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776 lines
18 KiB
776 lines
18 KiB
/* This file is part of the KDE project
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Copyright (C) 2001, 2002, 2003 The Karbon Developers
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public License
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along with this library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#include <tqdom.h>
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#include <tqpainter.h>
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#include <tqwmatrix.h>
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#include <tqregexp.h>
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#include <KoPoint.h>
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#include <KoRect.h>
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#include <KoUnit.h>
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#include <KoStore.h>
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#include <KoXmlWriter.h>
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#include <KoXmlNS.h>
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#include <KoGenStyles.h>
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#include "vcomposite.h"
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#include "vcomposite_iface.h"
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#include "vfill.h"
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#include "vpainter.h"
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#include "vsegment.h"
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#include "vstroke.h"
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#include "vvisitor.h"
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#include "vpath.h"
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#include "commands/vtransformcmd.h"
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#include "vdocument.h"
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#include <kdebug.h>
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VPath::VPath( VObject* parent, VState state )
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: VObject( parent, state ), m_fillRule( winding )
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{
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m_paths.setAutoDelete( true );
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// add an initial path:
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m_paths.append( new VSubpath( this ) );
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// we need a stroke for boundingBox() at anytime:
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m_stroke = new VStroke( this );
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m_fill = new VFill();
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m_drawCenterNode = false;
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}
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VPath::VPath( const VPath& composite )
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: VObject( composite ), SVGPathParser()
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{
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m_paths.setAutoDelete( true );
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VSubpath* path;
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VSubpathListIterator itr( composite.m_paths );
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for( itr.toFirst(); itr.current(); ++itr )
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{
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path = itr.current()->clone();
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path->setParent( this );
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m_paths.append( path );
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}
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if ( composite.stroke() )
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setStroke( *composite.stroke() );
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if ( composite.fill() )
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setFill( *composite.fill() );
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m_drawCenterNode = false;
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m_fillRule = composite.m_fillRule;
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m_matrix = composite.m_matrix;
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}
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VPath::~VPath()
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{
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}
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DCOPObject* VPath::dcopObject()
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{
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if ( !m_dcop )
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m_dcop = new VPathIface( this );
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return m_dcop;
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}
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void
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VPath::draw( VPainter* painter, const KoRect *rect ) const
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{
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if(
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state() == deleted ||
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state() == hidden ||
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state() == hidden_locked )
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{
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return;
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}
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if( rect && !rect->intersects( boundingBox() ) )
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return;
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painter->save();
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VSubpathListIterator itr( m_paths );
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// draw simplistic contour:
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if( state() == edit )
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{
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for( itr.toFirst(); itr.current(); ++itr )
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{
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if( !itr.current()->isEmpty() )
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{
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painter->newPath();
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painter->setRasterOp( TQt::XorROP );
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painter->setPen( TQt::yellow );
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painter->setBrush( TQt::NoBrush );
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VSubpathIterator jtr( *( itr.current() ) );
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for( ; jtr.current(); ++jtr )
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{
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jtr.current()->draw( painter );
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}
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painter->strokePath();
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}
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}
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}
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else if( state() != edit )
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{
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// paint fill:
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painter->newPath();
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painter->setFillRule( m_fillRule );
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for( itr.toFirst(); itr.current(); ++itr )
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{
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if( !itr.current()->isEmpty() )
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{
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VSubpathIterator jtr( *( itr.current() ) );
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for( ; jtr.current(); ++jtr )
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{
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jtr.current()->draw( painter );
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}
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}
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}
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painter->setRasterOp( TQt::CopyROP );
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painter->setPen( TQt::NoPen );
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painter->setBrush( *fill() );
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painter->fillPath();
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// draw stroke:
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painter->setPen( *stroke() );
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painter->setBrush( TQt::NoBrush );
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painter->strokePath();
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}
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painter->restore();
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}
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const KoPoint&
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VPath::currentPoint() const
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{
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return m_paths.getLast()->currentPoint();
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}
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bool
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VPath::moveTo( const KoPoint& p )
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{
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// Append a new subpath if current subpath is not empty.
