height", p[0].rect->height() );
if ( c == PdcDrawImage ) {
ImgElement ie;
ie.element = e;
ie.image = *p[1].image;
d->images.append( ie );
} else {
PixElement pe;
pe.element = e;
pe.pixmap = *p[1].pixmap;
d->pixmaps.append( pe );
}
// saving to disk and setting the xlink:href attribute will be
// done later in save() once we now the svg document name.
break;
case PdcSave:
e = doc.createElement( "g" );
break;
case PdcRestore:
current = current.parentNode();
dirtyTransform = !pt->worldMatrix().isIdentity();
d->justRestored = TRUE;
// ### reset dirty flags
break;
case PdcSetBkColor:
case PdcSetBkMode:
case PdcSetROP:
case PdcSetBrushOrigin:
case PdcSetFont:
case PdcSetPen:
case PdcSetBrush:
dirtyStyle = TRUE;
break;
case PdcSetTabStops:
// ###
break;
case PdcSetTabArray:
// ###
break;
case PdcSetVXform:
case PdcSetWindow:
case PdcSetViewport:
case PdcSetWXform:
case PdcSetWMatrix:
case PdcSaveWMatrix:
case PdcRestoreWMatrix:
dirtyTransform = TRUE;
break;
case PdcSetClip:
// ###
break;
case PdcSetClipRegion:
{
// We skip the clip after restore, since restoring the clip is done automatically by
// the viewer as part of the tree structure. It doesn't hurt to write the region
// out, but it doubles the number of clipregions defined in the final svg.
if (d->justRestored) {
d->justRestored = FALSE;
return TRUE;
}
QMemArray<QRect> rects = p[0].rgn->rects();
if (rects.count() == 0)
return TRUE;
d->currentClip++;
e = doc.createElement( "clipPath" );
e.setAttribute( "id", QString("clip%1").arg(d->currentClip) );
for (int i=0; i<(int)rects.count(); ++i) {
QDomElement ce = doc.createElement("rect");
ce.setAttribute( "x", rects.at(i).x() );
ce.setAttribute( "y", rects.at(i).y() );
ce.setAttribute( "width", rects.at(i).width() );
ce.setAttribute( "height", rects.at(i).height() );
e.appendChild(ce);
}
break;
}
default:
#if defined(CHECK_RANGE)
qWarning( "QSVGDevice::cmd: Invalid command %d", c );
#endif
break;
}
appendChild( e, c );
return TRUE;
}
/*!
\internal
Appends the child and applys any style and transformation.
*/
void QSvgDevice::appendChild( QDomElement &e, int c )
{
if ( !e.isNull() ) {
current.appendChild( e );
if ( c == PdcSave )
current = e;
// ### optimize application of attributes utilizing <g>
if ( c == PdcSetClipRegion ) {
QDomElement ne;
ne = doc.createElement( "g" );
ne.setAttribute( "style", QString("clip-path:url(#clip%1)").arg(d->currentClip) );
current.appendChild( ne );
current = ne;
} else {
if ( dirtyStyle ) // only reset when entering
applyStyle( &e, c ); // or leaving a <g> tag
if ( dirtyTransform && e.tagName() != "g" ) {
// same as above but not for <g> tags
applyTransform( &e );
if ( c == PdcSave )
dirtyTransform = FALSE;
}
}
}
}
/*!
\internal
Push the current drawing attributes on a stack.
\sa restoreAttributes()
*/
void QSvgDevice::saveAttributes()
{
pt->save();
// copy old state
QSvgDeviceState st( *curr );
d->stack.append( st );
curr = &d->stack.last();
}
/*!
\internal
Pop the current drawing attributes off the stack.
\sa saveAttributes()
*/
void QSvgDevice::restoreAttributes()
{
pt->restore();
Q_ASSERT( d->stack.count() > 1 );
d->stack.remove( d->stack.fromLast() );
curr = &d->stack.last();
}
/*!
\internal
Evaluate \a node, drawing on \a p. Allows recursive calls.
