summaryrefslogtreecommitdiff
path: root/basegfx
diff options
context:
space:
mode:
authorRüdiger Timm <rt@openoffice.org>2004-11-26 17:39:23 +0000
committerRüdiger Timm <rt@openoffice.org>2004-11-26 17:39:23 +0000
commitdf5238dfc2ff8e759374cbbe8e74d547f49a67f8 (patch)
tree576a30917c5fb24cb72f40d116200574c8afb15d /basegfx
parent1b9ee6ae929fcb3f7063fdb2b67956b2c13f3890 (diff)
INTEGRATION: CWS presentationengine01 (1.1.2); FILE ADDED
2004/07/01 17:00:01 thb 1.1.2.1: #110496# Added SVG import to B2DPolygon
Diffstat (limited to 'basegfx')
-rw-r--r--basegfx/source/polygon/b2dsvgpolypolygon.cxx726
1 files changed, 726 insertions, 0 deletions
diff --git a/basegfx/source/polygon/b2dsvgpolypolygon.cxx b/basegfx/source/polygon/b2dsvgpolypolygon.cxx
new file mode 100644
index 000000000000..61a37f96b622
--- /dev/null
+++ b/basegfx/source/polygon/b2dsvgpolypolygon.cxx
@@ -0,0 +1,726 @@
+/*************************************************************************
+ *
+ * $RCSfile: b2dsvgpolypolygon.cxx,v $
+ *
+ * $Revision: 1.2 $
+ *
+ * last change: $Author: rt $ $Date: 2004-11-26 18:39:23 $
+ *
+ * The Contents of this file are made available subject to the terms of
+ * either of the following licenses
+ *
+ * - GNU Lesser General Public License Version 2.1
+ * - Sun Industry Standards Source License Version 1.1
+ *
+ * Sun Microsystems Inc., October, 2000
+ *
+ * GNU Lesser General Public License Version 2.1
+ * =============================================
+ * Copyright 2000 by Sun Microsystems, Inc.
+ * 901 San Antonio Road, Palo Alto, CA 94303, USA
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License version 2.1, as published by the Free Software Foundation.
+ *
+ * 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
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
+ * MA 02111-1307 USA
+ *
+ *
+ * Sun Industry Standards Source License Version 1.1
+ * =================================================
+ * The contents of this file are subject to the Sun Industry Standards
+ * Source License Version 1.1 (the "License"); You may not use this file
+ * except in compliance with the License. You may obtain a copy of the
+ * License at http://www.openoffice.org/license.html.
+ *
+ * Software provided under this License is provided on an "AS IS" basis,
+ * WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING,
+ * WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS,
+ * MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING.
+ * See the License for the specific provisions governing your rights and
+ * obligations concerning the Software.
+ *
+ * The Initial Developer of the Original Code is: Sun Microsystems, Inc.
+ *
+ * Copyright: 2000 by Sun Microsystems, Inc.
+ *
+ * All Rights Reserved.
+ *
+ * Contributor(s): _______________________________________
+ *
+ *
+ ************************************************************************/
+
+#include <basegfx/polygon/b2dpolypolygontools.hxx>
+#include <basegfx/polygon/b2dpolypolygon.hxx>
+
+#ifndef _RTL_USTRING_
+#include <rtl/ustring.hxx>
+#endif
+#ifndef INCLUDED_RTL_MATH_HXX
+#include <rtl/math.hxx>
+#endif
+
+namespace basegfx
+{
+ namespace tools
+ {
+ namespace
+ {
+ void lcl_skipSpaces(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ while( io_rPos < nLen &&