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if( !m_paths.getLast()->isEmpty() )
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{
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VSubpath* path = new VSubpath( this );
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m_paths.append( path );
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}
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return m_paths.getLast()->moveTo( p );
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}
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bool
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VPath::lineTo( const KoPoint& p )
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{
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return m_paths.getLast()->lineTo( p );
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}
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bool
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VPath::curveTo(
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const KoPoint& p1, const KoPoint& p2, const KoPoint& p3 )
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{
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return m_paths.getLast()->curveTo( p1, p2, p3 );
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}
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bool
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VPath::curve1To( const KoPoint& p2, const KoPoint& p3 )
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{
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return m_paths.getLast()->curve1To( p2, p3 );
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}
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bool
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VPath::curve2To( const KoPoint& p1, const KoPoint& p3 )
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{
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return m_paths.getLast()->curve2To( p1, p3 );
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}
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bool
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VPath::arcTo( const KoPoint& p1, const KoPoint& p2, const double r )
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{
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return m_paths.getLast()->arcTo( p1, p2, r );
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}
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void
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VPath::close()
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{
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m_paths.getLast()->close();
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// Append a new subpath.
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VSubpath* path = new VSubpath( this );
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path->moveTo( currentPoint() );
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m_paths.append( path );
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}
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bool
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VPath::isClosed() const
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{
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return m_paths.getLast()->isEmpty() || m_paths.getLast()->isClosed();
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}
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void
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VPath::combine( const VPath& composite )
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{
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VSubpathListIterator itr( composite.m_paths );
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for( ; itr.current(); ++itr )
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{
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combinePath( *( itr.current() ) );
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}
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}
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void
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VPath::combinePath( const VSubpath& path )
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{
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VSubpath* p = path.clone();
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p->setParent( this );
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// TODO: do complex inside tests instead:
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// Make new segments clock wise oriented:
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m_paths.append( p );
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m_fillRule = fillMode();
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}
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bool
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VPath::pointIsInside( const KoPoint& p ) const
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{
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// Check if point is inside boundingbox.
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if( !boundingBox().contains( p ) )
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return false;
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VSubpathListIterator itr( m_paths );
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for( itr.toFirst(); itr.current(); ++itr )
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{
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if( itr.current()->pointIsInside( p ) )
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return true;
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}
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return false;
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}
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bool
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VPath::intersects( const VSegment& segment ) const
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{
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// Check if boundingboxes intersect.
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if( !boundingBox().intersects( segment.boundingBox() ) )
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return false;
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VSubpathListIterator itr( m_paths );
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for( itr.toFirst(); itr.current(); ++itr )
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{
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if( itr.current()->intersects( segment ) )
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return true;
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}
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return false;
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}
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VFillRule
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VPath::fillMode() const
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{
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return ( m_paths.count() > 1 ) ? evenOdd : winding;
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}
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const KoRect&
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VPath::boundingBox() const
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{
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if( m_boundingBoxIsInvalid )
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{
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VSubpathListIterator itr( m_paths );