*/
bool QSvgDevice::play( const QDomNode &node )
{
saveAttributes();
ElementType t = (*qSvgTypeMap)[ node.nodeName() ];
if ( t == LineElement && pt->pen().style() == Qt::NoPen ) {
QPen p = pt->pen();
p.setStyle( Qt::SolidLine );
pt->setPen( p );
}
QDomNamedNodeMap attr = node.attributes();
if ( attr.contains( "style" ) )
setStyle( attr.namedItem( "style" ).nodeValue() );
// ### might have to exclude more elements from transform
if ( t != SvgElement && attr.contains( "transform" ) )
setTransform( attr.namedItem( "transform" ).nodeValue() );
uint i = attr.length();
if ( i > 0 ) {
QPen pen = pt->pen();
QFont font = pt->font();
while ( i-- ) {
QDomNode n = attr.item( i );
QString a = n.nodeName();
QString val = n.nodeValue().lower().stripWhiteSpace();
setStyleProperty( a, val, &pen, &font, &curr->textalign );
}
pt->setPen( pen );
pt->setFont( font );
}
int x1, y1, x2, y2, rx, ry, w, h;
double cx1, cy1, crx, cry;
switch ( t ) {
case CommentElement:
// ignore
break;
case RectElement:
rx = ry = 0;
x1 = lenToInt( attr, "x" );
y1 = lenToInt( attr, "y" );
w = lenToInt( attr, "width" );
h = lenToInt( attr, "height" );
if ( w == 0 || h == 0 ) // prevent div by zero below
break;
x2 = (int)attr.contains( "rx" ); // tiny abuse of x2 and y2
y2 = (int)attr.contains( "ry" );
if ( x2 )
rx = lenToInt( attr, "rx" );
if ( y2 )
ry = lenToInt( attr, "ry" );
if ( x2 && !y2 )
ry = rx;
else if ( !x2 && y2 )
rx = ry;
rx = int(200.0*double(rx)/double(w));
ry = int(200.0*double(ry)/double(h));
pt->drawRoundRect( x1, y1, w, h, rx, ry );
break;
case CircleElement:
cx1 = lenToDouble( attr, "cx" ) + 0.5;
cy1 = lenToDouble( attr, "cy" ) + 0.5;
crx = lenToDouble( attr, "r" );
pt->drawEllipse( (int)(cx1-crx), (int)(cy1-crx), (int)(2*crx), (int)(2*crx) );
break;
case EllipseElement:
cx1 = lenToDouble( attr, "cx" ) + 0.5;
cy1 = lenToDouble( attr, "cy" ) + 0.5;
crx = lenToDouble( attr, "rx" );
cry = lenToDouble( attr, "ry" );
pt->drawEllipse( (int)(cx1-crx), (int)(cy1-cry), (int)(2*crx), (int)(2*cry) );
break;
case LineElement:
{
x1 = lenToInt( attr, "x1" );
x2 = lenToInt( attr, "x2" );
y1 = lenToInt( attr, "y1" );
y2 = lenToInt( attr, "y2" );
QPen p = pt->pen();
w = p.width();
p.setWidth( (unsigned int)(w * (QABS(pt->worldMatrix().m11()) + QABS(pt->worldMatrix().m22())) / 2) );
pt->setPen( p );
pt->drawLine( x1, y1, x2, y2 );
p.setWidth( w );
pt->setPen( p );
}
break;
case PolylineElement:
case PolygonElement:
{
QString pts = attr.namedItem( "points" ).nodeValue();
pts = pts.simplifyWhiteSpace();
QStringList sl = QStringList::split( QRegExp( QString::fromLatin1("[ ,]") ), pts );
QPointArray ptarr( (uint)sl.count() / 2);
for ( int i = 0; i < (int)sl.count() / 2; i++ ) {
double dx = sl[2*i].toDouble();
double dy = sl[2*i+1].toDouble();
ptarr.setPoint( i, int(dx), int(dy) );
}
if ( t == PolylineElement ) {
if ( pt->brush().style() != Qt::NoBrush ) {
QPen pn = pt->pen();
pt->setPen( Qt::NoPen );
pt->drawPolygon( ptarr );
pt->setPen( pn );
}
pt->drawPolyline( ptarr ); // ### closes when filled. bug ?