+ sal_Unicode(' ') == rStr[io_rPos] )
+ {
+ ++io_rPos;
+ }
+ }
+
+ void lcl_skipSpacesAndCommas(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ while(io_rPos < nLen
+ && (sal_Unicode(' ') == rStr[io_rPos] || sal_Unicode(',') == rStr[io_rPos]))
+ {
+ ++io_rPos;
+ }
+ }
+
+ bool lcl_isOnNumberChar(const ::rtl::OUString& rStr, const sal_Int32 nPos, bool bSignAllowed = true)
+ {
+ const sal_Unicode aChar(rStr[nPos]);
+
+ const bool bPredicate( (sal_Unicode('0') <= aChar && sal_Unicode('9') >= aChar)
+ || (bSignAllowed && sal_Unicode('+') == aChar)
+ || (bSignAllowed && sal_Unicode('-') == aChar) );
+
+ return bPredicate;
+ }
+
+ bool lcl_getDoubleChar(double& o_fRetval,
+ sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ sal_Unicode aChar( rStr[io_rPos] );
+ ::rtl::OUStringBuffer sNumberString;
+
+ if(sal_Unicode('+') == aChar || sal_Unicode('-') == aChar)
+ {
+ sNumberString.append(rStr[io_rPos]);
+ aChar = rStr[++io_rPos];
+ }
+
+ while((sal_Unicode('0') <= aChar && sal_Unicode('9') >= aChar)
+ || sal_Unicode('.') == aChar)
+ {
+ sNumberString.append(rStr[io_rPos]);
+ aChar = rStr[++io_rPos];
+ }
+
+ if(sal_Unicode('e') == aChar || sal_Unicode('E') == aChar)
+ {
+ sNumberString.append(rStr[io_rPos]);
+ aChar = rStr[++io_rPos];
+
+ if(sal_Unicode('+') == aChar || sal_Unicode('-') == aChar)
+ {
+ sNumberString.append(rStr[io_rPos]);
+ aChar = rStr[++io_rPos];
+ }
+
+ while(sal_Unicode('0') <= aChar && sal_Unicode('9') >= aChar)
+ {
+ sNumberString.append(rStr[io_rPos]);
+ aChar = rStr[++io_rPos];
+ }
+ }
+
+ if(sNumberString.getLength())
+ {
+ rtl_math_ConversionStatus eStatus;
+ o_fRetval = ::rtl::math::stringToDouble( sNumberString.makeStringAndClear(),
+ (sal_Unicode)('.'),
+ (sal_Unicode)(','),
+ &eStatus,
+ NULL );
+ return ( eStatus == rtl_math_ConversionStatus_Ok );
+ }
+
+ return false;
+ }
+
+ bool lcl_importDoubleAndSpaces( double& o_fRetval,
+ sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen )
+ {
+ if( !lcl_getDoubleChar(o_fRetval, io_rPos, rStr, nLen) )
+ return false;
+
+ lcl_skipSpacesAndCommas(io_rPos, rStr, nLen);
+
+ return true;
+ }
+
+ void lcl_skipNumber(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ bool bSignAllowed(true);
+
+ while(io_rPos < nLen && lcl_isOnNumberChar(rStr, io_rPos, bSignAllowed))
+ {
+ bSignAllowed = false;
+ ++io_rPos;
+ }
+ }
+
+ void lcl_skipDouble(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ sal_Unicode aChar( rStr[io_rPos] );
+
+ if(sal_Unicode('+') == aChar || sal_Unicode('-') == aChar)
+ aChar = rStr[++io_rPos];
+
+ while((sal_Unicode('0') <= aChar && sal_Unicode('9') >= aChar)
+ || sal_Unicode('.') == aChar)
+ {
+ aChar = rStr[++io_rPos];
+ }
+
+ if(sal_Unicode('e') == aChar || sal_Unicode('E') == aChar)
+ {
+ aChar = rStr[++io_rPos];
+
+ if(sal_Unicode('+') == aChar || sal_Unicode('-') == aChar)
+ aChar = rStr[++io_rPos];
+
+ while(sal_Unicode('0') <= aChar && sal_Unicode('9') >= aChar)
+ {
+ aChar = rStr[++io_rPos];
+ }
+ }
+ }
+ void lcl_skipNumberAndSpacesAndCommas(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ lcl_skipNumber(io_rPos, rStr, nLen);
+ lcl_skipSpacesAndCommas(io_rPos, rStr, nLen);
+ }
+
+ // #100617# Allow to skip doubles, too.
