- fixed a bug with zero-length strings

- introduces macros for fast PDF-debugging
- speedup in math-emulation (rounding,sqrt,fabs)
- libstdc++ not needed anymore

3 files changed, 91 insertions, 74 deletions

diff --git a/noncore/unsupported/qpdf/QOutputDev.cpp b/noncore/unsupported/qpdf/QOutputDev.cpp
index 02f269d..15a58b1 100644
--- a/noncore/unsupported/qpdf/QOutputDev.cpp
+++ b/noncore/unsupported/qpdf/QOutputDev.cpp
@@ -20,64 +20,60 @@
 #include <ctype.h>
 #include <math.h>
 #include "GString.h"
 #include "Object.h"
 #include "Stream.h"
 #include "Link.h"
 #include "GfxState.h"
 #include "GfxFont.h"
 #include "UnicodeMap.h"
 #include "CharCodeToUnicode.h"
 #include "FontFile.h"
 #include "Error.h"
 #include "TextOutputDev.h"
 #include "QOutputDev.h"
 
 
 #include <qpixmap.h>
 #include <qimage.h>
 #include <qpainter.h>
 #include <qdict.h>
 #include <qtimer.h>
 #include <qapplication.h>
 #include <qclipboard.h>
 
+//#define QPDFDBG(x) x		// special debug mode
+#define QPDFDBG(x)   		// normal compilation
+
 
 //------------------------------------------------------------------------
 // Constants and macros
 //------------------------------------------------------------------------
 
 
-static inline int q_rnd ( fp_t d )
-{
-//	qDebug ( "Q_RND: %f -> %d\n", (double) d, (int) ( d >= 0 ? d +0.5 : d - 0.5 ));
-
-	return (int) ( d >= 0 ? d + 0.5 : d - 0.5 );
-}
-
 static inline QColor q_col ( const GfxRGB &rgb )
 {
-	return QColor ( q_rnd ( rgb. r * 255 ), q_rnd ( rgb. g * 255 ), q_rnd ( rgb. b * 255 ));
+	return QColor ( lrint ( rgb. r * 255 ), lrint ( rgb. g * 255 ), lrint ( rgb. b * 255 ));
 }
 
 
 //------------------------------------------------------------------------
 // Font substitutions
 //------------------------------------------------------------------------
 
 struct QOutFontSubst {
 	char * m_name;
 	char * m_sname;
 	bool   m_bold;
 	bool   m_italic;
 	QFont::StyleHint m_hint;
 };
 
 static QOutFontSubst qStdFonts [] = {
 	{ "Helvetica",             "Helvetica", false, false, QFont::Helvetica },
 	{ "Helvetica-Oblique",     "Helvetica", false, true,  QFont::Helvetica },
 	{ "Helvetica-Bold",        "Helvetica", true,  false, QFont::Helvetica },
 	{ "Helvetica-BoldOblique", "Helvetica", true,  true,  QFont::Helvetica },
 	{ "Times-Roman",           "Times",     false, false, QFont::Times },
 	{ "Times-Italic",          "Times",     false, true,  QFont::Times },
 	{ "Times-Bold",            "Times",     true,  false, QFont::Times },
 	{ "Times-BoldItalic",      "Times",     true,  true,  QFont::Times },
@@ -89,62 +85,62 @@ static QOutFontSubst qStdFonts [] = {
 	{ "Symbol",                0,           false, false, QFont::AnyStyle },
 	{ "Zapf-Dingbats",         0,           false, false, QFont::AnyStyle },
   
 	{ 0,                       0,           false, false, QFont::AnyStyle }
 };
 
 
 
 
 
 
 
 QFont QOutputDev::matchFont ( GfxFont *gfxFont, fp_t m11, fp_t m12, fp_t m21, fp_t m22 ) 
 {
 	static QDict<QOutFontSubst> stdfonts;
 	
 	// build dict for std. fonts on first invocation	
 	if ( stdfonts. isEmpty ( )) {
 		for ( QOutFontSubst *ptr = qStdFonts; ptr-> m_name; ptr++ ) {
 			stdfonts. insert ( QString ( ptr-> m_name ), ptr );
 		}	
 	}
 
 	// compute size and normalized transform matrix
-	int size = q_rnd ( sqrt ( m21 * m21 + m22 * m22 ));
+	int size = lrint ( sqrt ( m21 * m21 + m22 * m22 ));
 
-/*	qDebug ( "SET FONT: Name=%s, Size=%d, Bold=%d, Italic=%d, Mono=%d, Serif=%d, Symbol=%d, CID=%d, EmbFN=%s, M=(%f,%f,%f,%f)\n",
+	QPDFDBG( printf ( "SET FONT: Name=%s, Size=%d, Bold=%d, Italic=%d, Mono=%d, Serif=%d, Symbol=%d, CID=%d, EmbFN=%s, M=(%f,%f,%f,%f)\n",
 	         (( gfxFont-> getName ( )) ? gfxFont-> getName ( )-> getCString ( ) : "<n/a>" ),
 	         size,
 	         gfxFont-> isBold ( ),
 	         gfxFont-> isItalic ( ),
 	         gfxFont-> isFixedWidth ( ),
 	         gfxFont-> isSerif ( ),
 	         gfxFont-> isSymbolic ( ),
 	         gfxFont-> isCIDFont ( ),
 	         ( gfxFont-> getEmbeddedFontName ( ) ? gfxFont-> getEmbeddedFontName ( ) : "<n/a>" ),
-	         (double) m11, (double) m12, (double) m21, (double) m22 );
-*/
+	         (double) m11, (double) m12, (double) m21, (double) m22 ));
+
 
 	QString fname (( gfxFont-> getName ( )) ? gfxFont-> getName ( )-> getCString ( ) : "<n/a>" );
 
 	QFont f;
 	f. setPixelSize ( size > 0 ? size : 8 ); // type3 fonts misbehave sometimes
 