} else {
pt->drawPolygon( ptarr );
}
}
break;
case SvgElement:
case GroupElement:
case AnchorElement:
{
QDomNode child = node.firstChild();
while ( !child.isNull() ) {
play( child );
child = child.nextSibling();
}
}
break;
case PathElement:
drawPath( attr.namedItem( "d" ).nodeValue() );
break;
case TSpanElement:
case TextElement:
{
if ( attr.contains( "x" ) )
curr->textx = lenToInt( attr, "x" );
if ( attr.contains( "y" ) )
curr->texty = lenToInt( attr, "y" );
if ( t == TSpanElement ) {
curr->textx += lenToInt( attr, "dx" );
curr->texty += lenToInt( attr, "dy" );
}
// backup old colors
QPen pn = pt->pen();
QColor pcolor = pn.color();
QColor bcolor = pt->brush().color();
QDomNode c = node.firstChild();
while ( !c.isNull() ) {
if ( c.isText() ) {
// we have pen and brush reversed for text drawing
pn.setColor( bcolor );
pt->setPen( pn );
QString text = c.toText().nodeValue();
text = text.simplifyWhiteSpace(); // ### 'preserve'
w = pt->fontMetrics().width( text );
if ( curr->textalign == Qt::AlignHCenter )
curr->textx -= w / 2;
else if ( curr->textalign == Qt::AlignRight )
curr->textx -= w;
pt->drawText( curr->textx, curr->texty, text );
// restore pen
pn.setColor( pcolor );
pt->setPen( pn );
curr->textx += w;
} else if ( c.isElement() &&
c.toElement().tagName() == "tspan" ) {
play( c );
}
c = c.nextSibling();
}
if ( t == TSpanElement ) {
// move current text position in parent text element
StateList::Iterator it = --d->stack.fromLast();
(*it).textx = curr->textx;
(*it).texty = curr->texty;
}
}
break;
case ImageElement:
{
x1 = lenToInt( attr, "x" );
y1 = lenToInt( attr, "y" );
w = lenToInt( attr, "width" );
h = lenToInt( attr, "height" );
QString href = attr.namedItem( "xlink:href" ).nodeValue();
// ### catch references to embedded .svg files
QPixmap pix;
if ( !pix.load( href ) ) {
qWarning( "QSvgDevice::play: Couldn't load image %s", href.latin1() );
break;
}
pt->drawPixmap( QRect( x1, y1, w, h ), pix );
}
break;
case DescElement:
case TitleElement:
// ignored for now
break;
case ClipElement:
{
QDomNode child = node.firstChild();
QRegion region;
while (!child.isNull()) {
QDomNamedNodeMap childAttr = child.attributes();
if ( child.nodeName() == "rect" ) {
QRect r;
r.setX(lenToInt( childAttr, "x" ));
r.setY(lenToInt( childAttr, "y" ));
r.setWidth(lenToInt( childAttr, "width" ));
r.setHeight(lenToInt( childAttr, "height" ));
region |= r;
} else if ( child.nodeName() == "ellipse" ) {
QRect r;
int x = lenToInt( childAttr, "cx" );
int y = lenToInt( childAttr, "cy" );
int width = lenToInt( childAttr, "rx" );
int height = lenToInt( childAttr, "ry" );
r.setX( x - width );
r.setY( y - height );
r.setWidth( width * 2 );
r.setHeight( height * 2 );
QRegion rgn( r, QRegion::Ellipse );
region |= rgn;
}
child = child.nextSibling();
}
// Store the region in a named map so that it can be used when the
// group node is entered.
QString idString = attr.namedItem("id").nodeValue();
if (!idString.isEmpty())
d->clipPathTable[idString] = region;
break;
}
case InvalidElement:
qWarning( "QSvgDevice::play: unknown element type %s",
node.nodeName().latin1() );
break;
};
restoreAttributes();
return TRUE;
}
/*!
\internal
Parses a CSS2-compatible color specification. Either a keyword or
a numerical RGB specification like #ff00ff or rgb(255,0,50%).