+ void lcl_skipDoubleAndSpacesAndCommas(sal_Int32& io_rPos,
+ const ::rtl::OUString& rStr,
+ const sal_Int32 nLen)
+ {
+ lcl_skipDouble(io_rPos, rStr, nLen);
+ lcl_skipSpacesAndCommas(io_rPos, rStr, nLen);
+ }
+ }
+
+ bool importFromSvgD( ::basegfx::B2DPolyPolygon& o_rPolyPoly,
+ const ::rtl::OUString& rSvgDStatement )
+ {
+ const sal_Int32 nLen( rSvgDStatement.getLength() );
+ sal_Int32 nPos(0);
+ B2DPolygon aCurrPoly;
+
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ // #104076# reset closed flag for next to be started polygon
+ bool bIsClosed = false;
+
+ double nLastX( 0.0 );
+ double nLastY( 0.0 );
+
+ while( nPos < nLen )
+ {
+ bool bRelative(false);
+ bool bMoveTo(false);
+
+ const sal_Unicode aCurrChar( rSvgDStatement[nPos] );
+
+ switch( aCurrChar )
+ {
+ case 'z' :
+ case 'Z' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ // #104076# remember closed state of current polygon
+ bIsClosed = true;
+ break;
+ }
+
+ case 'm' :
+ case 'M' :
+ {
+ bMoveTo = true;
+ // FALLTHROUGH intended
+ }
+ case 'l' :
+ case 'L' :
+ {
+ if( aCurrChar == 'm' || aCurrChar == 'l' )
+ bRelative = true;
+
+ if( bMoveTo )
+ {
+ if( aCurrPoly.count() )
+ {
+ // #104076# end-process current poly
+ aCurrPoly.setClosed( bIsClosed );
+
+ // reset closed flag for next to be started polygon
+ bIsClosed = false;
+
+ // next poly
+ o_rPolyPoly.append( aCurrPoly );
+
+ aCurrPoly.clear();
+ }
+ }
+
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY;
+
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ {
+ nX += nLastX;
+ nY += nLastY;
+ }
+
+ // set last position
+ nLastX = nX;
+ nLastY = nY;
+
+ // add point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ case 'h' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'H' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY( nLastY );
+
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ nX += nLastX;
+
+ // set last position
+ nLastX = nX;
+
+ // add point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ case 'v' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'V' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX( nLastX ), nY;
+
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ nY += nLastY;
+
+ // set last position
+ nLastY = nY;
+
+ // add point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ case 's' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'S' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY;
+ double nX2, nY2;
+
+ if( !lcl_importDoubleAndSpaces(nX2, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY2, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ {
+ nX2 += nLastX;
+ nY2 += nLastY;
+ nX += nLastX;
+ nY += nLastY;
+ }
+
+ // set control points/vectors
+ sal_uInt32 nNumEntries( aCurrPoly.count() );
+
+ if( nNumEntries == 0 )
+ {
+ // ensure valid prev point - if none
+ // was explicitely added, take last
+ // position
+ aCurrPoly.append( B2DPoint( nLastX, nLastY ) );
+ ++nNumEntries;
+ }
+
+ if( nNumEntries > 1 )
+ {
+ // set reflected control
+ // vector.
+ aCurrPoly.setControlVectorA( nNumEntries-1,
+ -aCurrPoly.getControlVectorB( nNumEntries-2 ) );
+ }
+ // as required in the SVG spec, if there's
+ // no previous control point, the implicit
+ // control point shall be coincident with
+ // the current point. That means, there's
+ // effectively a zero control vector B at
+ // index nNumEntries-2
+
+ aCurrPoly.setControlPointB( nNumEntries-1,
+ B2DPoint( nX2, nY2 ) );
+
+ // set last position
+ if( !nNumEntries )
+ {
+ aCurrPoly.append( B2DPoint( nLastX, nLastY ) );
+ ++nNumEntries;
+ }
+ nLastX = nX;
+ nLastY = nY;
+
+ // add point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ case 'c' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'C' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY;
+ double nX1, nY1;
+ double nX2, nY2;
+
+ if( !lcl_importDoubleAndSpaces(nX1, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY1, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nX2, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY2, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ {
+ nX1 += nLastX;
+ nY1 += nLastY;
+ nX2 += nLastX;
+ nY2 += nLastY;
+ nX += nLastX;
+ nY += nLastY;
+ }
+
+ // ensure at least one previous point (to
+ // set the control vector at)
+ sal_uInt32 nNumEntries( aCurrPoly.count() );
+
+ if( nNumEntries == 0 )
+ {
+ // ensure valid prev point - if none
+ // was explicitely added, take last
+ // position
+ aCurrPoly.append( B2DPoint( nLastX, nLastY ) );
+ ++nNumEntries;
+ }
+
+ aCurrPoly.setControlPointA( nNumEntries-1,
+ B2DPoint( nX1, nY1 ) );
+ aCurrPoly.setControlPointB( nNumEntries-1,
+ B2DPoint( nX2, nY2 ) );
+
+ // set last position
+ nLastX = nX;
+ nLastY = nY;
+
+ // add new point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ // #100617# quadratic beziers are imported as cubic ones
+ case 'q' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'Q' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY;
+ double nX1, nY1;
+
+ if( !lcl_importDoubleAndSpaces(nX1, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY1, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ {
+ nX1 += nLastX;
+ nY1 += nLastY;
+ nX += nLastX;
+ nY += nLastY;
+ }
+
+ // calculate the cubic bezier coefficients from the quadratic ones
+ const double nX1Prime( (nX1*2.0 + nLastX) / 3.0 );
+ const double nY1Prime( (nY1*2.0 + nLastY) / 3.0 );
+ const double nX2Prime( (nX1*2.0 + nX) / 3.0 );
+ const double nY2Prime( (nY1*2.0 + nY) / 3.0 );
+
+ sal_uInt32 nNumEntries( aCurrPoly.count() );
+
+ // ensure at least one previous point (to
+ // set the control vector at)
+ if( nNumEntries == 0 )
+ {
+ // ensure valid prev point - if none
+ // was explicitely added, take last
+ // position
+ aCurrPoly.append( B2DPoint( nLastX, nLastY ) );
+ ++nNumEntries;
+ }
+
+ aCurrPoly.setControlPointA( nNumEntries-1,
+ B2DPoint( nX1Prime, nY1Prime ) );
+ aCurrPoly.setControlPointB( nNumEntries-1,
+ B2DPoint( nX2Prime, nY2Prime ) );
+
+ // set last position
+ nLastX = nX;
+ nLastY = nY;
+
+ // add new point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ // #100617# relative quadratic beziers are imported as cubic
+ case 't' :
+ {
+ bRelative = true;
+ // FALLTHROUGH intended
+ }
+ case 'T' :
+ {
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ double nX, nY;
+
+ if( !lcl_importDoubleAndSpaces(nX, nPos, rSvgDStatement, nLen) )
+ return false;
+ if( !lcl_importDoubleAndSpaces(nY, nPos, rSvgDStatement, nLen) )
+ return false;
+
+ if(bRelative)
+ {
+ nX += nLastX;
+ nY += nLastY;
+ }
+
+ // calc control points/vectors. Since the
+ // previous curve segment (if any) was
+ // already converted to cubic, we can
+ // simply take controlVectorB and apply it
+ // without further adaptions.