 	// fast lookup for std. fonts
 	QOutFontSubst *subst = stdfonts [fname];
 	
 	if ( subst ) {
 		if ( subst-> m_sname )
 			f. setFamily ( subst-> m_sname );
 		f. setStyleHint ( subst-> m_hint, (QFont::StyleStrategy) ( QFont::PreferOutline | QFont::PreferQuality ));	
 		f. setBold ( subst-> m_bold );
 		f. setItalic ( subst-> m_italic );
 	}
 	else {
 		QFont::StyleHint sty;
 	
 		if ( gfxFont-> isSerif ( ))
 			sty = QFont::Serif;
 		else if ( gfxFont-> isFixedWidth ( ))
 			sty = QFont::TypeWriter;
 		else
@@ -164,181 +160,183 @@ QFont QOutputDev::matchFont ( GfxFont *gfxFont, fp_t m11, fp_t m12, fp_t m21, fp
 			f. setWeight ( QFont::DemiBold );
 		if ( fname. contains ( "Light" ))
 			f. setWeight ( QFont::Light );
 		if ( fname. contains ( "Black" ))
 			f. setWeight ( QFont::Black );
 	}		
 	// Treat x-sheared fonts as italic
 	if (( m12 > -0.1 ) && ( m12 < 0.1 ) && ((( m21 > -5.0 ) && ( m21 < -0.1 )) || (( m21 > 0.1 ) && ( m21 < 5.0 )))) {
 		f. setItalic ( true ); 
 	}	
 	return f;
 }
 
 
 
 //------------------------------------------------------------------------
 // QOutputDev
 //------------------------------------------------------------------------
 
 QOutputDev::QOutputDev ( QWidget *parent, const char *name, int flags ) : QScrollView ( parent, name, WRepaintNoErase | WResizeNoErase | flags )
 {
 	m_pixmap = 0;
 	m_painter = 0;
 	
+	m_use_string = true;
+	
 	// create text object
 	m_text = new TextPage ( gFalse );
 }
 
 QOutputDev::~QOutputDev ( ) 
 {
 	delete m_painter;
 	delete m_pixmap;
 	delete m_text;
 }
 
 
 void QOutputDev::startPage ( int /*pageNum*/, GfxState *state ) 
 {
 	delete m_pixmap;
 	delete m_painter;
 	
-	m_pixmap = new QPixmap ( q_rnd ( state-> getPageWidth ( )), q_rnd ( state-> getPageHeight ( )));
+	m_pixmap = new QPixmap ( lrint ( state-> getPageWidth ( )), lrint ( state-> getPageHeight ( )));
 	m_painter = new QPainter ( m_pixmap );
 
-//	qDebug ( "NEW PIXMAP (%d x %d)\n", q_rnd ( state-> getPageWidth ( )),  q_rnd ( state-> getPageHeight ( )));
+	QPDFDBG( printf ( "NEW PIXMAP (%ld x %ld)\n", lrint ( state-> getPageWidth ( )),  lrint ( state-> getPageHeight ( ))));
 	
 	resizeContents ( m_pixmap-> width ( ), m_pixmap-> height ( ));
 	setContentsPos ( 0, 0 );
 
 	m_pixmap-> fill ( white ); // clear window
 	m_text-> clear ( ); // cleat text object	
 	viewport ( )-> repaint ( );	
 }
 
 void QOutputDev::endPage ( ) 
 {
 	m_text-> coalesce ( );
 	
 	delete m_painter;
 	m_painter = 0;
 	
 	updateContents ( 0, 0, contentsWidth ( ), contentsHeight ( ));
 }
 
 void QOutputDev::drawLink ( Link *link, Catalog */*catalog*/ ) 
 {
 	fp_t x1, y1, x2, y2, w;
 
 	link-> getBorder ( &x1, &y1, &x2, &y2, &w );
 	
 	if ( w > 0 ) {
 		int x, y, dx, dy;
 	
 		cvtUserToDev ( x1, y1, &x,  &y );
 		cvtUserToDev ( x2, y2, &dx, &dy );
 		
 		QPen oldpen = m_painter-> pen ( );
 		m_painter-> setPen ( blue );
 		m_painter-> drawRect ( x, y, dx, dy );
 		m_painter-> setPen ( oldpen );
 	}
 }
 
 void QOutputDev::saveState ( GfxState */*state*/ ) 
 {
-//	qDebug ( "SAVE (CLIP=%d/%d)\n",  m_painter-> hasClipping ( ), !m_painter-> clipRegion ( ). isEmpty ( ));
+	QPDFDBG( printf ( "SAVE (CLIP=%d/%d)\n",  m_painter-> hasClipping ( ), !m_painter-> clipRegion ( ). isEmpty ( )));
 
 	m_painter-> save ( );	
 }
 
 void QOutputDev::restoreState ( GfxState */*state*/ ) 
 {
 	m_painter-> restore ( );
 	
 //	m_painter-> setClipRegion ( QRect ( 0, 0, m_pixmap-> width ( ), m_pixmap-> height ( )));
 //	m_painter-> setClipping ( false );
-//	qDebug ( "RESTORE (CLIP=%d/%d)\n", m_painter-> hasClipping ( ), !m_painter-> clipRegion ( ). isEmpty ( ));
+	QPDFDBG ( printf ( "RESTORE (CLIP=%d/%d)\n", m_painter-> hasClipping ( ), !m_painter-> clipRegion ( ). isEmpty ( )));
 }
 
 void QOutputDev::updateAll ( GfxState *state ) 
 {
 	updateLineAttrs ( state, gTrue );
 //	updateFlatness ( state );
 //	updateMiterLimit ( state );
 	updateFillColor ( state );
 	updateStrokeColor ( state );
 	updateFont ( state );
 }
 
 void QOutputDev::updateCTM ( GfxState *state, fp_t /*m11*/, fp_t /*m12*/, fp_t /*m21*/, fp_t /*m22*/, fp_t /*m31*/, fp_t /*m32*/ ) 
 {
 	updateLineAttrs ( state, gTrue );
 }
 
 void QOutputDev::updateLineDash ( GfxState *state ) 
 {
 	updateLineAttrs ( state, gTrue );
 }
 
 void QOutputDev::updateFlatness ( GfxState */*state*/ ) 
 {
 	// not supported
-//	qDebug ( "updateFlatness not supported !\n" );
+	QPDFDBG( printf ( "updateFlatness not supported !\n" ));
 }
 
 void QOutputDev::updateLineJoin ( GfxState *state ) 
 {
 	updateLineAttrs ( state, gFalse );
 }
 
 void QOutputDev::updateLineCap ( GfxState *state ) 
 {
 	updateLineAttrs ( state, gFalse );
 }
 