*/
QColor QSvgDevice::parseColor( const QString &col )
{
static const struct ColorTable {
const char *name;
const char *rgb;
} coltab[] = {
{ "black", "#000000" },
{ "silver", "#c0c0c0" },
{ "gray", "#808080" },
{ "white", "#ffffff" },
{ "maroon", "#800000" },
{ "red", "#ff0000" },
{ "purple", "#800080" },
{ "fuchsia", "#ff00ff" },
{ "green", "#008000" },
{ "lime", "#00ff00" },
{ "olive", "#808000" },
{ "yellow", "#ffff00" },
{ "navy", "#000080" },
{ "blue", "#0000ff" },
{ "teal", "#008080" },
{ "aqua", "#00ffff" },
// ### the latest spec has more
{ 0, 0 }
};
// initialize color map on first use
if ( !qSvgColMap ) {
qSvgColMap = new QMap<QString, QString>;
const struct ColorTable *t = coltab;
while ( t->name ) {
qSvgColMap->insert( t->name, t->rgb );
t++;
}
}
// a keyword ?
if ( qSvgColMap->contains ( col ) )
return QColor( (*qSvgColMap)[ col ] );
// in rgb(r,g,b) form ?
QString c = col;
c.replace( QRegExp( QString::fromLatin1("\\s*") ), "" );
QRegExp reg( QString::fromLatin1("^rgb\\((\\d+)(%?),(\\d+)(%?),(\\d+)(%?)\\)$") );
if ( reg.search( c ) >= 0 ) {
int comp[3];
for ( int i = 0; i < 3; i++ ) {
comp[ i ] = reg.cap( 2*i+1 ).toInt();
if ( !reg.cap( 2*i+2 ).isEmpty() ) // percentage ?
comp[ i ] = int((double(255*comp[ i ])/100.0));
}
return QColor( comp[ 0 ], comp[ 1 ], comp[ 2 ] );
}
// check for predefined Qt color objects, #RRGGBB and #RGB
return QColor( col );
}
/*!
\internal
Parse a <length> datatype consisting of a number followed by an
optional unit specifier. Can be used for type <coordinate> as
well. For relative units the value of \a horiz will determine
whether the horizontal or vertical dimension will be used.
*/
double QSvgDevice::parseLen( const QString &str, bool *ok, bool horiz ) const
{
QRegExp reg( QString::fromLatin1("([+-]?\\d*\\.*\\d*[Ee]?[+-]?\\d*)(em|ex|px|%|pt|pc|cm|mm|in|)$") );
if ( reg.search( str ) == -1 ) {
qWarning( "QSvgDevice::parseLen: couldn't parse %s ", str.latin1() );
if ( ok )
*ok = FALSE;
return 0.0;
}
double dbl = reg.cap( 1 ).toDouble();
QString u = reg.cap( 2 );
if ( !u.isEmpty() && u != "px" ) {
QPaintDeviceMetrics m( pt->device() );
if ( u == "em" ) {
QFontInfo fi( pt->font() );
dbl *= fi.pixelSize();
} else if ( u == "ex" ) {
QFontInfo fi( pt->font() );
dbl *= 0.5 * fi.pixelSize();
} else if ( u == "%" )
dbl *= (horiz ? pt->window().width() : pt->window().height())/100.0;
else if ( u == "cm" )
dbl *= m.logicalDpiX() / 2.54;
else if ( u == "mm" )
dbl *= m.logicalDpiX() / 25.4;
else if ( u == "in" )
dbl *= m.logicalDpiX();
else if ( u == "pt" )
dbl *= m.logicalDpiX() / 72.0;
else if ( u == "pc" )
dbl *= m.logicalDpiX() / 6.0;
else
qWarning( "QSvgDevice::parseLen: Unknown unit %s", u.latin1() );
}
if ( ok )
*ok = TRUE;
return dbl;
}
/*!
\internal
Returns the length specified in attribute \a attr in \a map. If
the specified attribute doesn't exist or can't be parsed \a def is
returned.