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itr.toFirst();
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m_boundingBox = itr.current() ? itr.current()->boundingBox() : KoRect();
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for( ++itr; itr.current(); ++itr )
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m_boundingBox |= itr.current()->boundingBox();
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if( !m_boundingBox.isNull() )
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{
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// take line width into account:
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m_boundingBox.setCoords(
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m_boundingBox.left() - 0.5 * stroke()->lineWidth(),
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m_boundingBox.top() - 0.5 * stroke()->lineWidth(),
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m_boundingBox.right() + 0.5 * stroke()->lineWidth(),
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m_boundingBox.bottom() + 0.5 * stroke()->lineWidth() );
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}
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m_boundingBoxIsInvalid = false;
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}
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return m_boundingBox;
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}
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VPath*
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VPath::clone() const
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{
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return new VPath( *this );
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}
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void
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VPath::save( TQDomElement& element ) const
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{
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if( state() != deleted )
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{
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TQDomElement me = element.ownerDocument().createElement( "PATH" );
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element.appendChild( me );
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VObject::save( me );
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TQString d;
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saveSvgPath( d );
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me.setAttribute( "d", d );
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//writeTransform( me );
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// save fill rule if necessary:
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if( !( m_fillRule == evenOdd ) )
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me.setAttribute( "fillRule", m_fillRule );
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}
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}
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void
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VPath::saveOasis( KoStore *store, KoXmlWriter *docWriter, KoGenStyles &mainStyles, int &index ) const
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{
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if( state() != deleted )
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{
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docWriter->startElement( "draw:path" );
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TQString d;
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saveSvgPath( d );
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docWriter->addAttribute( "svg:d", d );
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double x = boundingBox().x();
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double y = boundingBox().y();
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double w = boundingBox().width();
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double h = boundingBox().height();
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docWriter->addAttribute( "svg:viewBox", TQString( "%1 %2 %3 %4" ).tqarg( x ).tqarg( y ).tqarg( w ).tqarg( h ) );
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docWriter->addAttributePt( "svg:x", x );
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docWriter->addAttributePt( "svg:y", y );
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docWriter->addAttributePt( "svg:width", w );
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docWriter->addAttributePt( "svg:height", h );
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VObject::saveOasis( store, docWriter, mainStyles, index );
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TQWMatrix tmpMat;
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tmpMat.scale( 1, -1 );
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tmpMat.translate( 0, -document()->height() );
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TQString transform = buildOasisTransform( tmpMat );
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if( !transform.isEmpty() )
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docWriter->addAttribute( "draw:transform", transform );
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docWriter->endElement();
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}
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}
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void
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VPath::saveOasisFill( KoGenStyles &mainStyles, KoGenStyle &stylesobjectauto ) const
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{
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if( m_fill )
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{
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TQWMatrix mat;
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mat.scale( 1, -1 );
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mat.translate( 0, -document()->height() );
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// mirror fill before saving
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VFill fill( *m_fill );
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fill.transform( mat );
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fill.saveOasis( mainStyles, stylesobjectauto );
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// save fill rule if necessary:
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if( !( m_fillRule == evenOdd ) )
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stylesobjectauto.addProperty( "svg:fill-rule", "winding" );
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}
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}
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void
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VPath::transformByViewbox( const TQDomElement &element, TQString viewbox )
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{
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if( ! viewbox.isEmpty() )
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{
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// allow for viewbox def with ',' or whitespace
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TQStringList points = TQStringList::split( ' ', viewbox.replace( ',', ' ' ).simplifyWhiteSpace() );
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double w = KoUnit::parseValue( element.attributeNS( KoXmlNS::svg, "width", TQString() ) );