 // unimplemented
 void QOutputDev::updateMiterLimit ( GfxState */*state*/ ) 
 {
-//	qDebug ( "updateMiterLimit not supported !\n" );
+	QPDFDBG( printf ( "updateMiterLimit not supported !\n" ));
 }
 
 void QOutputDev::updateLineWidth ( GfxState *state ) 
 {
 	updateLineAttrs ( state, gFalse );
 }
 
 void QOutputDev::updateLineAttrs ( GfxState *state, GBool updateDash ) 
 {
 	fp_t *dashPattern;
 	int dashLength;
 	fp_t dashStart;
 
 	Qt::PenCapStyle  cap;
 	Qt::PenJoinStyle join;
 	int width;
 
-	width = q_rnd ( state-> getTransformedLineWidth ( ));
+	width = lrint ( state-> getTransformedLineWidth ( ));
 	
 	switch ( state-> getLineCap ( )) {
 		case 0: cap = FlatCap; break;
 		case 1: cap = RoundCap; break;
 		case 2: cap = SquareCap; break;
 		default:
 			qWarning ( "Bad line cap style (%d)\n", state-> getLineCap ( ));
 			cap = FlatCap;
 			break;
 	}
 		
 	switch (state->getLineJoin()) {
 		case 0: join = MiterJoin; break;
 		case 1: join = RoundJoin; break;
 		case 2: join = BevelJoin; break;
 		default:
 			qWarning ( "Bad line join style (%d)\n", state->getLineJoin ( ));
 			join = MiterJoin;
 			break;
 	}
 	
 	state-> getLineDash ( &dashPattern, &dashLength, &dashStart );
 
 	QColor oldcol = m_painter-> pen ( ). color ( );
@@ -388,155 +386,154 @@ void QOutputDev::updateFont ( GfxState *state )
 	fp_t m11, m12, m21, m22;
 	GfxFont *gfxFont = state-> getFont ( );
 	 
 	if ( !gfxFont )
 		return;
 	
 	state-> getFontTransMat ( &m11, &m12, &m21, &m22 );
 	m11 *= state-> getHorizScaling ( );
 	m12 *= state-> getHorizScaling ( );
   
 	QFont font = matchFont ( gfxFont, m11, m12, m21, m22 );
 	
 	m_painter-> setFont ( font );
 	m_text-> updateFont ( state );
 }
 
 void QOutputDev::stroke ( GfxState *state ) 
 {
 	QPointArray points;
 	QArray<int> lengths;
 
 	// transform points
 	int n = convertPath ( state, points, lengths );
 
-//	qDebug ( "DRAWING: %d POLYS\n", n );
+	QPDFDBG( printf ( "DRAWING: %d POLYS\n", n ));
 	
 	// draw each subpath
 	int j = 0;
 	for ( int i = 0; i < n; i++ ) {
 		int len = lengths [i];
 	
 		if ( len >= 2 ) {
-//			qDebug ( " - POLY %d: ", i );
-//			for ( int ii = 0; ii < len; ii++ )
-//				qDebug ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( ));
-//			qDebug ( "\n" );
+			QPDFDBG( printf ( " - POLY %d: ", i ));
+			QPDFDBG( for ( int ii = 0; ii < len; ii++ ))
+				QPDFDBG( printf ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( )));
+			QPDFDBG( printf ( "\n" ));
 			
 			m_painter-> drawPolyline ( points, j, len );
 		}	
 		j += len;
 	}
 	qApp-> processEvents ( );
 }
 
 void QOutputDev::fill ( GfxState *state ) 
 {
 	doFill ( state, true );
 }
 
 void QOutputDev::eoFill ( GfxState *state ) 
 {
 	doFill ( state, false );
 }
 
 //
 //  X doesn't color the pixels on the right-most and bottom-most
 //  borders of a polygon.  This means that one-pixel-thick polygons
 //  are not colored at all.  I think this is supposed to be a
 //  feature, but I can't figure out why.  So after it fills a
 //  polygon, it also draws lines around the border.  This is done
 //  only for single-component polygons, since it's not very
 //  compatible with the compound polygon kludge (see convertPath()).
 //
 void QOutputDev::doFill ( GfxState *state, bool winding ) 
 {
 	QPointArray points;
 	QArray<int> lengths;
 
 	// transform points
 	int n = convertPath ( state, points, lengths );
 
-//	qDebug ( "FILLING: %d POLYS\n", n );
+	QPDFDBG( printf ( "FILLING: %d POLYS\n", n ));
 	
 	QPen oldpen = m_painter-> pen ( );
 	m_painter-> setPen ( QPen ( NoPen ));
 	
 	// draw each subpath
 	int j = 0;
 	for ( int i = 0; i < n; i++ ) {
 		int len = lengths [i];
 	
 		if ( len >= 3 ) {
-//			qDebug ( " - POLY %d: ", i );
-//			for ( int ii = 0; ii < len; ii++ )
-//				qDebug ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( ));
-//			qDebug ( "\n" );
+			QPDFDBG( printf ( " - POLY %d: ", i ));
+			QPDFDBG( for ( int ii = 0; ii < len; ii++ ))
+				QPDFDBG( printf ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( )));
+			QPDFDBG( printf ( "\n" ));
 		
 			m_painter-> drawPolygon ( points, winding, j, len );
 		}	
 		j += len;
 	}
 	m_painter-> setPen ( oldpen );
 
 	qApp-> processEvents ( );
 }
 
 void QOutputDev::clip ( GfxState *state ) 
 {
 	doClip ( state, true );
 }
 
 void QOutputDev::eoClip ( GfxState *state ) 
 {
 	doClip ( state, false );
 }
 
 void QOutputDev::doClip ( GfxState *state, bool winding ) 
 {
 	QPointArray points;
 	QArray<int> lengths;
 
 	// transform points
 	int n = convertPath ( state, points, lengths );
 
 	QRegion region;
 	
-//	qDebug ( "CLIPPING: %d POLYS\n", n );
+	QPDFDBG( printf ( "CLIPPING: %d POLYS\n", n ));
 	