*/
int QSvgDevice::lenToInt( const QDomNamedNodeMap &map, const QString &attr,
int def ) const
{
if ( map.contains( attr ) ) {
bool ok;
double dbl = parseLen( map.namedItem( attr ).nodeValue(), &ok );
if ( ok )
return qRound( dbl );
}
return def;
}
double QSvgDevice::lenToDouble( const QDomNamedNodeMap &map, const QString &attr,
int def ) const
{
if ( map.contains( attr ) ) {
bool ok;
double d = parseLen( map.namedItem( attr ).nodeValue(), &ok );
if ( ok )
return d;
}
return def;
}
void QSvgDevice::setStyleProperty( const QString &prop, const QString &val,
QPen *pen, QFont *font, int *talign )
{
if ( prop == "stroke" ) {
if ( val == "none" ) {
pen->setStyle( Qt::NoPen );
} else {
pen->setColor( parseColor( val ));
if ( pen->style() == Qt::NoPen )
pen->setStyle( Qt::SolidLine );
if ( pen->width() == 0 )
pen->setWidth( 1 );
}
} else if ( prop == "stroke-width" ) {
double w = parseLen( val );
if ( w > 0.0001 )
pen->setWidth( int(w) );
else
pen->setStyle( Qt::NoPen );
} else if ( prop == "stroke-linecap" ) {
if ( val == "butt" )
pen->setCapStyle( Qt::FlatCap );
else if ( val == "round" )
pen->setCapStyle( Qt::RoundCap );
else if ( val == "square" )
pen->setCapStyle( Qt::SquareCap );
} else if ( prop == "stroke-linejoin" ) {
if ( val == "miter" )
pen->setJoinStyle( Qt::MiterJoin );
else if ( val == "round" )
pen->setJoinStyle( Qt::RoundJoin );
else if ( val == "bevel" )
pen->setJoinStyle( Qt::BevelJoin );
} else if ( prop == "stroke-dasharray" ) {
if ( val == "18,6" )
pen->setStyle( Qt::DashLine );
else if ( val == "3" )
pen->setStyle( Qt::DotLine );
else if ( val == "9,6,3,6" )
pen->setStyle( Qt::DashDotLine );
else if ( val == "9,3,3" )
pen->setStyle( Qt::DashDotDotLine );
else
pen->setStyle( Qt::DotLine );
} else if ( prop == "fill" ) {
if ( val == "none" )
pt->setBrush( Qt::NoBrush );
else
pt->setBrush( parseColor( val ) );
} else if ( prop == "font-size" ) {
font->setPointSizeFloat( float(parseLen( val )) );
} else if ( prop == "font-family" ) {
font->setFamily( val );
} else if ( prop == "font-style" ) {
if ( val == "normal" )
font->setItalic( FALSE );
else if ( val == "italic" )
font->setItalic( TRUE );
else
qWarning( "QSvgDevice::setStyleProperty: unhandled "
"font-style: %s", val.latin1() );
} else if ( prop == "font-weight" ) {
int w = font->weight();
// no exact equivalents so we have to "round" a little bit
if ( val == "100" || val == "200" )
w = QFont::Light;
if ( val == "300" || val == "400" || val == "normal" )
w = QFont::Normal;
else if ( val == "500" || val == "600" )
w = QFont::DemiBold;
else if ( val == "700" || val == "bold" || val == "800" )
w = QFont::Bold;
else if ( val == "900" )
w = QFont::Black;
font->setWeight( w );
} else if ( prop == "text-anchor" ) {
if ( val == "middle" )
*talign = Qt::AlignHCenter;
else if ( val == "end" )
*talign = Qt::AlignRight;
else
*talign = Qt::AlignLeft;
} else if ( prop == "clip-path" ) {
if (val.startsWith("url(#")) {
QString clipName = val.mid(5, val.length() - 6);
if (!clipName.isEmpty()) {
QRegion clipRegion = d->clipPathTable[clipName];
if (!clipRegion.isEmpty())
pt->setClipRegion(pt->clipRegion() & clipRegion, QPainter::CoordPainter);
}
}
}
}
void QSvgDevice::setStyle( const QString &s )
{