+ sal_uInt32 nNumEntries( aCurrPoly.count() );
+
+ if( nNumEntries == 0 )
+ {
+ // ensure valid prev point - if none
+ // was explicitely added, take last
+ // position
+ aCurrPoly.append( B2DPoint( nLastX, nLastY ) );
+ ++nNumEntries;
+ }
+
+ if( nNumEntries > 1 )
+ {
+ // TODO(F2): Strictly speaking, we
+ // must check whether the previous
+ // segment is indeed quadratic
+ // (otherwise, if it is cubic, the
+ // spec requires the control point to
+ // be coincident with the current
+ // point)
+
+ const B2DVector aVecA( -aCurrPoly.getControlVectorB( nNumEntries-2 ) );
+
+ // set reflected control vector
+ aCurrPoly.setControlVectorA( nNumEntries-1, aVecA );
+
+ // calc real quadratic control point from prev point and prev
+ // cubic control vector
+ const B2DPoint aQuadControlPoint(
+ (3.0*aCurrPoly.getControlPointB( nNumEntries-2 ) -
+ aCurrPoly.getB2DPoint( nNumEntries-1 )) / 2.0 );
+
+ // calc new cubic control point
+ const double nX2Prime( (aQuadControlPoint.getX()*2.0 + nX) / 3.0 );
+ const double nY2Prime( (aQuadControlPoint.getY()*2.0 + nY) / 3.0 );
+
+ aCurrPoly.setControlPointB( nNumEntries-1,
+ B2DPoint( nX2Prime, nY2Prime ) );
+ }
+ // after the SVG spec, if there's no previous control point, the implicit
+ // control point shall be coincident with the current point. Which means,
+ // the quadratic bezier is a straight line in this case
+
+ // set last position
+ nLastX = nX;
+ nLastY = nY;
+
+ // add point
+ aCurrPoly.append( B2DPoint( nX, nY ) );
+ }
+ break;
+ }
+
+ // #100617# not yet supported: elliptical arc
+ case 'A' :
+ // FALLTHROUGH intended
+ case 'a' :
+ {
+ OSL_ENSURE( false,
+ "importFromSvgD(): non-interpreted tags in svg:d element (elliptical arc)!");
+ nPos++;
+ lcl_skipSpaces(nPos, rSvgDStatement, nLen);
+
+ while(nPos < nLen && lcl_isOnNumberChar(rSvgDStatement, nPos))
+ {
+ lcl_skipDoubleAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipDoubleAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipDoubleAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipNumberAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipNumberAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipDoubleAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ lcl_skipDoubleAndSpacesAndCommas(nPos, rSvgDStatement, nLen);
+ }
+ break;
+ }
+
+ default:
+ {
+ OSL_ENSURE( false,
+ "importFromSvgD(): skipping tags in svg:d element (unknown)!" );
+ OSL_TRACE( "importFromSvgD(): skipping tags in svg:d element (unknown: \"%c\")!", aCurrChar );
+ ++nPos;
+ break;
+ }
+ }
+ }
+
+ if( aCurrPoly.count() )
+ {
+ // #104076# end-process closed state of last poly
+ aCurrPoly.setClosed( bIsClosed );
+
+ // add last polygon
+ o_rPolyPoly.append( aCurrPoly );
+ }
+
+ return true;
+ }
+ }
+}