 	// draw each subpath
 	int j = 0;
 	for ( int i = 0; i < n; i++ ) {
 		int len = lengths [i];
 		
 		if ( len >= 3 ) {		
 			QPointArray dummy;
 			dummy. setRawData ( points. data ( ) + j, len );
 		
-//			qDebug ( " - POLY %d: ", i );
-//			for ( int ii = 0; ii < len; ii++ )
-//				qDebug ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( ));
-//			qDebug ( "\n" );
+			QPDFDBG( printf ( " - POLY %d: ", i ));
+			QPDFDBG( for ( int ii = 0; ii < len; ii++ ) printf ( "(%d/%d) ", points [j+ii]. x ( ), points [j+ii]. y ( )));
+			QPDFDBG( printf ( "\n" ));
 		
 			region |= QRegion ( dummy, winding );
 		
 			dummy. resetRawData ( points. data ( ) + j, len );
 		}		
 		j += len;
 	}
 	
 	if ( m_painter-> hasClipping ( ))
 		region &= m_painter-> clipRegion ( );
 
 //	m_painter-> setClipRegion ( region );
 //	m_painter-> setClipping ( true );
 	
 //	m_painter-> fillRect ( 0, 0, m_pixmap-> width ( ), m_pixmap-> height ( ), red );
 //	m_painter-> drawText ( points [0]. x ( ) + 10, points [0]. y ( ) + 10, "Bla bla" );
 	qApp-> processEvents ( );
 }
 
 //
 // Transform points in the path and convert curves to line segments.
 // Builds a set of subpaths and returns the number of subpaths.
 // If <fillHack> is set, close any unclosed subpaths and activate a
 // kludge for polygon fills:  First, it divides up the subpaths into
@@ -560,213 +557,213 @@ int QOutputDev::convertPath ( GfxState *state, QPointArray &points, QArray<int>
 	return n;
 }
 
 //
 // Transform points in a single subpath and convert curves to line
 // segments.
 //
 int QOutputDev::convertSubpath ( GfxState *state, GfxSubpath *subpath, QPointArray &points )
 {
 	int oldcnt = points. count ( );
 
 	fp_t x0, y0, x1, y1, x2, y2, x3, y3;
 
 	int m = subpath-> getNumPoints ( );
 	int i = 0;
 	
 	while ( i < m ) {
 		if ( i >= 1 && subpath-> getCurve ( i )) {
 			state-> transform ( subpath-> getX ( i - 1 ), subpath-> getY ( i - 1 ), &x0, &y0 );
 			state-> transform ( subpath-> getX ( i ),     subpath-> getY ( i ),     &x1, &y1 );
 			state-> transform ( subpath-> getX ( i + 1 ), subpath-> getY ( i + 1 ), &x2, &y2 );
 			state-> transform ( subpath-> getX ( i + 2 ), subpath-> getY ( i + 2 ), &x3, &y3 );
 			
 			QPointArray tmp;
-			tmp. setPoints ( 4, q_rnd ( x0 ), q_rnd ( y0 ), q_rnd ( x1 ), q_rnd ( y1 ),
-			                    q_rnd ( x2 ), q_rnd ( y2 ), q_rnd ( x3 ), q_rnd ( y3 ));
+			tmp. setPoints ( 4, lrint ( x0 ), lrint ( y0 ), lrint ( x1 ), lrint ( y1 ),
+			                    lrint ( x2 ), lrint ( y2 ), lrint ( x3 ), lrint ( y3 ));
 
 #if QT_VERSION < 300
 			tmp = tmp. quadBezier ( );
 			
 			for ( uint loop = 0; loop < tmp. count ( ); loop++ ) {
 				QPoint p = tmp. point ( loop );
 				points. putPoints ( points. count ( ), 1, p. x ( ), p. y ( ));
 			}
 #else
 			tmp = tmp. cubicBezier ( );
 			points. putPoints ( points. count ( ), tmp. count ( ), tmp );			
 #endif
 
 			i += 3;
 		} 
 		else {
 			state-> transform ( subpath-> getX ( i ), subpath-> getY ( i ), &x1, &y1 );
 			
-			points. putPoints ( points. count ( ), 1, q_rnd ( x1 ), q_rnd ( y1 ));			
+			points. putPoints ( points. count ( ), 1, lrint ( x1 ), lrint ( y1 ));			
 			++i;
 		}
 	}
 	return points. count ( ) - oldcnt;
 }
 
 
 void QOutputDev::beginString ( GfxState *state, GString */*s*/ ) 
 {
 	m_text-> beginString ( state );
 }
 
 void QOutputDev::endString ( GfxState */*state*/ ) 
 {
 	m_text-> endString ( );
 }
 
 void QOutputDev::drawChar ( GfxState *state, fp_t x, fp_t y,
                            fp_t dx, fp_t dy, fp_t originX, fp_t originY,
                            CharCode code, Unicode *u, int uLen ) 
 {
 	fp_t x1, y1, dx1, dy1;
-
-	m_text-> addChar ( state, x, y, dx, dy, u, uLen );
-
+	
+	if ( uLen > 0 )
+		m_text-> addChar ( state, x, y, dx, dy, u, uLen );
 
 	// check for invisible text -- this is used by Acrobat Capture
 	if (( state-> getRender ( ) & 3 ) == 3 ) {
 		return;
 	}
 
 	x -= originX;
 	y -= originY;
 	state-> transform      ( x,  y,  &x1,  &y1 );
 	state-> transformDelta ( dx, dy, &dx1, &dy1 );
 
 
 	if ( uLen > 0 ) {
 		QString str;
 		QFontMetrics fm = m_painter-> fontMetrics ( );
 		
 		for ( int i = 0; i < uLen; i++ ) {
 			QChar c = QChar ( u [i] );
 			
 			if ( fm. inFont ( c )) {
 				str [i] = QChar ( u [i] );
 			}
 			else {
 				str [i] = ' ';
-//				qDebug ( "CHARACTER NOT IN FONT: %hx\n", c. unicode ( ));
+				QPDFDBG( printf ( "CHARACTER NOT IN FONT: %hx\n", c. unicode ( )));
 			}
 		}
 		
 		if (( uLen == 1 ) && ( str [0] == ' ' ))
 			return;
 	
 	
 		fp_t m11, m12, m21, m22;
 	
 		state-> getFontTransMat ( &m11, &m12, &m21, &m22 );
 		m11 *= state-> getHorizScaling ( );
 		m12 *= state-> getHorizScaling ( );
 		
 		fp_t fsize = m_painter-> font ( ). pixelSize ( );
 