QStringList rules = QStringList::split( QChar(';'), s );
QPen pen = pt->pen();
QFont font = pt->font();
QStringList::ConstIterator it = rules.begin();
for ( ; it != rules.end(); it++ ) {
int col = (*it).find( ':' );
if ( col > 0 ) {
QString prop = (*it).left( col ).simplifyWhiteSpace();
QString val = (*it).right( (*it).length() - col - 1 );
val = val.lower().stripWhiteSpace();
setStyleProperty( prop, val, &pen, &font, &curr->textalign );
}
}
pt->setPen( pen );
pt->setFont( font );
}
void QSvgDevice::setTransform( const QString &tr )
{
QString t = tr.simplifyWhiteSpace();
QRegExp reg( QString::fromLatin1("\\s*([\\w]+)\\s*\\(([^\\(]*)\\)") );
int index = 0;
while ( (index = reg.search(t, index)) >= 0 ) {
QString command = reg.cap( 1 );
QString params = reg.cap( 2 );
QStringList plist = QStringList::split( QRegExp(QString::fromLatin1("[,\\s]")), params );
if ( command == "translate" ) {
double tx = 0, ty = 0;
tx = plist[0].toDouble();
if ( plist.count() >= 2 )
ty = plist[1].toDouble();
pt->translate( tx, ty );
} else if ( command == "rotate" ) {
pt->rotate( plist[0].toDouble() );
} else if ( command == "scale" ) {
double sx, sy;
sx = sy = plist[0].toDouble();
if ( plist.count() >= 2 )
sy = plist[1].toDouble();
pt->scale( sx, sy );
} else if ( command == "matrix" && plist.count() >= 6 ) {
double m[ 6 ];
for (int i = 0; i < 6; i++)
m[ i ] = plist[ i ].toDouble();
QWMatrix wm( m[ 0 ], m[ 1 ], m[ 2 ],
m[ 3 ], m[ 4 ], m[ 5 ] );
pt->setWorldMatrix( wm, TRUE );
} else if ( command == "skewX" ) {
pt->shear( 0.0, tan( plist[0].toDouble() * deg2rad ) );
} else if ( command == "skewY" ) {
pt->shear( tan( plist[0].toDouble() * deg2rad ), 0.0 );
}
// move on to next command
index += reg.matchedLength();
}
}
void QSvgDevice::drawPath( const QString &data )
{
double x0 = 0, y0 = 0; // starting point
double x = 0, y = 0; // current point
double controlX = 0, controlY = 0; // last control point for curves
QPointArray path( 500 ); // resulting path
QValueList<int> subIndex; // start indices for subpaths
QPointArray quad( 4 ), bezier; // for curve calculations
int pcount = 0; // current point array index
uint idx = 0; // current data position
int mode = 0, lastMode = 0; // parser state
bool relative = FALSE; // e.g. 'h' vs. 'H'
QString commands( "MZLHVCSQTA" ); // recognized commands
int cmdArgs[] = { 2, 0, 2, 1, 1, 6, 4, 4, 2, 7 }; // no of arguments
QRegExp reg( QString::fromLatin1("\\s*,?\\s*([+-]?\\d*\\.?\\d*)") ); // floating point
subIndex.append( 0 );
// detect next command
while ( idx < data.length() ) {
QChar ch = data[ (int)idx++ ];
if ( ch.isSpace() )
continue;
QChar chUp = ch.upper();
int cmd = commands.find( chUp );
if ( cmd >= 0 ) {
// switch to new command mode
mode = cmd;
relative = ( ch != chUp ); // e.g. 'm' instead of 'M'
} else {
if ( mode && !ch.isLetter() ) {
cmd = mode; // continue in previous mode
idx--;
} else {
qWarning( "QSvgDevice::drawPath: Unknown command" );
return;
}
}
// read in the required number of arguments
const int maxArgs = 7;
double arg[ maxArgs ];
int numArgs = cmdArgs[ cmd ];
for ( int i = 0; i < numArgs; i++ ) {
int pos = reg.search( data, idx );
if ( pos == -1 ) {
qWarning( "QSvgDevice::drawPath: Error parsing arguments" );
return;
}
arg[ i ] = reg.cap( 1 ).toDouble();