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double h = KoUnit::parseValue( element.attributeNS( KoXmlNS::svg, "height", TQString() ) );
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double x = KoUnit::parseValue( element.attributeNS( KoXmlNS::svg, "x", TQString() ) );
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double y = KoUnit::parseValue( element.attributeNS( KoXmlNS::svg, "y", TQString() ) );
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TQWMatrix mat;
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mat.translate( x-KoUnit::parseValue( points[0] ), y-KoUnit::parseValue( points[1] ) );
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mat.scale( w / KoUnit::parseValue( points[2] ) , h / KoUnit::parseValue( points[3] ) );
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VTransformCmd cmd( 0L, mat );
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cmd.visitVPath( *this );
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}
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}
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bool
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VPath::loadOasis( const TQDomElement &element, KoOasisLoadingContext &context )
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{
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setState( normal );
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TQString viewbox;
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if( element.localName() == "path" )
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{
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TQString data = element.attributeNS( KoXmlNS::svg, "d", TQString() );
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if( data.length() > 0 )
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{
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loadSvgPath( data );
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}
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m_fillRule = element.attributeNS( KoXmlNS::svg, "fill-rule", TQString() ) == "winding" ? winding : evenOdd;
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viewbox = element.attributeNS( KoXmlNS::svg, "viewBox", TQString() );
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}
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else if( element.localName() == "custom-tqshape" )
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{
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TQDomNodeList list = element.childNodes();
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for( uint i = 0; i < list.count(); ++i )
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{
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if( list.item( i ).isElement() )
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{
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TQDomElement e = list.item( i ).toElement();
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if( e.namespaceURI() != KoXmlNS::draw )
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continue;
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if( e.localName() == "enhanced-tqgeometry" )
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{
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TQString data = e.attributeNS( KoXmlNS::draw, "enhanced-path", TQString() );
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if( ! data.isEmpty() )
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loadSvgPath( data );
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viewbox = e.attributeNS( KoXmlNS::svg, "viewBox", TQString() );
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}
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}
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}
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}
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transformByViewbox( element, viewbox );
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TQString trafo = element.attributeNS( KoXmlNS::draw, "transform", TQString() );
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if( !trafo.isEmpty() )
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transformOasis( trafo );
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return VObject::loadOasis( element, context );
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}
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void
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VPath::load( const TQDomElement& element )
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{
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setState( normal );
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VObject::load( element );
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TQString data = element.attribute( "d" );
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if( data.length() > 0 )
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{
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loadSvgPath( data );
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}
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m_fillRule = element.attribute( "fillRule" ) == 0 ? evenOdd : winding;
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TQDomNodeList list = element.childNodes();
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for( uint i = 0; i < list.count(); ++i )
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{
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if( list.item( i ).isElement() )
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{
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TQDomElement child = list.item( i ).toElement();
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if( child.tagName() == "PATH" )
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{
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VSubpath path( this );
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path.load( child );
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combinePath( path );
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}
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else
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{
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VObject::load( child );
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}
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}
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}
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TQString trafo = element.attribute( "transform" );
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if( !trafo.isEmpty() )
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transform( trafo );
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}
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void
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VPath::loadSvgPath( const TQString &d )
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{
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//TQTime s;s.start();
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parseSVG( d, true );
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//kdDebug(38000) << "Parsing time : " << s.elapsed() << endl;
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}
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void
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VPath::saveSvgPath( TQString &d ) const
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{
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// save paths to svg:
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VSubpathListIterator itr( m_paths );
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for( itr.toFirst(); itr.current(); ++itr )