 #ifndef QT_NO_TRANSFORMATIONS
 		QWMatrix oldmat;
 		
 		bool dorot = (( m12 < -0.1 ) || ( m12 > 0.1 )) && (( m21 < -0.1 ) || ( m21 > 0.1 ));		
 
 		if ( dorot ) {	
 			oldmat = m_painter-> worldMatrix ( );
 
 			cerr << endl << "ROTATED: " << m11 << ", " << m12 << ", " << m21 << ", " << m22 << " / SIZE: " << fsize << " / TEXT: " << str. local8Bit ( ) << endl << endl;
 						
-			QWMatrix mat ( q_rnd ( m11 / fsize ), q_rnd ( m12 / fsize ), -q_rnd ( m21 / fsize ), -q_rnd ( m22 / fsize ), q_rnd ( x1 ), q_rnd ( y1 ));
+			QWMatrix mat ( lrint ( m11 / fsize ), lrint ( m12 / fsize ), -lrint ( m21 / fsize ), -lrint ( m22 / fsize ), lrint ( x1 ), lrint ( y1 ));
 			
 			m_painter-> setWorldMatrix ( mat );
 
 			x1 = 0;
 			y1 = 0;			
 		}
 #endif
 		
 		QPen oldpen = m_painter-> pen ( );
 	
 		if (!( state-> getRender ( ) & 1 )) {
 			QPen fillpen = oldpen;
 		
 			fillpen. setColor ( m_painter-> brush ( ). color ( ));
 			m_painter-> setPen ( fillpen );
 		}	
 
 		if ( fsize > 5 )
-			m_painter-> drawText ( q_rnd ( x1 ), q_rnd ( y1 ), str );
+			m_painter-> drawText ( lrint ( x1 ), lrint ( y1 ), str );
 		else
-			m_painter-> fillRect ( q_rnd ( x1 ), q_rnd ( y1 ), q_rnd ( QMAX( fp_t(1), dx1 )), q_rnd ( QMAX( fsize, dy1 )), m_painter-> pen ( ). color ( ));
+			m_painter-> fillRect ( lrint ( x1 ), lrint ( y1 ), lrint ( QMAX( fp_t(1), dx1 )), lrint ( QMAX( fsize, dy1 )), m_painter-> pen ( ). color ( ));
 		
 		m_painter-> setPen ( oldpen );
 		
 #ifndef QT_NO_TRANSFORMATIONS
 		if ( dorot )
 			m_painter-> setWorldMatrix ( oldmat );
 #endif	
 		
-//		qDebug ( "DRAW TEXT: \"%s\" at (%d/%d)\n", str. local8Bit ( ). data ( ), q_rnd ( x1 ), q_rnd ( y1 ));
+		QPDFDBG( printf ( "DRAW TEXT: \"%s\" at (%ld/%ld)\n", str. local8Bit ( ). data ( ), lrint ( x1 ), lrint ( y1 )));
 	} 
 	else if ( code != 0 ) {
 		// some PDF files use CID 0, which is .notdef, so just ignore it
 		qWarning ( "Unknown character (CID=%d Unicode=%hx)\n", code, (unsigned short) ( uLen > 0 ? u [0] : (Unicode) 0 ));
 	}
 	qApp-> processEvents ( );
 }
 
 
 
 void QOutputDev::drawImageMask ( GfxState *state, Object */*ref*/, Stream *str, int width, int height, GBool invert, GBool inlineImg ) 
 {
 	// get CTM, check for singular matrix
 	fp_t *ctm = state-> getCTM ( );
 	
 	if ( fabs ( ctm [0] * ctm [3] - ctm [1] * ctm [2] ) < 0.000001 ) {
 		qWarning ( "Singular CTM in drawImage\n" );
 		
 		if ( inlineImg ) {
 			str-> reset ( );
 			int j = height * (( width + 7 ) / 8 );
 			for ( int i = 0; i < j; i++ )
 				str->getChar();
 
 			str->close();
 		}
 		return;
 	}
 	
 	GfxRGB rgb;	
 	state-> getFillRGB ( &rgb );
-	uint val = ( q_rnd ( rgb. r * 255 ) & 0xff ) << 16 | ( q_rnd ( rgb. g * 255 ) & 0xff ) << 8 | ( q_rnd ( rgb. b * 255 ) & 0xff );
+	uint val = ( lrint ( rgb. r * 255 ) & 0xff ) << 16 | ( lrint ( rgb. g * 255 ) & 0xff ) << 8 | ( lrint ( rgb. b * 255 ) & 0xff );
 	
 	
 	QImage img ( width, height, 32 );	
 	img. setAlphaBuffer ( true );
 
-//	qDebug ( "IMAGE MASK (%dx%d)\n", width, height );
+	QPDFDBG( printf ( "IMAGE MASK (%dx%d)\n", width, height ));
 
 	// initialize the image stream
 	ImageStream *imgStr = new ImageStream ( str, width, 1, 1 );
 	imgStr-> reset ( );
 
 	uchar **scanlines = img. jumpTable ( );
 	
 	if ( ctm [3] > 0 )
 		scanlines += ( height - 1 );
 	
 	for ( int y = 0; y < height; y++ ) {
 		QRgb *scanline = (QRgb *) *scanlines;
 	
 		if ( ctm [0] < 0 )
 			scanline += ( width - 1 );
 	
 		for ( int x = 0; x < width; x++ ) {
 			Guchar alpha;
 		
 			imgStr-> getPixel ( &alpha );
 			
 			if ( invert )
 				alpha ^= 1;
 				
@@ -779,262 +776,262 @@ void QOutputDev::drawImageMask ( GfxState *state, Object */*ref*/, Stream *str,
 		qApp-> processEvents ( );
 	}
 			
 #ifndef QT_NO_TRANSFORMATIONS			
 	QWMatrix mat ( ctm [0] / width, ctm [1], ctm [2], ctm [3] / height, ctm [4], ctm [5] );
 	
 	cerr << "MATRIX T=" << mat. dx ( ) << "/" << mat. dy ( ) << endl 
 	         << " - M=" << mat. m11 ( ) << "/" << mat. m12 ( ) << "/" << mat. m21 ( ) << "/" << mat. m22 ( ) << endl;
 	         