idx = pos + reg.matchedLength();
};
// process command
double offsetX = relative ? x : 0; // correction offsets
double offsetY = relative ? y : 0; // for relative commands
switch ( mode ) {
case 0: // 'M' move to
if ( x != x0 || y != y0 )
path.setPoint( pcount++, int(x0), int(y0) );
x = x0 = arg[ 0 ] + offsetX;
y = y0 = arg[ 1 ] + offsetY;
subIndex.append( pcount );
path.setPoint( pcount++, int(x0), int(y0) );
mode = 2; // -> 'L'
break;
case 1: // 'Z' close path
path.setPoint( pcount++, int(x0), int(y0) );
x = x0;
y = y0;
mode = 0;
break;
case 2: // 'L' line to
x = arg[ 0 ] + offsetX;
y = arg[ 1 ] + offsetY;
path.setPoint( pcount++, int(x), int(y) );
break;
case 3: // 'H' horizontal line
x = arg[ 0 ] + offsetX;
path.setPoint( pcount++, int(x), int(y) );
break;
case 4: // 'V' vertical line
y = arg[ 0 ] + offsetY;
path.setPoint( pcount++, int(x), int(y) );
break;
#ifndef QT_NO_BEZIER
case 5: // 'C' cubic bezier curveto
case 6: // 'S' smooth shorthand
case 7: // 'Q' quadratic bezier curves
case 8: { // 'T' smooth shorthand
quad.setPoint( 0, int(x), int(y) );
// if possible, reflect last control point if smooth shorthand
if ( mode == 6 || mode == 8 ) { // smooth 'S' and 'T'
bool cont = mode == lastMode ||
mode == 6 && lastMode == 5 || // 'S' and 'C'
mode == 8 && lastMode == 7; // 'T' and 'Q'
x = cont ? 2*x-controlX : x;
y = cont ? 2*y-controlY : y;
quad.setPoint( 1, int(x), int(y) );
quad.setPoint( 2, int(x), int(y) );
}
for ( int j = 0; j < numArgs/2; j++ ) {
x = arg[ 2*j ] + offsetX;
y = arg[ 2*j+1 ] + offsetY;
quad.setPoint( j+4-numArgs/2, int(x), int(y) );
}
// remember last control point for next shorthand
controlX = quad[ 2 ].x();
controlY = quad[ 2 ].y();
// transform quadratic into cubic Bezier
if ( mode == 7 || mode == 8 ) { // cubic 'Q' and 'T'
int x31 = quad[0].x()+int(2.0*(quad[2].x()-quad[0].x())/3.0);
int y31 = quad[0].y()+int(2.0*(quad[2].y()-quad[0].y())/3.0);
int x32 = quad[2].x()+int(2.0*(quad[3].x()-quad[2].x())/3.0);
int y32 = quad[2].y()+int(2.0*(quad[3].y()-quad[2].y())/3.0);
quad.setPoint( 1, x31, y31 );
quad.setPoint( 2, x32, y32 );
}
// calculate points on curve
bezier = quad.cubicBezier();
// reserve more space if needed
if ( bezier.size() > path.size() - pcount )
path.resize( path.size() - pcount + bezier.size() );
// copy
for ( int k = 0; k < (int)bezier.size(); k ++ )
path.setPoint( pcount++, bezier[ k ] );
break;
}
#endif // QT_NO_BEZIER
case 9: // 'A' elliptical arc curve
// ### just a straight line
x = arg[ 5 ] + offsetX;
y = arg[ 6 ] + offsetY;
path.setPoint( pcount++, int(x), int(y) );
break;
};
lastMode = mode;
// array almost full ? expand for next loop
if ( pcount >= (int)path.size() - 4 )
path.resize( 2 * path.size() );
}
subIndex.append( pcount ); // dummy marking the end
if ( pt->brush().style() != Qt::NoBrush ) {
// fill the area without stroke first
if ( x != x0 || y != y0 )
path.setPoint( pcount++, int(x0), int(y0) );
QPen pen = pt->pen();
pt->setPen( Qt::NoPen );
pt->drawPolygon( path, FALSE, 0, pcount );
pt->setPen( pen );
}
// draw each subpath stroke seperately
QValueListConstIterator<int> it = subIndex.begin();
int start = 0;
while ( it != subIndex.fromLast() ) {
int next = *++it;
// ### always joins ends if first and last point coincide.