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{
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if( !itr.current()->isEmpty() )
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itr.current()->saveSvgPath( d );
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}
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}
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void
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VPath::svgMoveTo( double x1, double y1, bool )
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{
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moveTo( KoPoint( x1, y1 ) );
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}
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void
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VPath::svgLineTo( double x1, double y1, bool )
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{
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lineTo( KoPoint( x1, y1 ) );
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}
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void
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VPath::svgCurveToCubic( double x1, double y1, double x2, double y2, double x, double y, bool )
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{
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curveTo( KoPoint( x1, y1 ), KoPoint( x2, y2 ), KoPoint( x, y ) );
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}
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void
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VPath::svgClosePath()
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{
|
|
close();
|
|
}
|
|
|
|
void
|
|
VPath::accept( VVisitor& visitor )
|
|
{
|
|
visitor.visitVPath( *this );
|
|
}
|
|
|
|
void
|
|
VPath::transform( const TQString &transform )
|
|
{
|
|
VTransformCmd cmd( 0L, parseTransform( transform ) );
|
|
cmd.visitVPath( *this );
|
|
}
|
|
|
|
void
|
|
VPath::transformOasis( const TQString &transform )
|
|
{
|
|
VTransformCmd cmd( 0L, parseOasisTransform( transform ) );
|
|
cmd.visitVPath( *this );
|
|
}
|
|
|
|
TQWMatrix
|
|
VPath::parseTransform( const TQString &transform )
|
|
{
|
|
TQWMatrix result;
|
|
|
|
// Split string for handling 1 transform statement at a time
|
|
TQStringList subtransforms = TQStringList::split(')', transform);
|
|
TQStringList::ConstIterator it = subtransforms.begin();
|
|
TQStringList::ConstIterator end = subtransforms.end();
|
|
for(; it != end; ++it)
|
|
{
|
|
TQStringList subtransform = TQStringList::split('(', (*it));
|
|
|
|
subtransform[0] = subtransform[0].stripWhiteSpace().lower();
|
|
subtransform[1] = subtransform[1].simplifyWhiteSpace();
|
|
TQRegExp reg("[,( ]");
|
|
TQStringList params = TQStringList::split(reg, subtransform[1]);
|
|
|
|
if(subtransform[0].startsWith(";") || subtransform[0].startsWith(","))
|
|
subtransform[0] = subtransform[0].right(subtransform[0].length() - 1);
|
|
|
|
if(subtransform[0] == "rotate")
|
|
{
|
|
if(params.count() == 3)
|
|
{
|
|
double x = params[1].toDouble();
|
|
double y = params[2].toDouble();
|
|
|
|
result.translate(x, y);
|
|
result.rotate(params[0].toDouble());
|
|
result.translate(-x, -y);
|
|
}
|
|
else
|
|
result.rotate(params[0].toDouble());
|
|
}
|
|
else if(subtransform[0] == "translate")
|
|
{
|
|
if(params.count() == 2)
|
|
result.translate(params[0].toDouble(), params[1].toDouble());
|
|
else // Spec : if only one param given, assume 2nd param to be 0
|
|
result.translate(params[0].toDouble() , 0);
|
|
}
|
|
else if(subtransform[0] == "scale")
|
|
{
|
|
if(params.count() == 2)
|
|
result.scale(params[0].toDouble(), params[1].toDouble());
|
|
else // Spec : if only one param given, assume uniform scaling
|
|
result.scale(params[0].toDouble(), params[0].toDouble());
|
|
}
|
|
else if(subtransform[0] == "skewx")
|
|
result.shear(tan(params[0].toDouble() * VGlobal::pi_180), 0.0F);
|
|
else if(subtransform[0] == "skewy")
|
|
result.shear(tan(params[0].toDouble() * VGlobal::pi_180), 0.0F);
|
|
else if(subtransform[0] == "skewy")
|
|
result.shear(0.0F, tan(params[0].toDouble() * VGlobal::pi_180));
|
|
else if(subtransform[0] == "matrix")
|
|
{
|
|
if(params.count() >= 6)
|
|
result.setMatrix(params[0].toDouble(), params[1].toDouble(), params[2].toDouble(), params[3].toDouble(), params[4].toDouble(), params[5].toDouble());
|
|
}
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
TQWMatrix
|
|
VPath::parseOasisTransform( const TQString &transform )
|
|
{
|
|
TQWMatrix result;
|
|
|
|
// Split string for handling 1 transform statement at a time
|
|
TQStringList subtransforms = TQStringList::split(')', transform);
|
|
TQStringList::ConstIterator it = subtransforms.begin();
|
|
TQStringList::ConstIterator end = subtransforms.end();
|
|
for(; it != end; ++it)
|
|
{
|
|
TQStringList subtransform = TQStringList::split('(', (*it));
|
|
|
|
subtransform[0] = subtransform[0].stripWhiteSpace().lower();
|
|
subtransform[1] = subtransform[1].simplifyWhiteSpace();
|
|
TQRegExp reg("[,( ]");
|
|
TQStringList params = TQStringList::split(reg, subtransform[1]);
|
|
|
|
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)
|
|
{
|
|
double x = KoUnit::parseValue( params[1] );
|
|
double y = KoUnit::parseValue( params[2] );
|
|
|
|
result.translate(x, y);
|
|
// oo2 rotates by radians
|
|
result.rotate( params[0].toDouble()*VGlobal::one_pi_180 );
|
|
result.translate(-x, -y);
|
|
}
|
|
else
|
|
{
|
|
// oo2 rotates by radians
|
|
result.rotate( params[0].toDouble()*VGlobal::one_pi_180 );
|
|
}
|
|
}
|
|
else if(subtransform[0] == "translate")
|
|
{
|
|
if(params.count() == 2)
|
|
{
|
|
double x = KoUnit::parseValue( params[0] );
|
|
double y = KoUnit::parseValue( params[1] );
|
|
result.translate(x, y);
|
|
}
|
|
else // Spec : if only one param given, assume 2nd param to be 0
|
|
result.translate( KoUnit::parseValue( params[0] ) , 0);
|
|
}
|
|
else if(subtransform[0] == "scale")
|
|
{
|
|
if(params.count() == 2)
|
|
result.scale(params[0].toDouble(), params[1].toDouble());
|
|
else // Spec : if only one param given, assume uniform scaling
|
|
result.scale(params[0].toDouble(), params[0].toDouble());
|
|
}
|
|
else if(subtransform[0] == "skewx")
|
|
result.shear(tan(params[0].toDouble()), 0.0F);
|
|
else if(subtransform[0] == "skewy")
|
|
result.shear(tan(params[0].toDouble()), 0.0F);
|
|
else if(subtransform[0] == "skewy")
|
|
result.shear(0.0F, tan(params[0].toDouble()));
|
|
else if(subtransform[0] == "matrix")
|
|
{
|
|
if(params.count() >= 6)
|
|
result.setMatrix(params[0].toDouble(), params[1].toDouble(), params[2].toDouble(), params[3].toDouble(), KoUnit::parseValue( params[4] ), KoUnit::parseValue( params[5] ) );
|
|
}
|
|
}
|
|
|
|
return result;
|
|
}
|
|
|
|
TQString
|
|
VPath::buildSvgTransform() const
|
|
{
|
|
return buildSvgTransform( m_matrix );
|
|
}
|
|
|
|
TQString
|
|
VPath::buildSvgTransform( const TQWMatrix &mat ) const
|
|
{
|
|
TQString transform;
|
|
if( !mat.isIdentity() )
|
|
{
|
|
transform = TQString( "matrix(%1, %2, %3, %4, %5, %6)" ).tqarg( mat.m11() )
|
|
.tqarg( mat.m12() )
|
|
.tqarg( mat.m21() )
|
|
.tqarg( mat.m22() )
|
|
.tqarg( mat.dx() )
|
|
.tqarg( mat.dy() );
|
|
}
|
|
return transform;
|
|
}
|
|
|
|
TQString
|
|
VPath::buildOasisTransform() const
|
|
{
|
|
return buildSvgTransform( m_matrix );
|
|
}
|
|
|
|
TQString
|
|
VPath::buildOasisTransform( const TQWMatrix &mat ) const
|
|
{
|
|
TQString transform;
|
|
if( !mat.isIdentity() )
|
|
{
|
|
transform = TQString( "matrix(%1, %2, %3, %4, %5pt, %6pt)" ).tqarg( mat.m11() )
|
|
.tqarg( mat.m12() )
|
|
.tqarg( mat.m21() )
|
|
.tqarg( mat.m22() )
|
|
.tqarg( mat.dx() )
|
|
.tqarg( mat.dy() );
|
|
}
|
|
return transform;
|
|
}
|