 	QWMatrix oldmat = m_painter-> worldMatrix ( );
 	m_painter-> setWorldMatrix ( mat, true );
 
 #ifdef QWS
 	QPixmap pm;
 	pm. convertFromImage ( img );
 	m_painter-> drawPixmap ( 0, 0, pm );
 #else
 	m_painter-> drawImage ( QPoint ( 0, 0 ), img );
 #endif
 
 	m_painter-> setWorldMatrix ( oldmat );
 
 #else
 	if (( ctm [1] < -0.1 ) || ( ctm [1] > 0.1 ) || ( ctm [2] < -0.1 ) || ( ctm [2] > 0.1 )) {
-		qDebug (  "### ROTATED / SHEARED / ETC -- CANNOT DISPLAY THIS IMAGE\n" );
+		QPDFDBG( printf (  "### ROTATED / SHEARED / ETC -- CANNOT DISPLAY THIS IMAGE\n" ));
 	}
 	else {
-		int x = q_rnd ( ctm [4] );
-		int y = q_rnd ( ctm [5] );
+		int x = lrint ( ctm [4] );
+		int y = lrint ( ctm [5] );
 		
-		int w = q_rnd ( ctm [0] );
-		int h = q_rnd ( ctm [3] );
+		int w = lrint ( ctm [0] );
+		int h = lrint ( ctm [3] );
 		
 		if ( w < 0 ) {
 			x += w;
 			w = -w;
 		}
 		if ( h < 0 ) {
 			y += h;
 			h = -h;
 		}
 	
-//		qDebug ( "DRAWING IMAGE MASKED: %d/%d - %dx%d\n", x, y, w, h );
+		QPDFDBG( printf ( "DRAWING IMAGE MASKED: %d/%d - %dx%d\n", x, y, w, h ));
 
 		img = img. smoothScale ( w, h );
 		qApp-> processEvents ( );		
 		m_painter-> drawImage ( x, y, img );
 	}
 
 #endif
 	    	
 	delete imgStr;			       
 	qApp-> processEvents ( );
 }
 
 
 void QOutputDev::drawImage(GfxState *state, Object */*ref*/, Stream *str, int width, int height, GfxImageColorMap *colorMap, int *maskColors, GBool inlineImg ) 
 {
 	int nComps, nVals, nBits;
 	
 	// image parameters
 	nComps = colorMap->getNumPixelComps ( );
 	nVals = width * nComps;
 	nBits = colorMap-> getBits ( );
 
 	// get CTM, check for singular matrix
 	fp_t *ctm = state-> getCTM ( );
 	
 	if ( fabs ( ctm [0] * ctm [3] - ctm [1] * ctm [2] ) < 0.000001 ) {
 		qWarning ( "Singular CTM in drawImage\n" );
 		
 		if ( inlineImg ) {
 			str-> reset ( );
 			int j = height * (( nVals * nBits + 7 ) / 8 );
 			for ( int i = 0; i < j; i++ )
 				str->getChar();
 
 			str->close();
 		}
 		return;
 	}
 
 	QImage img ( width, height, 32 );
 	
 	if ( maskColors )
 		img. setAlphaBuffer ( true );
 
-//	qDebug ( "IMAGE (%dx%d)\n", width, height );
+	QPDFDBG( printf ( "IMAGE (%dx%d)\n", width, height ));
 
 	// initialize the image stream
 	ImageStream *imgStr = new ImageStream ( str, width, nComps, nBits );
 	imgStr-> reset ( );
 
 	Guchar pixBuf [gfxColorMaxComps];
 	GfxRGB rgb;
 	
 
 	uchar **scanlines = img. jumpTable ( );
 	
 	if ( ctm [3] > 0 )
 		scanlines += ( height - 1 );
 	
 	for ( int y = 0; y < height; y++ ) {
 		QRgb *scanline = (QRgb *) *scanlines;
 	
 		if ( ctm [0] < 0 )
 			scanline += ( width - 1 );
 	
 		for ( int x = 0; x < width; x++ ) {
 			imgStr-> getPixel ( pixBuf );
 			colorMap-> getRGB ( pixBuf, &rgb );
 			
-			uint val = ( q_rnd ( rgb. r * 255 ) & 0xff ) << 16 | ( q_rnd ( rgb. g * 255 ) & 0xff ) << 8 | ( q_rnd ( rgb. b * 255 ) & 0xff );
+			uint val = ( lrint ( rgb. r * 255 ) & 0xff ) << 16 | ( lrint ( rgb. g * 255 ) & 0xff ) << 8 | ( lrint ( rgb. b * 255 ) & 0xff );
 			
 			if ( maskColors ) {
 				for ( int k = 0; k < nComps; ++k ) {
 					if (( pixBuf [k] < maskColors [2 * k] ) || ( pixBuf [k] > maskColors [2 * k] )) { 
 						val |= 0xff000000;
 						break;
 					}
 				}
 			}
 			*scanline = val;
 			
 			ctm [0] < 0 ? scanline-- : scanline++;
 		}
 		ctm [3] > 0 ? scanlines-- : scanlines++;
 		
 		qApp-> processEvents ( );
 	}
 
 
 #ifndef QT_NO_TRANSFORMATIONS			
 	QWMatrix mat ( ctm [0] / width, ctm [1], ctm [2], ctm [3] / height, ctm [4], ctm [5] );
 
 	cerr << "MATRIX T=" << mat. dx ( ) << "/" << mat. dy ( ) << endl 
 	         << " - M=" << mat. m11 ( ) << "/" << mat. m12 ( ) << "/" << mat. m21 ( ) << "/" << mat. m22 ( ) << endl;
 
 	QWMatrix oldmat = m_painter-> worldMatrix ( );
 	m_painter-> setWorldMatrix ( mat, true );
 
 #ifdef QWS
 	QPixmap pm;
 	pm. convertFromImage ( img );
 	m_painter-> drawPixmap ( 0, 0, pm );
 #else	
 	m_painter-> drawImage ( QPoint ( 0, 0 ), img );	
 #endif
 
 	m_painter-> setWorldMatrix ( oldmat );
 