// ### 'Z' can't have the desired effect
pt->drawPolyline( path, start, next-start );
start = next;
}
}
void QSvgDevice::applyStyle( QDomElement *e, int c ) const
{
// ### do not write every attribute each time
QColor pcol = pt->pen().color();
QColor bcol = pt->brush().color();
QString s;
if ( c == PdcDrawText2 || c == PdcDrawText2Formatted ) {
// QPainter has a reversed understanding of pen/stroke vs.
// brush/fill for text
s += QString( "fill:rgb(%1,%2,%3);" )
.arg( pcol.red() ).arg( pcol.green() ).arg( pcol.blue() );
s += QString( "stroke-width:0;" );
QFont f = pt->font();
QFontInfo fi( f );
s += QString( "font-size:%1;" ).arg( fi.pointSize() );
s += QString( "font-style:%1;" )
.arg( f.italic() ? "italic" : "normal" );
// not a very scientific distribution
QString fw;
if ( f.weight() <= QFont::Light )
fw = "100";
else if ( f.weight() <= QFont::Normal )
fw = "400";
else if ( f.weight() <= QFont::DemiBold )
fw = "600";
else if ( f.weight() <= QFont::Bold )
fw = "700";
else if ( f.weight() <= QFont::Black )
fw = "800";
else
fw = "900";
s += QString( "font-weight:%1;" ).arg( fw );
s += QString( "font-family:%1;" ).arg( f.family() );
} else {
s += QString( "stroke:rgb(%1,%2,%3);" )
.arg( pcol.red() ).arg( pcol.green() ).arg( pcol.blue() );
double pw = pt->pen().width();
if ( pw == 0 && pt->pen().style() != Qt::NoPen )
pw = 0.9;
if ( c == PdcDrawLine )
pw /= (QABS(pt->worldMatrix().m11()) + QABS(pt->worldMatrix().m22())) / 2.0;
s += QString( "stroke-width:%1;" ).arg( pw );
if ( pt->pen().style() == Qt::DashLine )
s+= QString( "stroke-dasharray:18,6;" );
else if ( pt->pen().style() == Qt::DotLine )
s+= QString( "stroke-dasharray:3;" );
else if ( pt->pen().style() == Qt::DashDotLine )
s+= QString( "stroke-dasharray:9,6,3,6;" );
else if ( pt->pen().style() == Qt::DashDotDotLine )
s+= QString( "stroke-dasharray:9,3,3;" );
if ( pt->brush().style() == Qt::NoBrush || c == PdcDrawPolyline ||
c == PdcDrawCubicBezier )
s += "fill:none;"; // Qt polylines use no brush, neither do Beziers
else
s += QString( "fill:rgb(%1,%2,%3);" )
.arg( bcol.red() ).arg( bcol.green() ).arg( bcol.blue() );
}
e->setAttribute( "style", s );
}
void QSvgDevice::applyTransform( QDomElement *e ) const
{
QWMatrix m = pt->worldMatrix();
QString s;
bool rot = ( m.m11() != 1.0 || m.m12() != 0.0 ||
m.m21() != 0.0 || m.m22() != 1.0 );
if ( !rot && ( m.dx() != 0.0 || m.dy() != 0.0 ) )
s = QString( "translate(%1,%2)" ).arg( m.dx() ).arg( m.dy() );
else if ( rot ) {
if ( m.m12() == 0.0 && m.m21() == 0.0 &&
m.dx() == 0.0 && m.dy() == 0.0 )
s = QString( "scale(%1,%2)" ).arg( m.m11() ).arg( m.m22() );
else
s = QString( "matrix(%1,%2,%3,%4,%5,%6)" )
.arg( m.m11() ).arg( m.m12() )
.arg( m.m21() ).arg( m.m22() )
.arg( m.dx() ).arg( m.dy() );
}
else
return;
e->setAttribute( "transform", s );
}
#endif // QT_NO_SVG