 #else // QT_NO_TRANSFORMATIONS
 
 	if (( ctm [1] < -0.1 ) || ( ctm [1] > 0.1 ) || ( ctm [2] < -0.1 ) || ( ctm [2] > 0.1 )) {
-		qDebug ( "### ROTATED / SHEARED / ETC -- CANNOT DISPLAY THIS IMAGE\n" );
+		QPDFDBG( printf ( "### ROTATED / SHEARED / ETC -- CANNOT DISPLAY THIS IMAGE\n" ));
 	}
 	else {
-		int x = q_rnd ( ctm [4] );
-		int y = q_rnd ( ctm [5] );
+		int x = lrint ( ctm [4] );
+		int y = lrint ( ctm [5] );
 		
-		int w = q_rnd ( ctm [0] );
-		int h = q_rnd ( ctm [3] );
+		int w = lrint ( ctm [0] );
+		int h = lrint ( ctm [3] );
 		
 		if ( w < 0 ) {
 			x += w;
 			w = -w;
 		}
 		if ( h < 0 ) {
 			y += h;
 			h = -h;
 		}
 	
-//		qDebug ( "DRAWING IMAGE: %d/%d - %dx%d\n", x, y, w, h );
+		QPDFDBG( printf ( "DRAWING IMAGE: %d/%d - %dx%d\n", x, y, w, h ));
 
 		img = img. smoothScale ( w, h );		
 		qApp-> processEvents ( );		
 		m_painter-> drawImage ( x, y, img );
 	}
 	
 #endif
 
 
 	delete imgStr;
 	qApp-> processEvents ( );
 }
 
 
 
 bool QOutputDev::findText ( const QString &str, QRect &r, bool top, bool bottom )
 {
 	int l, t, w, h;
 	r. rect ( &l, &t, &w, &h );
 
 	bool res = findText ( str, l, t, w, h, top, bottom );
 
 	r. setRect ( l, t, w, h );
 	return res;
 }
 
 bool QOutputDev::findText ( const QString &str, int &l, int &t, int &w, int &h, bool top, bool bottom )
 {
 	bool found = false;
 	uint len = str. length ( );
 	Unicode *s = new Unicode [len];
 	
 	for ( uint i = 0; i < len; i++ )
 		s [i] = str [i]. unicode ( );
 
 	fp_t x1 = (fp_t) l;
 	fp_t y1 = (fp_t) t;
 	fp_t x2 = (fp_t) l + w - 1;
 	fp_t y2 = (fp_t) t + h - 1;
 
 	if ( m_text-> findText ( s, len, top, bottom, &x1, &y1, &x2, &y2 )) {		
-		l = q_rnd ( x1 );
-		t = q_rnd ( y1 );
-		w = q_rnd ( x2 ) - l + 1;
-		h = q_rnd ( y2 ) - t + 1;
+		l = lrint ( x1 );
+		t = lrint ( y1 );
+		w = lrint ( x2 ) - l + 1;
+		h = lrint ( y2 ) - t + 1;
 		found = true;
 	}
 	delete [] s;
 	
 	return found;
 }
 
 GBool QOutputDev::findText ( Unicode *s, int len, GBool top, GBool bottom, int *xMin, int *yMin, int *xMax, int *yMax )
 {
 	bool found = false;
 	fp_t xMin1 = (double) *xMin;
 	fp_t yMin1 = (double) *yMin;
 	fp_t xMax1 = (double) *xMax;
 	fp_t yMax1 = (double) *yMax;
 	
 	if ( m_text-> findText ( s, len, top, bottom, &xMin1, &yMin1, &xMax1, &yMax1 )) {
-		*xMin = q_rnd ( xMin1 );
-		*xMax = q_rnd ( xMax1 );
-		*yMin = q_rnd ( yMin1 );
-		*yMax = q_rnd ( yMax1 );
+		*xMin = lrint ( xMin1 );
+		*xMax = lrint ( xMax1 );
+		*yMin = lrint ( yMin1 );
+		*yMax = lrint ( yMax1 );
 		found = true;
 	}
 	return found;
 }
 
 QString QOutputDev::getText ( int l, int t, int w, int h )
 {
 	GString *gstr = m_text-> getText ( l, t, l + w - 1, t + h - 1 );
 	QString str = gstr-> getCString ( );
 	delete gstr;
 	return str;	
 }
 
 QString QOutputDev::getText ( const QRect &r ) 
 {
 	return getText ( r. left ( ), r. top ( ), r. width ( ), r. height ( ));
 }
 
 
 
 void QOutputDev::drawContents ( QPainter *p, int clipx, int clipy, int clipw, int cliph )
 {
 	if ( m_pixmap )
 		p-> drawPixmap ( clipx, clipy, *m_pixmap, clipx, clipy, clipw, cliph );
diff --git a/noncore/unsupported/qpdf/fixed.h b/noncore/unsupported/qpdf/fixed.h
index 111b95e..c912954 100644
--- a/noncore/unsupported/qpdf/fixed.h
+++ b/noncore/unsupported/qpdf/fixed.h
@@ -99,71 +99,91 @@ private:
 #if !_GCC_TEMPLATE_BUG_
 	friend fixed operator + <> ( int i, const fixed &f );
 	friend fixed operator - <> ( int i, const fixed &f );
 	friend fixed operator * <> ( int i, const fixed &f );
 	friend fixed operator / <> ( int i, const fixed &f );
 
 	friend fixed operator + <> ( double d, const fixed &f );
 	friend fixed operator - <> ( double d, const fixed &f );
 	friend fixed operator * <> ( double d, const fixed &f );
 	friend fixed &operator / <> ( double d, const fixed<SH> &f );
 
 	friend bool operator <  <> ( double d, const fixed &f );
 	friend bool operator >  <> ( double d, const fixed &f );
 	friend bool operator <= <> ( double d, const fixed &f );
 	friend bool operator >= <> ( double d, const fixed &f );
 	friend bool operator == <> ( double d, const fixed &f );
 	friend bool operator != <> ( double d, const fixed &f );
 
 	friend bool operator <  <> ( int i, const fixed &f );
 	friend bool operator >  <> ( int i, const fixed &f );
 	friend bool operator <= <> ( int i, const fixed &f );
 	friend bool operator >= <> ( int i, const fixed &f );
 	friend bool operator == <> ( int i, const fixed &f );
 	friend bool operator != <> ( int i, const fixed &f );
+	
+	friend long int lrint ( const fixed &f );
+	friend fixed sqrt ( const fixed &f );
+	friend fixed fabs ( const fixed &f );
 #endif
 };
 
 
 template <unsigned int SH> inline fixed<SH> operator + ( int i, const fixed<SH> &f )  { return fixed<SH> ( fixed<SH>::i2f( i ) + f. m_f, true ); }
 template <unsigned int SH> inline fixed<SH> operator - ( int i, const fixed<SH> &f )  { return fixed<SH> ( fixed<SH>::i2f( i ) - f. m_f, true ); }
 template <unsigned int SH> inline fixed<SH> operator * ( int i, const fixed<SH> &f )  { return fixed<SH> ( i * f. m_f, true ); }
 template <unsigned int SH> inline fixed<SH> operator / ( int i, const fixed<SH> &f )  { return fixed<SH> ( fixed<SH>::div ( fixed<SH>::i2f( i ), f. m_f ), true ); } 
 //template <unsigned int SH> inline fixed<SH> operator / ( int i, const fixed<SH> &f )  { return fixed<SH> ( fixed<SH>::i2f ( i / fixed<SH>::f2i ( f. m_f )), true ); } 
 
 template <unsigned int SH> inline fixed<SH> operator + ( double d, const fixed<SH> &f ) { return fixed<SH> ( fixed<SH>::d2f( d ) + f. m_f, true ); }
 template <unsigned int SH> inline fixed<SH> operator - ( double d, const fixed<SH> &f ) { return fixed<SH> ( fixed<SH>::d2f( d ) - f. m_f, true ); }
 template <unsigned int SH> inline fixed<SH> operator * ( double d, const fixed<SH> &f ) { return fixed<SH> ( fixed<SH>::mul ( fixed<SH>::d2f( d ), f. m_f ), true ); }
 template <unsigned int SH> inline fixed<SH> operator / ( double d, const fixed<SH> &f ) { return fixed<SH> ( fixed<SH>::mul ( fixed<SH>::d2f( d ), f. m_f ), true ); }
 
 template <unsigned int SH> inline bool operator <  ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) < f. m_f; }
 template <unsigned int SH> inline bool operator >  ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) > f. m_f; }
 template <unsigned int SH> inline bool operator <= ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) <= f. m_f; }
 template <unsigned int SH> inline bool operator >= ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) >= f. m_f; }
 template <unsigned int SH> inline bool operator == ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) == f. m_f; }
 template <unsigned int SH> inline bool operator != ( double d, const fixed<SH> &f ) { return fixed<SH>::d2f( d ) != f. m_f; }
 
 template <unsigned int SH> inline bool operator <  ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) < f. m_f; }
 template <unsigned int SH> inline bool operator >  ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) > f. m_f; }
 template <unsigned int SH> inline bool operator <= ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) <= f. m_f; }
 template <unsigned int SH> inline bool operator >= ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) >= f. m_f; }
 template <unsigned int SH> inline bool operator == ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) == f. m_f; }
 template <unsigned int SH> inline bool operator != ( int i, const fixed<SH> &f ) { return fixed<SH>::i2f( i ) != f. m_f; }
 
-
-template <unsigned int SH> inline fixed<SH> sqrt ( const fixed<SH> &f )
+template <unsigned int SH> inline long int lrint ( const fixed<SH> &f )
 {
-	return fixed<SH> ( double( sqrt ( double( f ))));
+	return fixed<SH>::f2i (( f. m_f < 0 ) ? f. m_f - ( 1 << ( SH - 1 )) : f. m_f + ( 1 << ( SH - 1 )));
 }
 
 template <unsigned int SH> inline fixed<SH> fabs ( const fixed<SH> &f )
 {
-	return ( f < 0 ) ? -f : f;
+	return ( f. m_f < 0 ) ? fixed<SH> ( -f. m_f, true ) : f;
+}
+
+// roughly from QPE / qmath.h 
+template <unsigned int SH> inline fixed<SH> sqrt ( const fixed<SH> &f )
+{
+	if ( f. m_f <= 0 )
+		return fixed<SH> ( 0, true );
+		
+	fixed<SH>::fix_t a0 = 0;
+	fixed<SH>::fix_t a1 = f. m_f; // take value as first approximation
+	
+	do {
+		a0 = a1;
+		a1 = ( a0 + fixed<SH>::div ( f. m_f, a0 )) >> 1;
+	} while ( abs ( fixed<SH>::div ( a1 - a0,  a1 )) > 1 );
+	
+	return fixed<SH> ( a1, true );
 }
 
 template <unsigned int SH> inline ostream &operator << ( ostream &o, const fixed<SH> &f )
 {
 	o << double( f );
 	return o;
 }
 
 #endif
diff --git a/noncore/unsupported/qpdf/qpdf.pro b/noncore/unsupported/qpdf/qpdf.pro
index 6ba4f49..0c2e38b 100644
--- a/noncore/unsupported/qpdf/qpdf.pro
+++ b/noncore/unsupported/qpdf/qpdf.pro
@@ -31,30 +31,30 @@ SOURCES     =  xpdf/Array.cc \
                xpdf/TextOutputDev.cc \
                xpdf/UnicodeMap.cc \
                xpdf/XRef.cc \	
                goo/GHash.cc \
                goo/GString.cc \
                goo/GList.cc \
                QOutputDev.cpp \
                QPEOutputDev.cpp \
                qpdf.cpp \
                qbusybar.cpp \
                gooStub.cpp
 
 HEADERS     =  QOutputDev.h \
                QPEOutputDev.h \
                qbusybar.h \
                qpdf.h
 
 INCLUDEPATH += . \
                .. \
                xpdf \
                $(OPIEDIR)/include \
                ../goo \ 
                goo
                
-LIBS        += -L $(OPIEDIR)/lib -lqpe -lstdc++
+LIBS        += -L $(OPIEDIR)/lib -lqpe
 
 DESTDIR      = $(OPIEDIR)/bin
 TARGET       = qpdf
 
 TRANSLATIONS = ../../i18n/de/qpdf.ts